This document summarizes the results of a geotechnical study of the inner shelf off Mutyalammapalem-
Pudimadaka on the north Andhra Pradesh coast of India. Surveys were conducted using a mechanized boat and RV Samudra Kaustubh to collect bathymetry, sediment, and geophysical data. The seafloor slopes gently offshore with parallel bathymetric contours. Shallow seismic surveys detected two subsurface reflectors dipping offshore. Sediments were uniformly sandy and extended to a depth of 30m. Current speeds ranged from 0.3-0.5 knots. The direction of littoral drift was northeast at 0.1-0.4 knots. Sediment
Geotechnical Investigation of upper Keng Tawng Damijtsrd
There are four different types of geological formation and group. In western part of the project area, calcitic nature of Upper Plateau Limestone is found nearby north south trending intra formational fault. About two third of the mapped area is consisted of red coloured sandstone, siltstone, marl and conglomerate of Kalaw Formation in age of cretaceous. In centre of the formation, permo carboniferous aged Plateau Limestone, triassic aged Natteik Limestone and jurassic aged Loi An Group are exposed as inliers. The two formations, Natteik Limestone and Plateau Limestone, are cross cut by northeast trending faults interpreted with aerial photo analysis of the area. The project area lies within the Kalaw Formation. Five main types of rock mass classes are identified according to CRIEPI. They are CH, Cl, CM, CH and D class. The Lugeon values at the Upper Keng Tawng dam site area are less than 5 lugeon after the grouting. The main purposes of Tawng dam regional development The project electricity 51 MW and average energy in annual is 267 MWh. Man Deih Cing | Hla Myat Htwe "Geotechnical Investigation of upper Keng Tawng Dam" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-5 , August 2019, URL: https://www.ijtsrd.com/papers/ijtsrd26678.pdfPaper URL: https://www.ijtsrd.com/engineering/geological-engineering/26678/geotechnical-investigation-of-upper-keng-tawng-dam/man-deih-cing
The International Journal of Engineering and Science (The IJES)theijes
The International Journal of Engineering & Science is aimed at providing a platform for researchers, engineers, scientists, or educators to publish their original research results, to exchange new ideas, to disseminate information in innovative designs, engineering experiences and technological skills. It is also the Journal's objective to promote engineering and technology education. All papers submitted to the Journal will be blind peer-reviewed. Only original articles will be published.
Geotechnical Investigation of upper Keng Tawng Damijtsrd
There are four different types of geological formation and group. In western part of the project area, calcitic nature of Upper Plateau Limestone is found nearby north south trending intra formational fault. About two third of the mapped area is consisted of red coloured sandstone, siltstone, marl and conglomerate of Kalaw Formation in age of cretaceous. In centre of the formation, permo carboniferous aged Plateau Limestone, triassic aged Natteik Limestone and jurassic aged Loi An Group are exposed as inliers. The two formations, Natteik Limestone and Plateau Limestone, are cross cut by northeast trending faults interpreted with aerial photo analysis of the area. The project area lies within the Kalaw Formation. Five main types of rock mass classes are identified according to CRIEPI. They are CH, Cl, CM, CH and D class. The Lugeon values at the Upper Keng Tawng dam site area are less than 5 lugeon after the grouting. The main purposes of Tawng dam regional development The project electricity 51 MW and average energy in annual is 267 MWh. Man Deih Cing | Hla Myat Htwe "Geotechnical Investigation of upper Keng Tawng Dam" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-5 , August 2019, URL: https://www.ijtsrd.com/papers/ijtsrd26678.pdfPaper URL: https://www.ijtsrd.com/engineering/geological-engineering/26678/geotechnical-investigation-of-upper-keng-tawng-dam/man-deih-cing
The International Journal of Engineering and Science (The IJES)theijes
The International Journal of Engineering & Science is aimed at providing a platform for researchers, engineers, scientists, or educators to publish their original research results, to exchange new ideas, to disseminate information in innovative designs, engineering experiences and technological skills. It is also the Journal's objective to promote engineering and technology education. All papers submitted to the Journal will be blind peer-reviewed. Only original articles will be published.
Geology of parts of Gboko and Makurdi Local Government Areas, Benue State, Ni...Premier Publishers
The study area lies within the middle Benue trough consisting of a sedimentary terrain, and igneous rocks at the northern part. The area has three drainage basins separated by a water divide that trends nearly north-south. The sedimentary terrain comprises mainly sandstone of Makurdi Sandstone with common fold axes trending Southwest-Northeast. It has grain size distribution and stratigraphic signatures suggestive of fluvial environment. The limestone unit is of a smaller area and circumscribed by the sandstone. Fossils identified in the limestone include mostly pelecypods, gastropods and ammoids. The limestone unit is a probable member of Eze-Aku shale. Evidence of igneous activity in the study area is the emplacement of extrusive and intrusive rocks. The extensive rock is porphyritic basalt, with olivine phenocrysts, augite and analcite. The mineral assemblage suggests that the basalt is of alkaline affinity. The intrusive rocks are dolerite and felsic dolerite, with predominance of lime-bearing plagioclase over all other minerals in the felsic dolerite.
The International Journal of Engineering and Science (The IJES)theijes
The International Journal of Engineering & Science is aimed at providing a platform for researchers, engineers, scientists, or educators to publish their original research results, to exchange new ideas, to disseminate information in innovative designs, engineering experiences and technological skills. It is also the Journal's objective to promote engineering and technology education. All papers submitted to the Journal will be blind peer-reviewed. Only original articles will be published.
The papers for publication in The International Journal of Engineering& Science are selected through rigorous peer reviews to ensure originality, timeliness, relevance, and readability.
Determining the Hydrocarbon Generative Potential of the Turonian Eze-Aku Shal...Premier Publishers
The Nigeria Benue Trough is an intracratonic rift structure whose evolution is related to the early Cretaceous opening of the South Atlantic Ocean and the Gulf of Guinea. Study of the lower Benue Trough has revealed that the lower Benue Trough is rich in organic matters and as such capable of yielding significant quantity of hydrocarbons. The Eze-Aku shale in Ibii area is located in the lower part of Benue Trough. Five (5) representative Turonian Eze-Aku Shale samples were collected and analyzed to assess the petroleum generative potential by sediment logical analysis. The Shale (Eze-Aku Shale) is dark grey in color and highly fissile. From analysis carried out the Total Organic Carbon (TOC) content of the Eze-Aku Shale sample from the five (5) sections ranges from 0.51 to 1.17wt. %. The amount of Organic Carbon Content exceeds the minimal 0.5 wt. % threshold for a potential source rock, which indicates that the Shale can generate oil and gas, also the percentage of Organic Matters (OM) as shown ranges from 91.90% to 98.00% suggest a high contribution of organic matter which supports the accumulation of hydrocarbon.
Tectonic Processes and Metallogeny along the Tethyan Mountain Ranges of the M...MYO AUNG Myanmar
https://www.researchgate.net/publication/309130798_Tectonic_Processes_and_Metallogeny_along_the_Tethyan_Mountain_Ranges_of_the_Middle_East_and_South_Asia_Oman_Himalaya_Karakoram_Tibet_Myanmar_Thailand_Malaysia
The genesis of mineral deposits has been widely linked to speci c tectonic settings, but has less frequently been linked to tectonic processes. Understanding processes of oceanic and continental collision tectonics is crucial to understanding key factors leading to the genesis of magmatic-, metamorphic-, hydrothermal-, and sedimentary-related mineral deposits. Geologic studies of most ore deposits typically focus on the nal stages of concentration and emplacement. The ultimate source (mantle, lower crust, upper crust) of mineral deposits in many cases remains more cryptic. Uniquely, along the Tethyan collision zones of Asia, every stage of the conver- gence process can be studied from the initial oceanic settings where ophiolite complexes were formed, through subduction zone and island-arc settings with ultrahigh- to high-pressure metamorphism, to the continental col- lision settings of the Himalaya, and advanced, long-lived collisional settings such as Afghanistan, the Karakoram Ranges, and the Tibetan plateau. The India-Asia collision closed the intervening Neotethys ocean at ~50 Ma and resulted in the formation of the Himalayan mountain ranges, and increased crustal thickening, metamor- phism, deformation, and uplift of the Karakoram-Hindu Kush ranges, Tibetan plateau, and older collision zones across central Asia. Metallogenesis in oceanic crust (hydrothermal Cu-Au; Fe, Mn nodules) and mantle (Cr, Ni, Pt) can be deduced from ophiolite complexes preserved around the Arabia/India-Asia collision (Oman, Ladakh, South Tibet, Myanmar, Andaman Islands). Tectonic-metallogenic processes in island arcs and ancient subduc- tion complexes (VMS Cu-Zn-Pb) can be deduced from studies in the Dras-Kohistan arc (Pakistan) and the various arc complexes along the Myanmar-Andaman segment of the collision zone. Metallogenesis of Andean- type margins (Cu-Au-Mo porphyry; epithermal Au-Ag) can be seen along the Jurassic-Eocene Transhimalayan ranges of Pakistan, Ladakh, South Tibet, and Myanmar. Large porphyry Cu deposits in Tibet are related to both precollisional calc-alkaline granites and postcollisional alkaline adakite-like intrusions. Metallogenesis of continent-continent collision zones is prominent along the Myanmar-Thailand-Malaysia Sn-W granite belts, but less common along the Himalaya. The Mogok metamorphic belt of Myanmar is known for its gemstones associated with regional high-temperature metamorphism (ruby, spinel, sapphire, etc). In Myanmar it is likely that extensive alkaline magmatism has contributed extra heat during the formation of high-temperature meta- morphism. This paper attempts to link metallogeny of the Himalaya-Karakoram-Tibet and Myanmar collision zone to tectonic processes derived from multidisciplinary geologic studies.
Tectono-magmatic Development of Accreted West Burma Block from Gondwana Land-...MYO AUNG Myanmar
Western Myanmar, between the strike-slip Sagiang Fault in the east and the frontal thrusts of the Indo-Burman Ranges in the west, was identified by Mitchell (1989) as an allochthonous continental block, now largely overlain by Cenozoic sediments and an active magmatic arc.
Mitchell (1989) named this continental block ‘Mount Victoria Land’ from an occurrence of metamorphic rocks, taken to represent the outcrop of the continental basement. This block has been termed the ‘West Burma Block’ by Hutchison (1989).
International Journal of Engineering Research and Development (IJERD)IJERD Editor
journal publishing, how to publish research paper, Call For research paper, international journal, publishing a paper, IJERD, journal of science and technology, how to get a research paper published, publishing a paper, publishing of journal, publishing of research paper, reserach and review articles, IJERD Journal, How to publish your research paper, publish research paper, open access engineering journal, Engineering journal, Mathemetics journal, Physics journal, Chemistry journal, Computer Engineering, Computer Science journal, how to submit your paper, peer reviw journal, indexed journal, reserach and review articles, engineering journal, www.ijerd.com, research journals,
yahoo journals, bing journals, International Journal of Engineering Research and Development, google journals, hard copy of journal
Geotechnical Investigation for Design and Construction of Civil Infrastructur...theijes
The International Journal of Engineering & Science is aimed at providing a platform for researchers, engineers, scientists, or educators to publish their original research results, to exchange new ideas, to disseminate information in innovative designs, engineering experiences and technological skills. It is also the Journal's objective to promote engineering and technology education. All papers submitted to the Journal will be blind peer-reviewed. Only original articles will be published.
evaluation of water resources in wadi el natrun, western desert, egyptIJEAB
Groundwater of the Pliocene aquifer in Wadi El Natrun area represents the primary source of reliable water for drinking and agriculture uses. This research focuses on the study of the different sources of water in the study area and determines the origin and quality of this waterand also is interested in studying hydrogeochemical processes that affect them and the movement of water through the analysis and determine the activity of different elements, and also to changes in hypothetical salts with the direction of water flow in three sectors of the region and the statement of the most important geochemical processes that occur. Finally it is evaluated the suitability of the water for different purposes. The results show that, there is a zonation of chemical composition; this zonation is characterized by a change of cation species from dominantly Ca and Mg near the east to Na-dominated waters in the west. Mirroring this, anions change from HCO3 type to Cl and SO4 type.The ions displays two grades of metasomatism along flow path, first the stage of mineralization(HCO3>Cl>So4) at the east then the advanced stage of mineralization (Cl>SO4 >HCO3) at the west. According to the(W.H.O.2005), 45 % of tested groundwater samples are permissible for drinking. Most groundwater samples of the Pliocene according to SAR andRSC are suitable for irrigation purposes under normal condition, but all surface water samples (lakes) are saline water,so it is not valid for drinking or irrigation purposes.
A Review of Engineering Geology in TanzaniaIJRES Journal
This paper briefly summaries the engineering geology importance to the development of Tanzania. Tanzania is situated in geologically active region and hence it is subjected to various earthquake and volcanic related hazards. Other factors such as high annual rainfall, rugged topography and intense weathering when combined with earthquake and volcanic related hazards makes Tanzania an extremely challenging and interesting environment for geological engineers. Several large open pit mining operations such as Geita and Buzwagi and the design of tailing dams have involved considerable input from geological engineers both in terms design and development of necessary infrastructures. The construction and maintenance of roads is an important factor in the growth of Tanzania and both major and minor roads have been affected by slope instability problems. The development of hydroelectric power has also involved a significant input from geological engineers in the design and construction of dams and its related structures.
Welcome to International Journal of Engineering Research and Development (IJERD)IJERD Editor
call for paper 2012, hard copy of journal, research paper publishing, where to publish research paper,
journal publishing, how to publish research paper, Call For research paper, international journal, publishing a paper, IJERD, journal of science and technology, how to get a research paper published, publishing a paper, publishing of journal, publishing of research paper, reserach and review articles, IJERD Journal, How to publish your research paper, publish research paper, open access engineering journal, Engineering journal, Mathemetics journal, Physics journal, Chemistry journal, Computer Engineering, Computer Science journal, how to submit your paper, peer reviw journal, indexed journal, reserach and review articles, engineering journal, www.ijerd.com, research journals
Welcome to International Journal of Engineering Research and Development (IJERD)IJERD Editor
call for paper 2012, hard copy of journal, research paper publishing, where to publish research paper,
journal publishing, how to publish research paper, Call For research paper, international journal, publishing a paper, IJERD, journal of science and technology, how to get a research paper published, publishing a paper, publishing of journal, publishing of research paper, reserach and review articles, IJERD Journal, How to publish your research paper, publish research paper, open access engineering journal, Engineering journal, Mathemetics journal, Physics journal, Chemistry journal, Computer Engineering, Computer Science journal, how to submit your paper, peer reviw journal, indexed journal, reserach and review articles, engineering journal, www.ijerd.com, research journals
Geology of parts of Gboko and Makurdi Local Government Areas, Benue State, Ni...Premier Publishers
The study area lies within the middle Benue trough consisting of a sedimentary terrain, and igneous rocks at the northern part. The area has three drainage basins separated by a water divide that trends nearly north-south. The sedimentary terrain comprises mainly sandstone of Makurdi Sandstone with common fold axes trending Southwest-Northeast. It has grain size distribution and stratigraphic signatures suggestive of fluvial environment. The limestone unit is of a smaller area and circumscribed by the sandstone. Fossils identified in the limestone include mostly pelecypods, gastropods and ammoids. The limestone unit is a probable member of Eze-Aku shale. Evidence of igneous activity in the study area is the emplacement of extrusive and intrusive rocks. The extensive rock is porphyritic basalt, with olivine phenocrysts, augite and analcite. The mineral assemblage suggests that the basalt is of alkaline affinity. The intrusive rocks are dolerite and felsic dolerite, with predominance of lime-bearing plagioclase over all other minerals in the felsic dolerite.
The International Journal of Engineering and Science (The IJES)theijes
The International Journal of Engineering & Science is aimed at providing a platform for researchers, engineers, scientists, or educators to publish their original research results, to exchange new ideas, to disseminate information in innovative designs, engineering experiences and technological skills. It is also the Journal's objective to promote engineering and technology education. All papers submitted to the Journal will be blind peer-reviewed. Only original articles will be published.
The papers for publication in The International Journal of Engineering& Science are selected through rigorous peer reviews to ensure originality, timeliness, relevance, and readability.
Determining the Hydrocarbon Generative Potential of the Turonian Eze-Aku Shal...Premier Publishers
The Nigeria Benue Trough is an intracratonic rift structure whose evolution is related to the early Cretaceous opening of the South Atlantic Ocean and the Gulf of Guinea. Study of the lower Benue Trough has revealed that the lower Benue Trough is rich in organic matters and as such capable of yielding significant quantity of hydrocarbons. The Eze-Aku shale in Ibii area is located in the lower part of Benue Trough. Five (5) representative Turonian Eze-Aku Shale samples were collected and analyzed to assess the petroleum generative potential by sediment logical analysis. The Shale (Eze-Aku Shale) is dark grey in color and highly fissile. From analysis carried out the Total Organic Carbon (TOC) content of the Eze-Aku Shale sample from the five (5) sections ranges from 0.51 to 1.17wt. %. The amount of Organic Carbon Content exceeds the minimal 0.5 wt. % threshold for a potential source rock, which indicates that the Shale can generate oil and gas, also the percentage of Organic Matters (OM) as shown ranges from 91.90% to 98.00% suggest a high contribution of organic matter which supports the accumulation of hydrocarbon.
Tectonic Processes and Metallogeny along the Tethyan Mountain Ranges of the M...MYO AUNG Myanmar
https://www.researchgate.net/publication/309130798_Tectonic_Processes_and_Metallogeny_along_the_Tethyan_Mountain_Ranges_of_the_Middle_East_and_South_Asia_Oman_Himalaya_Karakoram_Tibet_Myanmar_Thailand_Malaysia
The genesis of mineral deposits has been widely linked to speci c tectonic settings, but has less frequently been linked to tectonic processes. Understanding processes of oceanic and continental collision tectonics is crucial to understanding key factors leading to the genesis of magmatic-, metamorphic-, hydrothermal-, and sedimentary-related mineral deposits. Geologic studies of most ore deposits typically focus on the nal stages of concentration and emplacement. The ultimate source (mantle, lower crust, upper crust) of mineral deposits in many cases remains more cryptic. Uniquely, along the Tethyan collision zones of Asia, every stage of the conver- gence process can be studied from the initial oceanic settings where ophiolite complexes were formed, through subduction zone and island-arc settings with ultrahigh- to high-pressure metamorphism, to the continental col- lision settings of the Himalaya, and advanced, long-lived collisional settings such as Afghanistan, the Karakoram Ranges, and the Tibetan plateau. The India-Asia collision closed the intervening Neotethys ocean at ~50 Ma and resulted in the formation of the Himalayan mountain ranges, and increased crustal thickening, metamor- phism, deformation, and uplift of the Karakoram-Hindu Kush ranges, Tibetan plateau, and older collision zones across central Asia. Metallogenesis in oceanic crust (hydrothermal Cu-Au; Fe, Mn nodules) and mantle (Cr, Ni, Pt) can be deduced from ophiolite complexes preserved around the Arabia/India-Asia collision (Oman, Ladakh, South Tibet, Myanmar, Andaman Islands). Tectonic-metallogenic processes in island arcs and ancient subduc- tion complexes (VMS Cu-Zn-Pb) can be deduced from studies in the Dras-Kohistan arc (Pakistan) and the various arc complexes along the Myanmar-Andaman segment of the collision zone. Metallogenesis of Andean- type margins (Cu-Au-Mo porphyry; epithermal Au-Ag) can be seen along the Jurassic-Eocene Transhimalayan ranges of Pakistan, Ladakh, South Tibet, and Myanmar. Large porphyry Cu deposits in Tibet are related to both precollisional calc-alkaline granites and postcollisional alkaline adakite-like intrusions. Metallogenesis of continent-continent collision zones is prominent along the Myanmar-Thailand-Malaysia Sn-W granite belts, but less common along the Himalaya. The Mogok metamorphic belt of Myanmar is known for its gemstones associated with regional high-temperature metamorphism (ruby, spinel, sapphire, etc). In Myanmar it is likely that extensive alkaline magmatism has contributed extra heat during the formation of high-temperature meta- morphism. This paper attempts to link metallogeny of the Himalaya-Karakoram-Tibet and Myanmar collision zone to tectonic processes derived from multidisciplinary geologic studies.
Tectono-magmatic Development of Accreted West Burma Block from Gondwana Land-...MYO AUNG Myanmar
Western Myanmar, between the strike-slip Sagiang Fault in the east and the frontal thrusts of the Indo-Burman Ranges in the west, was identified by Mitchell (1989) as an allochthonous continental block, now largely overlain by Cenozoic sediments and an active magmatic arc.
Mitchell (1989) named this continental block ‘Mount Victoria Land’ from an occurrence of metamorphic rocks, taken to represent the outcrop of the continental basement. This block has been termed the ‘West Burma Block’ by Hutchison (1989).
International Journal of Engineering Research and Development (IJERD)IJERD Editor
journal publishing, how to publish research paper, Call For research paper, international journal, publishing a paper, IJERD, journal of science and technology, how to get a research paper published, publishing a paper, publishing of journal, publishing of research paper, reserach and review articles, IJERD Journal, How to publish your research paper, publish research paper, open access engineering journal, Engineering journal, Mathemetics journal, Physics journal, Chemistry journal, Computer Engineering, Computer Science journal, how to submit your paper, peer reviw journal, indexed journal, reserach and review articles, engineering journal, www.ijerd.com, research journals,
yahoo journals, bing journals, International Journal of Engineering Research and Development, google journals, hard copy of journal
Geotechnical Investigation for Design and Construction of Civil Infrastructur...theijes
The International Journal of Engineering & Science is aimed at providing a platform for researchers, engineers, scientists, or educators to publish their original research results, to exchange new ideas, to disseminate information in innovative designs, engineering experiences and technological skills. It is also the Journal's objective to promote engineering and technology education. All papers submitted to the Journal will be blind peer-reviewed. Only original articles will be published.
evaluation of water resources in wadi el natrun, western desert, egyptIJEAB
Groundwater of the Pliocene aquifer in Wadi El Natrun area represents the primary source of reliable water for drinking and agriculture uses. This research focuses on the study of the different sources of water in the study area and determines the origin and quality of this waterand also is interested in studying hydrogeochemical processes that affect them and the movement of water through the analysis and determine the activity of different elements, and also to changes in hypothetical salts with the direction of water flow in three sectors of the region and the statement of the most important geochemical processes that occur. Finally it is evaluated the suitability of the water for different purposes. The results show that, there is a zonation of chemical composition; this zonation is characterized by a change of cation species from dominantly Ca and Mg near the east to Na-dominated waters in the west. Mirroring this, anions change from HCO3 type to Cl and SO4 type.The ions displays two grades of metasomatism along flow path, first the stage of mineralization(HCO3>Cl>So4) at the east then the advanced stage of mineralization (Cl>SO4 >HCO3) at the west. According to the(W.H.O.2005), 45 % of tested groundwater samples are permissible for drinking. Most groundwater samples of the Pliocene according to SAR andRSC are suitable for irrigation purposes under normal condition, but all surface water samples (lakes) are saline water,so it is not valid for drinking or irrigation purposes.
A Review of Engineering Geology in TanzaniaIJRES Journal
This paper briefly summaries the engineering geology importance to the development of Tanzania. Tanzania is situated in geologically active region and hence it is subjected to various earthquake and volcanic related hazards. Other factors such as high annual rainfall, rugged topography and intense weathering when combined with earthquake and volcanic related hazards makes Tanzania an extremely challenging and interesting environment for geological engineers. Several large open pit mining operations such as Geita and Buzwagi and the design of tailing dams have involved considerable input from geological engineers both in terms design and development of necessary infrastructures. The construction and maintenance of roads is an important factor in the growth of Tanzania and both major and minor roads have been affected by slope instability problems. The development of hydroelectric power has also involved a significant input from geological engineers in the design and construction of dams and its related structures.
Welcome to International Journal of Engineering Research and Development (IJERD)IJERD Editor
call for paper 2012, hard copy of journal, research paper publishing, where to publish research paper,
journal publishing, how to publish research paper, Call For research paper, international journal, publishing a paper, IJERD, journal of science and technology, how to get a research paper published, publishing a paper, publishing of journal, publishing of research paper, reserach and review articles, IJERD Journal, How to publish your research paper, publish research paper, open access engineering journal, Engineering journal, Mathemetics journal, Physics journal, Chemistry journal, Computer Engineering, Computer Science journal, how to submit your paper, peer reviw journal, indexed journal, reserach and review articles, engineering journal, www.ijerd.com, research journals
Welcome to International Journal of Engineering Research and Development (IJERD)IJERD Editor
call for paper 2012, hard copy of journal, research paper publishing, where to publish research paper,
journal publishing, how to publish research paper, Call For research paper, international journal, publishing a paper, IJERD, journal of science and technology, how to get a research paper published, publishing a paper, publishing of journal, publishing of research paper, reserach and review articles, IJERD Journal, How to publish your research paper, publish research paper, open access engineering journal, Engineering journal, Mathemetics journal, Physics journal, Chemistry journal, Computer Engineering, Computer Science journal, how to submit your paper, peer reviw journal, indexed journal, reserach and review articles, engineering journal, www.ijerd.com, research journals
Welcome to International Journal of Engineering Research and Development (IJERD)IJERD Editor
call for paper 2012, hard copy of journal, research paper publishing, where to publish research paper,
journal publishing, how to publish research paper, Call For research paper, international journal, publishing a paper, IJERD, journal of science and technology, how to get a research paper published, publishing a paper, publishing of journal, publishing of research paper, reserach and review articles, IJERD Journal, How to publish your research paper, publish research paper, open access engineering journal, Engineering journal, Mathemetics journal, Physics journal, Chemistry journal, Computer Engineering, Computer Science journal, how to submit your paper, peer reviw journal, indexed journal, reserach and review articles, engineering journal, www.ijerd.com, research journals
Enzymatic Saccharification of Lignocellulosic BiomassBiorefineryEPC™
Enzymatic Saccharification of Lignocellulosic Biomass
YOU AGREE TO INDEMNIFY BiorefineryEPCTM , AND ITS AFFILIATES, OFFICERS, AGENTS, AND EMPLOYEES AGAINST ANY CLAIM OR DEMAND, INCLUDING REASONABLE ATTORNEYS' FEES, RELATED TO YOUR USE, RELIANCE, OR ADOPTION OF THE DATA FOR ANY PURPOSE WHATSOEVER. THE DATA ARE PROVIDED BY BiorefineryEPCTM "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING BUT NOT LIMITED TO THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE EXPRESSLY DISCLAIMED. IN NO EVENT SHALL BiorefineryEPCTM BE LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER, INCLUDING BUT NOT LIMITED TO CLAIMS ASSOCIATED WITH THE LOSS OF DATA OR PROFITS, WHICH MAY RESULT FROM ANY ACTION IN CONTRACT, NEGLIGENCE OR OTHER TORTIOUS CLAIM THAT ARISES OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THE DATA.
The study of physical oceanography helps in understanding all these aspects in detail. Let us see most of these factors and processes in our future modules. Mathematical models of all these processes are also developed using these phenomena and mechanisms. The individual aspects of all the elements of physical oceanography are to be studied in detail.
Spatial and temporal hydrochemistry variations of karst water in Gunung Sewu,...UniversitasGadjahMada
A hydrogeochemical study was conducted in the
Gunung Sewu Karst, Java Island, Indonesia. The main
objective of this study is to describe the spatial and temporal
variations of hydrochemistry that occur in the central
and western parts of Gunung Sewu. Discharge measurements
for a one-year period are taken in some karst springs
or underground rivers to define their discharge hydrograph.
Furthermore, baseflow separation analysis was conducted
to determine the base flow percentage throughout the year.
Water sampling for hydrogeochemical analysis was taken
every month to represent the dry and rainy season conditions.
To describe the hydrogeochemical processes, a
scatter plot analysis with a small sample size was conducted.
The results showed that the hydrochemistry of karst
water in the study area has different characteristics spatially
and temporally. Within the dry season, the dominant
hydrogeochemical process is water–rock interaction (precipitation
of calcite mineral), indicated by achieving the
maximum level of Ca2?, HCO3
-, electrical conductivity,
base flow percentage, and SI calcite, with the lowest level
of log PCO2 in the water. In addition, the dry season
hydrochemistry is characterized by a strong relationship
between electrical conductivity–calcium/bicarbonate, base
flow percentage-discharge, base flow percentage-SI calcite,
and SI calcite-log PCO2 . Spatially, the different level of
correlations between these parameters depended on the
sampling location, flow recharge, and the conduit development.
Conversely, in the rainy season, the hydrogeochemical
process shifted from water–rock interaction to
dilution of rainwater as a result of rain water supply
through a conduit system channel, which is characterized
by declining Ca2?, HCO3
-, electrical conductivity, base
flow percentage, and SI calcite, with the highest level of
log PCO2 in the water. The dilution of rainwater process
also caused a decline in the correlation of some hydrogeochemical
parameters.
Integrated Geophysical Studies Over Parts of Central Cross River State for th...iosrjce
A total of 71 Vertical Electrical Soundings were carried out using Schlumberger electrode
configuration for the evaluation of groundwater potential in parts of central Cross River State, Nigeria.
Interpretation of data showed three to six geoelectric layers. Productive shallow and deep aquifer zones were
identified at depths of 60 m and 150 m respectively, corresponding to a resistivity range of 100-500 Ωm for
shallow aquifers and 1000-2500 Ωm for deep aquifers respectively. The lithologic data of the aquifers revealed
sand/sandstone and very coarsed grained sand/fractured basement, respectively. Seismic refraction survey was
also carried out within the same study area for the foundation study of rocks. The studies revealed an average
thickness of 4.5 m (probably sand/clay) and 10.0 m (probably gravelly sand/shale) for the first and second
layers respectively. The range of velocities for the first three layers are 602 m/s to 960 m/s, 378 m/s to 2,424 m/s
and 1,587 m/s to 5,368 m/s, respectively, indicating that the soils in the area are not homogeneous. It is inferred
from the relative high values of calculated elastic constants in most of the locations, that the soils are well
consolidated and as such suitable for large engineering construction in such locations, while in the rest of the
locations the soils are considered unconsolidated and unsuitable for large construction work due to the relative
low values of the elastic constants.
The Physical Oceanography is an essential part of the study in oceanography. It is the study of physical conditions and physical processes within the ocean, especially the motions and physical properties of ocean waters.
Advances in Geological and Geotechnical Engineering Research | Vol.2, Iss.1 J...Bilingual Publishing Group
Geomorphological Evolution and Palaeoenvironmental Change in the Western Alashan Plateau, China
The Application of Geophysical Techniques in Tracking Leachate Plumes Migration in a Typical Cemetery within the Sandy formation in Benin City, Nigeria
Analysing the Influencing Factors of a Postgenetic Subsidence Doline’s Development Using Model Experiments
Properties of Natural Catastrophes
The subject of studying the physical, chemical and biological conditions of oceans is called as Oceanography.
It is an inter-disciplinary subject and an emerging area for marine engineering. It is the science of seas and oceans.
A Novel Method for Prevention of Bandwidth Distributed Denial of Service AttacksIJERD Editor
Distributed Denial of Service (DDoS) Attacks became a massive threat to the Internet. Traditional
Architecture of internet is vulnerable to the attacks like DDoS. Attacker primarily acquire his army of Zombies,
then that army will be instructed by the Attacker that when to start an attack and on whom the attack should be
done. In this paper, different techniques which are used to perform DDoS Attacks, Tools that were used to
perform Attacks and Countermeasures in order to detect the attackers and eliminate the Bandwidth Distributed
Denial of Service attacks (B-DDoS) are reviewed. DDoS Attacks were done by using various Flooding
techniques which are used in DDoS attack.
The main purpose of this paper is to design an architecture which can reduce the Bandwidth
Distributed Denial of service Attack and make the victim site or server available for the normal users by
eliminating the zombie machines. Our Primary focus of this paper is to dispute how normal machines are
turning into zombies (Bots), how attack is been initiated, DDoS attack procedure and how an organization can
save their server from being a DDoS victim. In order to present this we implemented a simulated environment
with Cisco switches, Routers, Firewall, some virtual machines and some Attack tools to display a real DDoS
attack. By using Time scheduling, Resource Limiting, System log, Access Control List and some Modular
policy Framework we stopped the attack and identified the Attacker (Bot) machines
Hearing loss is one of the most common human impairments. It is estimated that by year 2015 more
than 700 million people will suffer mild deafness. Most can be helped by hearing aid devices depending on the
severity of their hearing loss. This paper describes the implementation and characterization details of a dual
channel transmitter front end (TFE) for digital hearing aid (DHA) applications that use novel micro
electromechanical- systems (MEMS) audio transducers and ultra-low power-scalable analog-to-digital
converters (ADCs), which enable a very-low form factor, energy-efficient implementation for next-generation
DHA. The contribution of the design is the implementation of the dual channel MEMS microphones and powerscalable
ADC system.
Influence of tensile behaviour of slab on the structural Behaviour of shear c...IJERD Editor
-A composite beam is composed of a steel beam and a slab connected by means of shear connectors
like studs installed on the top flange of the steel beam to form a structure behaving monolithically. This study
analyzes the effects of the tensile behavior of the slab on the structural behavior of the shear connection like slip
stiffness and maximum shear force in composite beams subjected to hogging moment. The results show that the
shear studs located in the crack-concentration zones due to large hogging moments sustain significantly smaller
shear force and slip stiffness than the other zones. Moreover, the reduction of the slip stiffness in the shear
connection appears also to be closely related to the change in the tensile strain of rebar according to the increase
of the load. Further experimental and analytical studies shall be conducted considering variables such as the
reinforcement ratio and the arrangement of shear connectors to achieve efficient design of the shear connection
in composite beams subjected to hogging moment.
Gold prospecting using Remote Sensing ‘A case study of Sudan’IJERD Editor
Gold has been extracted from northeast Africa for more than 5000 years, and this may be the first
place where the metal was extracted. The Arabian-Nubian Shield (ANS) is an exposure of Precambrian
crystalline rocks on the flanks of the Red Sea. The crystalline rocks are mostly Neoproterozoic in age. ANS
includes the nations of Israel, Jordan. Egypt, Saudi Arabia, Sudan, Eritrea, Ethiopia, Yemen, and Somalia.
Arabian Nubian Shield Consists of juvenile continental crest that formed between 900 550 Ma, when intra
oceanic arc welded together along ophiolite decorated arc. Primary Au mineralization probably developed in
association with the growth of intra oceanic arc and evolution of back arc. Multiple episodes of deformation
have obscured the primary metallogenic setting, but at least some of the deposits preserve evidence that they
originate as sea floor massive sulphide deposits.
The Red Sea Hills Region is a vast span of rugged, harsh and inhospitable sector of the Earth with
inimical moon-like terrain, nevertheless since ancient times it is famed to be an abode of gold and was a major
source of wealth for the Pharaohs of ancient Egypt. The Pharaohs old workings have been periodically
rediscovered through time. Recent endeavours by the Geological Research Authority of Sudan led to the
discovery of a score of occurrences with gold and massive sulphide mineralizations. In the nineties of the
previous century the Geological Research Authority of Sudan (GRAS) in cooperation with BRGM utilized
satellite data of Landsat TM using spectral ratio technique to map possible mineralized zones in the Red Sea
Hills of Sudan. The outcome of the study mapped a gossan type gold mineralization. Band ratio technique was
applied to Arbaat area and a signature of alteration zone was detected. The alteration zones are commonly
associated with mineralization. The alteration zones are commonly associated with mineralization. A filed check
confirmed the existence of stock work of gold bearing quartz in the alteration zone. Another type of gold
mineralization that was discovered using remote sensing is the gold associated with metachert in the Atmur
Desert.
Reducing Corrosion Rate by Welding DesignIJERD Editor
The paper addresses the importance of welding design to prevent corrosion at steel. Welding is
used to join pipe, profiles at bridges, spindle, and a lot more part of engineering construction. The
problems happened associated with welding are common issues in these fields, especially corrosion.
Corrosion can be reduced with many methods, they are painting, controlling humidity, and also good
welding design. In the research, it can be found that reducing residual stress on the welding can be
solved in corrosion rate reduction problem.
Preheating on 500oC and 600oC give better condition to reduce corosion rate than condition after
preheating 400oC. For all welding groove type, material with 500oC and 600oC preheating after 14 days
corrosion test is 0,5%-0,69% lost. Material with 400oC preheating after 14 days corrosion test is 0,57%-0,76%
lost.
Welding groove also influence corrosion rate. X and V type welding groove give better condition to reduce
corrosion rate than use 1/2V and 1/2 X welding groove. After 14 days corrosion test, the samples with
X welding groove type is 0,5%-0,57% lost. The samples with V welding groove after 14 days corrosion test is
0,51%-0,59% lost. The samples with 1/2V and 1/2X welding groove after 14 days corrosion test is 0,58%-
0,71% lost.
Router 1X3 – RTL Design and VerificationIJERD Editor
Routing is the process of moving a packet of data from source to destination and enables messages
to pass from one computer to another and eventually reach the target machine. A router is a networking device
that forwards data packets between computer networks. It is connected to two or more data lines from different
networks (as opposed to a network switch, which connects data lines from one single network). This paper,
mainly emphasizes upon the study of router device, it‟s top level architecture, and how various sub-modules of
router i.e. Register, FIFO, FSM and Synchronizer are synthesized, and simulated and finally connected to its top
module.
Active Power Exchange in Distributed Power-Flow Controller (DPFC) At Third Ha...IJERD Editor
This paper presents a component within the flexible ac-transmission system (FACTS) family, called
distributed power-flow controller (DPFC). The DPFC is derived from the unified power-flow controller (UPFC)
with an eliminated common dc link. The DPFC has the same control capabilities as the UPFC, which comprise
the adjustment of the line impedance, the transmission angle, and the bus voltage. The active power exchange
between the shunt and series converters, which is through the common dc link in the UPFC, is now through the
transmission lines at the third-harmonic frequency. DPFC multiple small-size single-phase converters which
reduces the cost of equipment, no voltage isolation between phases, increases redundancy and there by
reliability increases. The principle and analysis of the DPFC are presented in this paper and the corresponding
simulation results that are carried out on a scaled prototype are also shown.
Mitigation of Voltage Sag/Swell with Fuzzy Control Reduced Rating DVRIJERD Editor
Power quality has been an issue that is becoming increasingly pivotal in industrial electricity
consumers point of view in recent times. Modern industries employ Sensitive power electronic equipments,
control devices and non-linear loads as part of automated processes to increase energy efficiency and
productivity. Voltage disturbances are the most common power quality problem due to this the use of a large
numbers of sophisticated and sensitive electronic equipment in industrial systems is increased. This paper
discusses the design and simulation of dynamic voltage restorer for improvement of power quality and
reduce the harmonics distortion of sensitive loads. Power quality problem is occurring at non-standard
voltage, current and frequency. Electronic devices are very sensitive loads. In power system voltage sag,
swell, flicker and harmonics are some of the problem to the sensitive load. The compensation capability
of a DVR depends primarily on the maximum voltage injection ability and the amount of stored
energy available within the restorer. This device is connected in series with the distribution feeder at
medium voltage. A fuzzy logic control is used to produce the gate pulses for control circuit of DVR and the
circuit is simulated by using MATLAB/SIMULINK software.
Study on the Fused Deposition Modelling In Additive ManufacturingIJERD Editor
Additive manufacturing process, also popularly known as 3-D printing, is a process where a product
is created in a succession of layers. It is based on a novel materials incremental manufacturing philosophy.
Unlike conventional manufacturing processes where material is removed from a given work price to derive the
final shape of a product, 3-D printing develops the product from scratch thus obviating the necessity to cut away
materials. This prevents wastage of raw materials. Commonly used raw materials for the process are ABS
plastic, PLA and nylon. Recently the use of gold, bronze and wood has also been implemented. The complexity
factor of this process is 0% as in any object of any shape and size can be manufactured.
Spyware triggering system by particular string valueIJERD Editor
This computer programme can be used for good and bad purpose in hacking or in any general
purpose. We can say it is next step for hacking techniques such as keylogger and spyware. Once in this system if
user or hacker store particular string as a input after that software continually compare typing activity of user
with that stored string and if it is match then launch spyware programme.
A Blind Steganalysis on JPEG Gray Level Image Based on Statistical Features a...IJERD Editor
This paper presents a blind steganalysis technique to effectively attack the JPEG steganographic
schemes i.e. Jsteg, F5, Outguess and DWT Based. The proposed method exploits the correlations between
block-DCTcoefficients from intra-block and inter-block relation and the statistical moments of characteristic
functions of the test image is selected as features. The features are extracted from the BDCT JPEG 2-array.
Support Vector Machine with cross-validation is implemented for the classification.The proposed scheme gives
improved outcome in attacking.
Secure Image Transmission for Cloud Storage System Using Hybrid SchemeIJERD Editor
- Data over the cloud is transferred or transmitted between servers and users. Privacy of that
data is very important as it belongs to personal information. If data get hacked by the hacker, can be
used to defame a person’s social data. Sometimes delay are held during data transmission. i.e. Mobile
communication, bandwidth is low. Hence compression algorithms are proposed for fast and efficient
transmission, encryption is used for security purposes and blurring is used by providing additional
layers of security. These algorithms are hybridized for having a robust and efficient security and
transmission over cloud storage system.
Application of Buckley-Leverett Equation in Modeling the Radius of Invasion i...IJERD Editor
A thorough review of existing literature indicates that the Buckley-Leverett equation only analyzes
waterflood practices directly without any adjustments on real reservoir scenarios. By doing so, quite a number
of errors are introduced into these analyses. Also, for most waterflood scenarios, a radial investigation is more
appropriate than a simplified linear system. This study investigates the adoption of the Buckley-Leverett
equation to estimate the radius invasion of the displacing fluid during waterflooding. The model is also adopted
for a Microbial flood and a comparative analysis is conducted for both waterflooding and microbial flooding.
Results shown from the analysis doesn’t only records a success in determining the radial distance of the leading
edge of water during the flooding process, but also gives a clearer understanding of the applicability of
microbes to enhance oil production through in-situ production of bio-products like bio surfactans, biogenic
gases, bio acids etc.
Gesture Gaming on the World Wide Web Using an Ordinary Web CameraIJERD Editor
- Gesture gaming is a method by which users having a laptop/pc/x-box play games using natural or
bodily gestures. This paper presents a way of playing free flash games on the internet using an ordinary webcam
with the help of open source technologies. Emphasis in human activity recognition is given on the pose
estimation and the consistency in the pose of the player. These are estimated with the help of an ordinary web
camera having different resolutions from VGA to 20mps. Our work involved giving a 10 second documentary to
the user on how to play a particular game using gestures and what are the various kinds of gestures that can be
performed in front of the system. The initial inputs of the RGB values for the gesture component is obtained by
instructing the user to place his component in a red box in about 10 seconds after the short documentary before
the game is finished. Later the system opens the concerned game on the internet on popular flash game sites like
miniclip, games arcade, GameStop etc and loads the game clicking at various places and brings the state to a
place where the user is to perform only gestures to start playing the game. At any point of time the user can call
off the game by hitting the esc key and the program will release all of the controls and return to the desktop. It
was noted that the results obtained using an ordinary webcam matched that of the Kinect and the users could
relive the gaming experience of the free flash games on the net. Therefore effective in game advertising could
also be achieved thus resulting in a disruptive growth to the advertising firms.
Hardware Analysis of Resonant Frequency Converter Using Isolated Circuits And...IJERD Editor
-LLC resonant frequency converter is basically a combo of series as well as parallel resonant ckt. For
LCC resonant converter it is associated with a disadvantage that, though it has two resonant frequencies, the
lower resonant frequency is in ZCS region[5]. For this application, we are not able to design the converter
working at this resonant frequency. LLC resonant converter existed for a very long time but because of
unknown characteristic of this converter it was used as a series resonant converter with basically a passive
(resistive) load. . Here, it was designed to operate in switching frequency higher than resonant frequency of the
series resonant tank of Lr and Cr converter acts very similar to Series Resonant Converter. The benefit of LLC
resonant converter is narrow switching frequency range with light load[6] . Basically, the control ckt plays a
very imp. role and hence 555 Timer used here provides a perfect square wave as the control ckt provides no
slew rate which makes the square wave really strong and impenetrable. The dead band circuit provides the
exclusive dead band in micro seconds so as to avoid the simultaneous firing of two pairs of IGBT’s where one
pair switches off and the other on for a slightest period of time. Hence, the isolator ckt here is associated with
each and every ckt used because it acts as a driver and an isolation to each of the IGBT is provided with one
exclusive transformer supply[3]. The IGBT’s are fired using the appropriate signal using the previous boards
and hence at last a high frequency rectifier ckt with a filtering capacitor is used to get an exact dc
waveform .The basic goal of this particular analysis is to observe the wave forms and characteristics of
converters with differently positioned passive elements in the form of tank circuits.
Simulated Analysis of Resonant Frequency Converter Using Different Tank Circu...IJERD Editor
LLC resonant frequency converter is basically a combo of series as well as parallel resonant ckt. For
LCC resonant converter it is associated with a disadvantage that, though it has two resonant frequencies, the
lower resonant frequency is in ZCS region [5]. For this application, we are not able to design the converter
working at this resonant frequency. LLC resonant converter existed for a very long time but because of
unknown characteristic of this converter it was used as a series resonant converter with basically a passive
(resistive) load. . Here, it was designed to operate in switching frequency higher than resonant frequency of the
series resonant tank of Lr and Cr converter acts very similar to Series Resonant Converter. The benefit of LLC
resonant converter is narrow switching frequency range with light load[6] . Basically, the control ckt plays a
very imp. role and hence 555 Timer used here provides a perfect square wave as the control ckt provides no
slew rate which makes the square wave really strong and impenetrable. The dead band circuit provides the
exclusive dead band in micro seconds so as to avoid the simultaneous firing of two pairs of IGBT’s where one
pair switches off and the other on for a slightest period of time. Hence, the isolator ckt here is associated with
each and every ckt used because it acts as a driver and an isolation to each of the IGBT is provided with one
exclusive transformer supply[3]. The IGBT’s are fired using the appropriate signal using the previous boards
and hence at last a high frequency rectifier ckt with a filtering capacitor is used to get an exact dc
waveform .The basic goal of this particular analysis is to observe the wave forms and characteristics of
converters with differently positioned passive elements in the form of tank circuits. The supported simulation
is done through PSIM 6.0 software tool
Amateurs Radio operator, also known as HAM communicates with other HAMs through Radio
waves. Wireless communication in which Moon is used as natural satellite is called Moon-bounce or EME
(Earth -Moon-Earth) technique. Long distance communication (DXing) using Very High Frequency (VHF)
operated amateur HAM radio was difficult. Even with the modest setup having good transceiver, power
amplifier and high gain antenna with high directivity, VHF DXing is possible. Generally 2X11 YAGI antenna
along with rotor to set horizontal and vertical angle is used. Moon tracking software gives exact location,
visibility of Moon at both the stations and other vital data to acquire real time position of moon.
“MS-Extractor: An Innovative Approach to Extract Microsatellites on „Y‟ Chrom...IJERD Editor
Simple Sequence Repeats (SSR), also known as Microsatellites, have been extensively used as
molecular markers due to their abundance and high degree of polymorphism. The nucleotide sequences of
polymorphic forms of the same gene should be 99.9% identical. So, Microsatellites extraction from the Gene is
crucial. However, Microsatellites repeat count is compared, if they differ largely, he has some disorder. The Y
chromosome likely contains 50 to 60 genes that provide instructions for making proteins. Because only males
have the Y chromosome, the genes on this chromosome tend to be involved in male sex determination and
development. Several Microsatellite Extractors exist and they fail to extract microsatellites on large data sets of
giga bytes and tera bytes in size. The proposed tool “MS-Extractor: An Innovative Approach to extract
Microsatellites on „Y‟ Chromosome” can extract both Perfect as well as Imperfect Microsatellites from large
data sets of human genome „Y‟. The proposed system uses string matching with sliding window approach to
locate Microsatellites and extracts them.
Importance of Measurements in Smart GridIJERD Editor
- The need to get reliable supply, independence from fossil fuels, and capability to provide clean
energy at a fixed and lower cost, the existing power grid structure is transforming into Smart Grid. The
development of a smart energy distribution grid is a current goal of many nations. A Smart Grid should have
new capabilities such as self-healing, high reliability, energy management, and real-time pricing. This new era
of smart future grid will lead to major changes in existing technologies at generation, transmission and
distribution levels. The incorporation of renewable energy resources and distribution generators in the existing
grid will increase the complexity, optimization problems and instability of the system. This will lead to a
paradigm shift in the instrumentation and control requirements for Smart Grids for high quality, stable and
reliable electricity supply of power. The monitoring of the grid system state and stability relies on the
availability of reliable measurement of data. In this paper the measurement areas that highlight new
measurement challenges, development of the Smart Meters and the critical parameters of electric energy to be
monitored for improving the reliability of power systems has been discussed.
Study of Macro level Properties of SCC using GGBS and Lime stone powderIJERD Editor
One of the major environmental concerns is the disposal of the waste materials and utilization of
industrial by products. Lime stone quarries will produce millions of tons waste dust powder every year. Having
considerable high degree of fineness in comparision to cement this material may be utilized as a partial
replacement to cement. For this purpose an experiment is conducted to investigate the possibility of using lime
stone powder in the production of SCC with combined use GGBS and how it affects the fresh and mechanical
properties of SCC. First SCC is made by replacing cement with GGBS in percentages like 10, 20, 30, 40, 50 and
by taking the optimum mix with GGBS lime stone powder is blended to mix in percentages like 5, 10, 15, 20 as
a partial replacement to cement. Test results shows that the SCC mix with combination of 30% GGBS and 15%
limestone powder gives maximum compressive strength and fresh properties are also in the limits prescribed by
the EFNARC.
Improving Workplace Safety Performance in Malaysian SMEs: The Role of Safety ...AJHSSR Journal
ABSTRACT: In the Malaysian context, small and medium enterprises (SMEs) experience a significant
burden of workplace accidents. A consensus among scholars attributes a substantial portion of these incidents to
human factors, particularly unsafe behaviors. This study, conducted in Malaysia's northern region, specifically
targeted Safety and Health/Human Resource professionals within the manufacturing sector of SMEs. We
gathered a robust dataset comprising 107 responses through a meticulously designed self-administered
questionnaire. Employing advanced partial least squares-structural equation modeling (PLS-SEM) techniques
with SmartPLS 3.2.9, we rigorously analyzed the data to scrutinize the intricate relationship between safety
behavior and safety performance. The research findings unequivocally underscore the palpable and
consequential impact of safety behavior variables, namely safety compliance and safety participation, on
improving safety performance indicators such as accidents, injuries, and property damages. These results
strongly validate research hypotheses. Consequently, this study highlights the pivotal significance of cultivating
safety behavior among employees, particularly in resource-constrained SME settings, as an essential step toward
enhancing workplace safety performance.
KEYWORDS :Safety compliance, safety participation, safety performance, SME
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“To be integrated is to feel secure, to feel connected.” The views and experi...AJHSSR Journal
ABSTRACT: Although a significant amount of literature exists on Morocco's migration policies and their
successes and failures since their implementation in 2014, there is limited research on the integration of subSaharan African children into schools. This paperis part of a Ph.D. research project that aims to fill this gap. It
reports the main findings of a study conducted with migrant children enrolled in two public schools in Rabat,
Morocco, exploring how integration is defined by the children themselves and identifying the obstacles that they
have encountered thus far. The following paper uses an inductive approach and primarily focuses on the
relationships of children with their teachers and peers as a key aspect of integration for students with a migration
background. The study has led to several crucial findings. It emphasizes the significance of speaking Colloquial
Moroccan Arabic (Darija) and being part of a community for effective integration. Moreover, it reveals that the
use of Modern Standard Arabic as the language of instruction in schools is a source of frustration for students,
indicating the need for language policy reform. The study underlines the importanceof considering the
children‟s agency when being integrated into mainstream public schools.
.
KEYWORDS: migration, education, integration, sub-Saharan African children, public school
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International Journal of Engineering Research and Development
1. International Journal of Engineering Research and Development
e-ISSN: 2278-067X, p-ISSN: 2278-800X, www.ijerd.com
Volume 10, Issue 1 (February 2014), PP. 39-53
39
Geotechnical Studies of Inner Shelf off Mutyalammapalem-
Pudimadaka, North Andhra Pradesh Coast,
Central East Coast of India
G.P.Mohatra1
, P.S.N.Murty2
A. Anil kumar3
and G.V.Satyanarayana4
1
East coast operations –II,MCSD,GSI, Marripalem layout, visakhapatnam – 530018
2
West coast operations-I, MCSD, GSI, Pandeswar, Mangaldevi road, Mangalore – 575001
3
East coast operations –II,MCSD,GSI, Marripalem layout, visakhapatnam – 530018
Abstract:- The survey implemented in two phases i) Survey by mechanized boat ii) survey by R.V.Samudra
Kaustubh. Laboratory studies include textural and determination of geotechnical properties of sediment,
geochemical analyses of seawater and sediment carried out in laboratories. The bathymetric contours are in
parallelism with the shoreline, in NE-SW direction. The seafloor is smooth with moderately steep gradient. The
shallow seismic survey indicates two prominent sub-surface reflectors, R1 and R2. The reflector R1 is almost
sub-parallel to the seafloor. The thickness of unit – I (between seafloor and reflector R1) is 3 - 4 m. The deeper
reflector R2 is a marker reflector with good reflectivity present through out the area. The reflector R2 is dipping
towards the offshore and merging with reflector R1 in the NE part and further exposes onto the seafloor. The
thickness of unit –II varies between 0 to 11m. The echo character of reflector R2 suggests that this reflector
represents the top of a relatively hard substratum which crops to the surface in the north eastern part likely to be
the hard formation and surface on to the seafloor in the northeastern part.
The sediment type is uniformly sand. The sand unit extends both vertically as observed from the core
logs and laterally up to 30 m isobath. The moderately sorted and well sorted sediment which are negatively
skewed are suggests relatively medium energy conditions. The surface current speed varies from 0.304 knots to
0.48 knots and direction varies from 59o
to 190o
. The bottom current speed varies from 0.29 knots to 0.41 knots
and direction varies from 61o
to 210o
. The direction of the littoral drift is towards northeast and the magnitude
varies from 0.104 knots (beyond the wave breaker) to 0.4047 knots (wave breaker to lowest low tide zone).
Sediment geochemistry reflects the source rock from the adjacent eastern Ghat Group of rocks comprising both
Khondalite and Charnockite.The base line geochemical data of sediment, sea water coupled with Pollution Load
Index (PLI), Geoaccumulation Index (Igeo) and the concentration levels of toxic metals analyses are far below
the world average marine sediment.
Keywords:- Mutyalammapalem, beach profiling, littoral drift, geotechnical appraisal , textural characteristics
I. INTRODUCTION
The work was carried out in six stages i).Reconnoitary survey, ii). R.L transfer, iii) Beach profiling, iv)
Littoral drift measurement, v) Near shore shallow water survey by mechanized boat and vi) offshore survey on
board R.V.Samudra Kaustubh.
A. Location
The study area falls in parts of NHO chart no. 308 and 354 covering part of Survey of India
Toposheet No 65O/2 and O/3. The beach profile stations are located in a stretch of 7 km from the village
Jogannapalem in the south to Mutyalammaplem in the north (Fig.1).
B. Objective
The objective of the geotechnical investigation was to carry out integrated marine geo-scientific
surveys within the Territorial Waters off Mutyalammapalem together with the collection of basic data on
bathymetry, sediment distribution, subsurface geology, geotechnical parameters of the sediments, current
patterns and geochemical parameters of sea waters for development of project.
2. Geotechnical Studies of Inner Shelf off Mutyalammapalem –Pudimadaka, North Andhra Pradesh...
40
Fig.1: Location of the study area
II. GENERAL CLIMATE AND RELATED FEATURES OF THE SITE OF STUDY
A. Physiography
The coastal and the hinterland is characterized by hills and mounts of Eastern Ghat complex and at
places the rock exposures continue towards the offshore as found at Mutyalammapalem and Pudimadaka south
and north respectively of the area under study. These offshore rock exposures are associated with a bay feature
immediate to the northern side of the exposures. Being a wave dominated coast, the coastal part near the
shoreline is invariably characterized by sandy beaches the size, width and the characteristic shapes of which are
variable from place to place.
Mutyalammapalem (latitude 17o
32′ 08′′ N; longitude 83o
05′ 30′′ E) located on the sand zones rising to
an average height of about 3 m above MSL is a fishing village on the east coast of Andhra Pradesh, India
between Visakhapatnam (latitude 17o
43’ N; longitude 86o
16’ E) on the north, and Pudimadaka (latitude 17o
29’13” N; longitude 83o
00’15” E) on the south. The distance between Visakhapatnam and Mutyalammapalem
is about 30 km by sea and 50 km by road. Around Mutyalammapalem, the coast line is straight trending NE –
SW and is crescent shaped at Pudimadaka due to hard rock promontories extending offshore. During the
monsoon, the flood waters of the surrounding catchment area bordered by Pulla konda (106 m), Niti konda (167
m)and Devi konda (139 m) collect into a small ephemeral stream and discharges into the sea through creek at
Mutyalammapalem. An isolated outcrop of Khondalite rising to a height of about 3 m above MSL lays ENE of
the creek. A few Khondalite exposures are also seen along the coast line trending ENE-WSW with steep dips
(80o
) towards south. The shoreline at BARC site trends almost NE-SW in a linear pattern but rocky exposures
and promontories are conspicuous both at Mutyalammapalem in the north and Pudimadaka in the south. The
open shore promontories are prominent morphological features at these locations.
B. Sediment Source
Eastern Ghats form the major source area for the drainage basin. The principal lithological units of the
Eastern Ghats are the Khondalite and Charnockite series. The landmass adjoining the study area has a fairly
good surface drainage system. A number of non-perennial mountain streams and perennial spring waters
flowing in a general SE and ESE direction contribute to the total drainage system of the area. Sarada is major
3. Geotechnical Studies of Inner Shelf off Mutyalammapalem –Pudimadaka, North Andhra Pradesh...
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stream with large catchment area and there are minor streams with small catchment area. Littoral drift from
Godavari river mouth is evident from the sediment characteristic on the coastal tract [1].
C. Climate
The climate of the region is sub-tropical to tropical. There are two monsoon periods namely the south-
west monsoon from June to September and north – east monsoon from October to February. In the pre-monsoon
period from March to May, the winds are from south west direction. Even though the maximum sustained wind
during October and November does not exceed 110 km per hour from ENE, gusts of an intensity of 150 km per
hour have been occasionally experienced during cyclonic storm. The wettest season coincides with the south
west monsoon and post monsoon period. September and October are the wettest months of the year with an
average rainfall of 420 mm. The average annual precipitation is 944 mm.
The landmass adjoining the inner shelf area under study is influenced by semiarid (D) type of climate.
The moisture index (Im) of the area is 42.9 %. May is the hottest month (maximum 34o
C) and January the
coldest month (maximum 17o
C). Relative humidity from April through September is very high on account of
monsoonal rains and ranges from 80 to 84 %. Maximum rain fall of 426.6 mm occurs from September to
October during the retreating monsoon period. October the wettest month with maximum rain fall of 259.3 mm
and January the driest month with minimum rain fall of 7.2 mm. Soil has a field capacity to hold 200 to 300 mm
of water at any time, and is never saturated or replenished because of high water need and low rainfall. Even the
excess of rainfall during September – October (only 83 mm) is hardly sufficient enough to replenish the
high field capacity.
D. Winds
The magnitude and direction of the wind in the area varies season wise, rather it is driven by the
monsoon prevailing in this sub-tropical part. During the North East monsoon from November to February the
average strength is force four. But this strength reaches force six in April and May. Land and sea breezes are
also prominent during both pre-and post monsoon transition periods. The onset of southwest monsoon brings
rough weather in June and this continues up to September with an average strength of force four to five with a
constancy of about 80 %. Variable winds prevail in the post-monsoon period of October to November, with
force two to four but occasionally during rain squalls or gusts the force increases to seven. Thermal and
topographical effects produce considerable change of speed and direction of wind along the coast. The threat of
cyclones affects coastal sectors at different times of the year.
III. SEA STATE CONDITIONS
A. Surface Currents
The northeast monsoon produces a westerly drift in the open waters of the Bay of Bengal resulting in a
counter–clockwise circulation. The northeast monsoon produces a westerly drift in the open waters of the Bay
and a current setting southwestward and southward along the east coast of India. But northeast winds, blowing
over the lands of wintry cold cools more the waters at the head of Bay than those at Ceylon and consequently a
density current flows up the coast. The seasonal variation in the direction of winds and the resulting seasonal
currents in opposite directions cause an intricate circulation pattern in the Bay waters, which varies every
month.
B. Littoral Currents
A north-east flowing long shore current is produced the entire coast by the high waves of the southwest
monsoon season which break at an angle with the shore. A southerly long shore current is developed similarly in
the northeast monsoon season when the swell changes its direction by about 45o
due to the monsoon effects.
Because of the longer duration and greater severity of wave action of the southwest monsoon the northerly
longshore current is stronger than the southerly one. These longshore currents are however effective only in the
surf zone near the coast[2].
IV. COASTAL AND NEARSHORE ZONE SURVEYS
A. Beach Profiling
1) Reference Level Transfer: The reference Level (Jogannapalem cyclone shelter fixed by Survey of India for
BARC designated as BM: S-26) has been transferred to beach profiling station P2 where offshore Jetty of
BARC is proposed. The same RL carried to the other beach profiling stations P1, P2 and P3. Transfer of RL
further north to P4 at Mutyalammapalem could not be achieved terrain conditions and time constraint. The RL
at P4 near Mutyalammapalem was assumed for beach profiling.
2) Fixation of reference pillars at 4 stations: Reference Concrete pillars were erected and RL was marked on
the top of the Pillars.
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3) Study of Beach profiles: The beach profiles are measured using measuring staff, measuring rope and WILD
auto-level with the help of surveyors. Profiling was done during low tide, at each station from the reference
point up to lowest low tide level from the available predicted Tide Tables published by Naval Hydrographic
Office (NHO). The data collection time and duration was planned in advance with reference to tides at
Visakhapatnam port.
4) Study of littoral drift using tracers: Tracer study was carried out off reference point P2 (Jogannapalem, Fig.
2 to 8) using Rhodamene–B as tracer released aligning the flags erected in 145o
and measured at a distance of 15
and 50 m where flags were erected both side of P2 for alignment and found the direction and speed of the littoral
drift. At the same place current speed and direction also taken with the help of EMCON make current meter.
5) Survey by mechanized boat: The shallow segment of the seabed lying between the coastline and 8 m isobath
was surveyed by a mechanized boat for collection of basic data on bathymetry, current observation and
collection of sediment samples grab
V. OFFSHORE SURVEYS BY R.V. SAMUDRA KAUSTUBH
A. General
The area off Mutyalammapalem to Pudimadaka between 4 to 40 m depth located in NHO chart No:
308 was covered in detail by sediment sampling, bathymetric surveys, shallow seismic surveys and swath
bathymetry.
B. Instruments Deployed On Board
Shallow seismic surveys were carried out by deploying a shallow seismic unit of EG&G make which
consists of a power unit (model 232), a capacitor bank (model 231 A), 6 electrode sparker array and two
sections of hydrophone streamers. The receiving system comprises preamplifier / filter (model 202) of INNER
SPACE TECHNOLOGY INC. and the EPC-2000 graphic recorder to obtain record in analogue form. High cut
frequency 800 Hz and Low cut frequency 150 Hz and 200 Joules energy was used during survey.
Bathymetric surveys were carried out with Bathy-1500 echo sounder along the cruise tracks. The
navigational positioning of the vessel is aided by Differential Global Positioning System (Leica) and applying
corrections from Beacon receiver for differential mode throughout the surveys. The survey was carried out using
“Advanced Hydro Survey” software and the position location data is processed using Hydro Survey advanced
version 3.0.
Bathymetric and shallow seismic surveys were carried out simultaneously by deploying Bathy-1500
Echo sounder and sparker seismic profiler of Ocean Data Equipment Corporation. Sea-bat 8111 Multi Beam
Echo Sounder of RESON Make, DENMARK was used for swath bathymetry and data were processed
by software PDS2000.
C. Samplers Deployed On Board
Sub-surface samples were collected with Vibro-Corer sampler at 13 stations. The length of the core
recovery varies from 0.15 to 3.1 m. Water sampling was carried out at 6 stations (9 nos.) by Niskin water
sampler. Current observations were carried out using current meter of EMCON, Kochi at six stations.
VI. BATHYMETRIC STUDIES
Bathymetric survey by RV Samudra Kaustubh was carried out along 3 coast perpendicular lines of 3.5
km at 500 m apart; and 23 coast parallel lines of 8 km each at 100 m spacing, between 5 m and 22 m of water
depth. In addition, near shore zone, i.e., up to 10 m isobaths was carried out by using a mechanized boat along
45 zig - zag lines of average 750 m length with a variable spacing of 500 m to 1000 m. It may be noted that the
line spacing for bathymetry data acquisition is maintained at 100 m interval in view with the maneuvering of the
ship.
A. Acquisition of Data
1) Survey by R.V.Samudra Kaustubh: The echo sounder BATHY 1500 Model was used with analog recorder,
correspondingly the positions along the tracts were obtained from DGPS through beacon receiver interfaced
with a PC having hydro-survey programmer. The depth data with its location were logged at five minutes time
interval mode. During the bathymetric survey the speed of the vessel was maintained around 6 knots.
2) Survey by Mechanized boat: The depth data with its location was acquired by Portable echo sounder of
RESON (Navy sound 200 – single beam) make with analog recorder and Portable Global Positioning System of
Micro logic ML – 150 models. The data was logged for every one/two minutes of time interval mode. The
speed of the boat was maintained around 3 to 4 knots. Due to the frequent shoaling and high waves near the
breaker zone the proposed cruise tracks could not be maintained aned the mechanized boat had to follow a zig-
zag.
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3) Swath Bathymetric Survey:Twenty lines of 3.358 km at 50 m interval were planned for swath bathymetric
coverage, but fishing activity hampered the survey and only part of the planned area was covered. Total of 28
lkm of survey was carried out covering an area of 2.2 sq. km
VII. GEOPHYSICAL STUDIES
Shallow seismic and bathymetry surveys were carried out along three N-S coast perpendicular transects
L-P2N, L-P2 and L-P2S, covering a distance of 500m on either side of the line L-P2 which is passing through
the alignment of the reference Pillar P2 on shore. Four coast parallel transects were also covered in NE-SW
direction along RL-400, RL-900, L-650 and L-900.. In addition a cross line L-cross is also taken for stacking of
coast parallel transects. The length and direction of transects were chosen keeping in view the maneuverability
of the vessel in shallow depths.
A. Seismic Survey
The shallow seismic reflection survey was carried out along eight transects in the bathy zone of 5 to 23
m and out put data was recorded in analogue form. The analogue record of the seismic data is processed and
digitized to obtain the two-way travel times for seabed and sub-seabed reflecting layers. Seismic time sections
were prepared for all transects taking the two-way travel times in millisecond in 1:50000 scale. The depth to the
acoustic reflectors has been expressed in two-way time in millisecond (m.sec.) as the actual velocities of sub-
bottom formations were not known. However an average velocity of 1800 m/s (1 milisecond (t.w.t.) = 0.9 meters
appx.) is assumed to calculate the thickness of the different sedimentary units and depths to the sub-surface
reflectors.
1) Transects L - P2N, LP2 and LP2S: The two - way time sections along the transect L-P2N, L-P2 and L-P2S
are prepared and presented in the Fig. 18. In general the seafloor is very smooth and gently slopping towards the
sea. The bathymetry variation along these transects was between 5 and 23 m. The reflector R1 is almost parallel
to the seafloor. The thickness of sediments (between seafloor and Reflector R1) of unit-I varies from 3 -5 m
along these transects. The reflector R2 occurs at a depth of 18 -34 m.sec. along transect P2N, 19 -39 m.sec. along
transect P2 and 18 – 45 m.sec along transect P2S from the sea floor. The thickness of the unit-I between seafloor
and R1 increases towards offshore. The thickness of sediment unit-II (between reflector R1 and R2) varies
between 2 -12 m.sec, along these transects. The total thickness of the unconsolidated sediments along these lines
increasing towards offshore and vary from 4 to 14 m.
2) Transects RL-400 and RL- 900: The seafloor is smooth the water depth varies from 4 to 15.6 m along these
transects. Reflector R1 is occurring at a depth of 20 - 24 m.sec and 24 - 27.5 m.sec along the transect RL-400 and
RL-900 respectively from the seafloor. The thickness of sediment unit – I varies from 3 to 10 m along these
transects. The reflector R2 is present only in transect RL-900 and it is merging with reflector R1 at fix no. # 345
which was disposed at a water depth of 25 - 32 m.sec from the sea level. The thickness of unit-II along RL-900
varies from 2 to 5 m. The total thickness of sediments of unconsolidated sediments varies from 5 to 10 m.
3) Transects L- 650 and L- 900: The seafloor is smooth. The depth to the seafloor varies from 16-19.5 m. The
reflector R1 is almost sub-parallel and mimics the seafloor. The reflector R1 occurs at a depth of 30-33.6 m.sec
and 32-36 m.sec from the sea level respectively along the transect L-650 and L-900. The reflector R2 occurs at a
depth of 30.5-43.5 m.sec and 31-44.8 m.sec from the sea level and merges with reflector R1 at fix no. # 314 and
#342 respectively along the transect L-650 and L-900. The thickness of sediments of unit-I varies from 4 to 7.5m
and that of unit-II varies from 0 to 10m. The total thickness of unconsolidated sediments vary from 4 to 15m
along these transects.
4) Transect L-Cross: The seafloor is smooth and dipping towards sea. The depth to the seafloor varies from 11
– 21m. The reflector R1 is occurring at a depth of 33.2 to 40.2 m.sec from sea level and the thickness of
sediments of unit-I vary from 4.5-7 m. The reflector R2 occurs at a depth of 20.2-48.5 m.sec. and merges with
reflector R1at fix no. # 374 (Fig.23). The thickness of sediments of unit –II varies from 0 to 7.5m along this
transect. The depths to the reflectors at the cross over points on different transects are matching well.
5) Stratum Contour Map: Stratum contour map to the top of reflector R2 is prepared to know the total thickness
of unconsolidated sediments deposited over the reflector R2 (Fig.2). The stratum contour indicates a thickness of
unconsolidated sediments between 2 to 15 m with its thickness increasing with depth both in SSE and SW
direction. The thickness is, maximum in the south-western part of the area surveyed. The thickness of sediments
decreases as the reflector R2 surfaces on to the seafloor in NE part of the area. No surface or sub-surface
dislocations / faults were found in the area.
6) Conclusions: Two distinct reflectors are identified in the surveyed area within a probing depth of 18m.sec.
The reflector R1 is almost sub-parallel and mimics the seafloor. The thickness of unit – I between the seafloor
and reflector R1 varies between 3 - 4 m.
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Fig.2: Isopach map of Unit-1
The deeper reflector R2 is a marker reflector with good reflectivity present through out the area
surveyed. The reflector R2 is dipping towards offshore direction. The reflector R2 merges with reflector R1 in
the NE part of the area and crops to the seafloor. The thickness of unit –I varies between 0 to 11m. The echo
character of reflector R2 suggests that it is relatively a hard formation which surfaces on to the seafloor in the
northeastern part. This reflector R2 seems to be the extension of hinterland rock formation exposed in the near
shore area.
The stratum contour generated to the top of reflector R2 indicates a maximum thickness of unconsolidated
sediments which vary from 2 to 15 m with its thickness increasing with depth both in SSE and SW direction in
the surveyed area. No surface faults/lineaments are observed in the area surveyed. The extension of hinterland
rock formations into the offshore area in the NE part of the area acts as a barrier to prevent long shore sediment
transport.
VIII. SEDIMENTOLOGICAL STUDIES
Grain size distribution is an important component of the seafloor sediments and plays a vital role in
determining the physical properties of the sediments like strength, compressibility, elasticity, plasticity etc. The
grain size distribution is controlled by the relative abundance of dominantly three size classes, namely, sand
(63µm - 2 mm), silt (2 µm – 63µm) and clay (<2 µm ). Amongst these, cohesive sediments that come under
the fine fraction of sediments (fine silt and clay) are determinant in the stability and strength of the seafloor.
A. Methodology
A total of 75 samples (sub-samples of 12 vibro-cores) collected on board R.V.Samudra Kaustubh and
17 grab samples collected on board a mechanized boat were subjected to size analysis following standard
method of sieving [2], and / or pipetting [3] as described in [5]. The data thus obtained is processed by the
Inclusive graphic measures of [6] and are used to calculate the conventional grain size parameters.
B. Characteristics of Surface Sediments
Sand, silt and clay percentages and their statistical parameters are determined for 29 surface samples
derived from vibro-cores and grab samples collected off Mutyalammapalem to Pudimadaka in order to
understand the sediment distribution, textural characteristics and the environment of deposition. The sediment
nomenclature is after Shephard [7].
The sediment type in the mapped area is uniformly sand (Fig. 3). The sand unit extends both vertically
as observed from the core logs and laterally up to 30 m isobath as reported by [8]. The nature and sub-
classification of the sand unit will be dealt in the following sections.
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Fig.3: Surface sediment distribution
1) Mean Size (Mz): The sub-classification of sediment type is represented by the mean size which is the average
grain size of the distribution taking the entire grain size distribution curve into account. In the surface sediments,
the mean size varies from 2.74 Ø (fine sand) to 3.64 Ø (very fine sand) with an average of 3.21 Ø (very fine
sand). Very fine sand is the dominant unit in the surface sediment. The fine sand unit occurs mainly as isolated
patches in the nearshore regions below 10 m isobath.
2) Standard Deviation (√ I ): Standard deviation is a measure of the degree of sorting of the sediments that
reflects the energy of the depositional environment. The energy of the depositional environment controls the
relative proportion of coarse and fine sediment fractions. Standard deviation values varying from 0.31 Ø (very
well sorted) to 1.34 Ø (poorly sorted) is recorded from the area. Based on the sorting index the sediments in the
area largely falls into four categories, viz. very well sorted, well sorted, moderately sorted and poorly sorted.
The nearshore area within 5 m isobath is characterized by moderately sorted sediments. The
moderately sorted sediment grades into well sorted sediment off the region between P2 and P3, whereas in the
region off P1 to P2, the sediments are very well sorted. In the 10 to 15 m isobath zone, poorly sorted sediments
occur in the NE part and moderately sorted sediment occurs in the SW part. The variation in energy condition
within the small area may be a cumulative effect of the shoreline configuration and the offshore anthropogenic
construction structure present on the SW part of the area.
3) Skewness (Ski): Skewness (SKI) is a measure of the symmetry of the grain size distribution and it is about
the relative proportion of fine and coarse sediment in the sample. A normal distribution, being symmetrical, has
zero skewness. If the distribution possesses a coarse tail portion relative to the finer sizes, the skewness is
negative whereas, if there is a tail portion in fine sizes relative to the coarse sizes, the skewness is positive.
Skewness is varying from -0.72 (very negative skewness) to 0.10 (near symmetrical skewness). Based
on the skewness index, the sediments of the area can be grouped into three major categories, viz. very negatively
skewed, negatively skewed and near symmetrically skewed. The near shore sediments up to 10 m isobath are
dominantly negatively skewed with some patches of near symmetrically skewed sediments within. In the zone
between 10 and 15 m isobath is covered by sediment of very negative skewness. Overall the skewness pattern
indicates a deficit of fine fraction and relative abundance of coarser fraction in the sediment. The skewness
pattern of the sediments suggests relatively high energy conditions.
4) Kurtosis (Kg): Kurtosis (KG) measures the ratio of the sorting in the extremes of the distribution compared
with the sorting in the central part of the curve and as such is a sensitive and valuable test of the normality of the
distribution. Kurtosis, a measure of degree of peakedness of the frequency distribution curve, indicates the ratio
of the sorting in the extremes of the distribution to the central part. It is a sensitive and valuable measure in
testing the normality of the distribution. If the central part of the distribution is better sorted than that of the tails,
in other words a peaked shape in the frequency curve, the distribution is leptokurtic. When the sorting in the
central part is nearly same as that of the tails, the distribution is mesokurtic. When the tails of the distribution is
better sorted than that of the central part, in other words a saddle shaped or flat – topped grain – size frequency
curve,l the distribution is platykurtic [6].
Kurtosis varies from 0.75 (platykurtic) to 2.05 (very leptokurtic) with an average of 1.18 (leptokurtic)
in the area. Based on the kurtosis values, four categories of sediments are identified in the area. They are platy,
8. Geotechnical Studies of Inner Shelf off Mutyalammapalem –Pudimadaka, North Andhra Pradesh...
46
meso, lepto and very leptokurtic. The sediment distribution has no definite pattern of kurtosis values. Sediment
units with different kurtosis values occur in isolated patches. Very lepto kurtic sediments are confined to the
zone beyond 10 m isobath and the other three types occur in all the zones irrespective of the depth domain.
C. Characteristics of the Sub-Surface Sediments
Sediment type in the sub-surface level is also similar to that of the surface level and is evenly carpeted
by sand. Sand remains as the dominant constituent of the sediment column up to 3 m as evidenced by the
longest core of 3.10 m recovered off P-1. The relative proportion of silt and clay is very less as compared with
that of sand in the sub-surface levels.
1) Mean Size (Mz): Mean size in the 50 cm below seafloor level varies from 2.06 Ø (fine sand) to 3.48 Ø
(very fine sand) and accordingly two mean size classes, namely fine sand and very fine sand are identified. At
50 cm below seafloor level, the very fine sand unit is confined to the central part of the area and spreads across
the bathymetric contours perpendicular to the coast. Fine sand occurs on either side of the very fine sand unit.
The down core variation of mean size shows a steady decrease towards lower levels.
2) Standard Deviation (√ I ): At 50 cm below seafloor level, the standard deviation values vary from 0.67 Ø
(moderately sorted) to 2.36 Ø (very poorly sorted) with an average of 1.43 Ø (poorly sorted). Based on the
sorting index, the sediments at the sub-surface level fall under two categories- poor and very poorly sorted. At
50 cm below seafloor level, moderately sorted sediment occur as a narrow strip perpendicular to shoreline in the
offshore region between P-1 and P-2. Rest of the area is covered by poorly sorted sediment except at sample
location 7. In the core samples, standard deviation shows a trend reverse to that of mean size and thus shows a
general increase towards bottom. Increase in standard deviation indicates decrease in sorting index and implies a
decrease in energy condition during deposition. Down core variation of mean and median size also indicates a
typical regressive upward coarsening sequence.
3) Skewness (Ski): In the 50 cm below seafloor level, skewness varies from -0.74 (very negative) to 0.01 (near
symmetrical) and accordingly zones of three distinct classes, namely very negative, negative and near
symmetrical skewness have been identified. Dominantly the sediment at 50 cm below seafloor level is very
negatively skewed and thus indicate negligible fraction of finer sediments in them. Sediment with negative and
symmetrical skewness occurs off P-2. Skewness decrease with depth in the majority of the core samples.
4) Kurtosis (KG): In the 50 cm below seafloor levels, Kurtosis value varies from 0.70 (platykurtic) to 5.3
(extremely leptokurtic) with an average of 2.39 (very leptokurtic) and are further classified into platykurtic,
leptokurtic, very leptokurtic and extremely leptokurtic. Sediments on the SW corner of the area across the
bathymetric contours exhibit leptokurtic nature indicating very narrow range of size class in the sediments.
Leptokurtic, very leptokurtic and extremely leptokurtic sediments occur as isolated patches in the NE part of the
area. Kurtosis in most of the cores increases with depth with exceptions of few where increase up to certain
depth then decreases again.
IX. GEOCHEMICAL STUDIES
The geochemical data presented in the foregoing pages would be identifying the intrinsic relationship
between several elements and for interpreting their genetic relationship. The methods can be utilized in the study
of special and elemental variation of the data set. However, the spatial variation is not studied as most of the
samples represent only a thin veneer of sediments of small area. The elemental variations are studied for
identification of their chemical relationship in bulk sample set.
A. Methodology
The sediment samples have been analysed for Al, Mg, Ca, Total Fe, Na, K, Ti, Mn, Cu, Pb, Zn, Ni, Co,
Cr, Cd, V and Mo by Atomic Absorption Spectrophotometer (AAS) (Varian 240FS).The organic matter
(ROOM) was determined by the titration method of [9] as modified by [10].
In this study the interstitial water and dissolved solids are considered as an integral part of the sediment
and therefore the chemical analysis were done on air-dried samples [11][12][13][14][15][16]. An attempt is
made here to condense the information by statistical means of linear correlation and multivariate factor analysis
(R-Mode), to study the elemental variations and to identify their chemical relationship in the sediment samples.
Seventy five samples related to 12 vibro - cores have been taken and seventeen variable representing
CaCO3, ROOM (Readily Oxidisable Organic Matter), major elements Al, Mg, Ca, Total Fe, Na, K, Ti, Mn,
minor and trace elements Cu, Pb, Zn, Ni, Co, Cr and Cd have been studied.
The coefficient of variation for Pb is the highest followed by Cr, Ti, CaCO3, Ca, Cd, ROOM, Total Fe,
Mg, Ni, Cu, Co, Mn, Zn, Al and k. Most of the elements have variation less than 50 %. The minimum variation
around 12 % is by Alkali’s. The linear correlation coefficients higher than 0.40 are considered as significant.
Most of the elements show very high correlation to the other elements except few minor/trace elements and
organic matter.
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B. Correlation Matrix
In order to study the relationship in depth, the correlation matrix is utilized for the determination of
Eigen values. These Eigen values represent the total relationship split up into component relationships. The
highest Eigen value represents 32 % relationship, the second one 14 % and last 11 % they total to 57 %.
Rests of them are too minor for further computation. To identify the factors responsible for the inherent, the
correlation matrix is rotated using Kaiser’s varimax rotation principle. The loadings which are very high are
underlined. All the major elements viz Na, K, Ca, Mg, Al, Total Fe, ROOM, CaCO3 and trace elements Cu,
Pb, Zn, Ni, Co, Cr and Cd gives high loadings and the Ti shows the lowest value in the system even though
given as second factor. The Al, total Fe, Co and Zn show higher loadings in the third factor. More interesting
than this, is the occurrence of base metals (Cu and Pb) along with Cr, Cd and Mn showing high loading in the
second Factor.
1) Factor 1: Most of the major elements viz Ca, Mg, Na, K, ROOM, CaCO3 and trace element Ni are reflected
as significant loading in this factor which explains 32 % variance. This factor is interpreted as combined
silicates, carbonate and organics factor. This factor represents the 1) weathered products of Precambrian rocks
2) calcium carbonate in the sediments and 3) organic matter. The concentration of Ca, Mg, Na and K is mainly
controlled by lithogenous concentrations appear to be indicating of derivation from acidic granite or granulites
of the source area. Shells, shell fragments and skeletal matter contributed mainly to the Calcium carbonate in the
sediments and are reflected in the factor. The organic matter varies from 0.22 to 1.85 % (av.1.08) and results
from high biological productivity in surface waters due to reported upwelling and / or from he high degree of
preservation in the sediments on the sea floor and is reflected in the first factor.
2) Factor 2: This factor explains the 14 % of the variance where the loading of Cu, Mn, Cd, Pb, Ti and Cr are
reflected as a factor which is interpreted as base metals factor. There is reported occurrence of base metals and
heavy minerals reflected as their genesis.
3) Factor 3: This factor explains the 11 % variance and the loadings of Al, Mg, Total Fe, Co and Zn are
reflected. This factor is interpreted as Alumino silicate factor. The aluminosilicates itself is of lithogenous origin
and the remaining elements associated with it and derived from the source rocks are reflected in the factor.
C. Inferences from Geochemistry
The basic factors that are identified in the detritus sediments can be related to the bulk chemistry of the
metamorphic rock types present in the source region, i.e. Khondalites, which represent the aluminous
metamorphosed rock types and Charnockites which have dominant amounts of Ca and Mg. Ti also is an
important component of the bulk chemistry of rocks. From the chemical analyses and statistical parameters
determined it is construed that the provenance of the sediment is from the adjacent hinterland comprising
Khondalitic and Charnockitic suite of rock.
In brief, the following important parameters can be stated:
1) The sediments show a consistency in the bulk chemistry. The coefficient of variation is markedly
medium.
2) The elements analysed show strong relationship with Na/Mg, Ca/Mg, Mg/Co, Mg/Zn, Fe/Zn, Fe/Mn,
Fe/Cu, Cu/Zn, Cu/Zn, Cu/Cr, Co/Zn and Cd/Pb
X. ENVIRONMENTAL GEOCHEMICAL STUDIES
A. Coastal Pollution Studies
The coastal pollution studies can be grouped into two types in India i.e. 1. Pollution from natural
sources and 2. Anthropogenic activities which impacts the coastal environment considerably.
1) Main Source of Coastal Pollution: The possible sources of pollution in the area could be i) Industrial and
Municipal wastes ii) river run off including agricultural water and iii) miscellaneous sources (dredging, port
based activities etc.).
2) Pollution Due to Anthropogenic Activities: include i) over loading coastal waters with enormous volumes of
biodegradable substances in which the level of dissolved oxygen becomes a limiting factor i) sewage from
cities, large town ii) anaerobic conditions created by organic chemicals which will have a high demand for
oxygen makes the aquatic life difficult to survive iii) toxins which effect marine life directly which effects
human health through food chain iv) heavy metals (Pb, Cd, Hg, As, Cr etc) have a long term effects on human
health and creates serious problems through bioaccumulation and entry into food chain v) Non-degradable
substances like oils, plastic and polymers that damage marine life and spawning grounds and vi) dumping of
solid wastes without proper treatment.
The Visakhapatnam port every year handles about +30 million tones of cargo consisting of iron ore,
Pb-Zn ore concentrates, rock phosphate, sulpur, crude oil, coke and coal etc. Most of the sewage enters into the
harbour which partly treated and the arrangements are being made for total treatment of the sewage. The
municipal sewage also enters the coastal waters from nalas. Majority of the industrial effluents from the near by
10. Geotechnical Studies of Inner Shelf off Mutyalammapalem –Pudimadaka, North Andhra Pradesh...
48
industries, Pharma-city, Industries in Achutapuram SEZ and some more industries discharge their effluents into
the coastal waters north and south of the present area of study.
An attempt is made here to assess the metal pollution levels. Pollution Load Index and Geo-
accumulation Index are taken as a tool to asses the pollution levels if any of the coastal area off
Mutyalammapalem to Pudimadaka.
B. Methodology
1) Pollution Load Index (PLI): The Pollution Load Index (PLI) is evaluated using the following equation: PLI=
n / Product of n number of CF values Where CF = Contamination factor, and n= number of metals. The
contamination factor (CF) = Metal concentration in polluted sediment/Back ground value of metal.
Interpretation for PLI: > 1 by anthropogenic inputs such as industrial effluents and domestic sewage into coastal
waters.
2) Geoaccumulation Index (Igeo): Igeo values falling in the class zero indicate predominant occurrence with
lighogenic flux, while those falling in 1 - 2 or 2 - 4 indicate their excessive accumulation due to anthropogenic
inputs. The Mutyalammapalem – Pudimadaka near shore area is very near to the major ports of Visakhapatnam
and Gangavaram.
C. Inferences on Geo-environmental studies
Pollution Load Index (PLI) which less than one and Geo-accumulation Index (Igeo) zero indicate that
level of pollution in the area is negligible.
Studies are taken up for geo-environmental appraisal for the present area. The concentration levels of
toxic metals analyses are far below the world average marine sediment concentrations. The V & Mo are <1
ppm, Cd average concentration is 2.1 ppm and other major traces are far below the world average. The water
samples analysed shows that the carbonates is in non-detectable limits, Cr, Mn, As, V and Mo also in non-
detectable limits, Cu and Zn are in <5 ppm limits, bicarbonates are in ppm levels where as remaining major
and trace metals are in low ppm levels indicating that there is least pollution in the area of study. Present base
line data clearly shows that coastal waters are pollution free during survey period. The base line geochemical
data of sediment and sea water clearly shows that the area of study is least pollution.
XI. GEOTECHNICAL STUDIES
A total of 12 vibro core were collected from the water depth ranges of 5.51 to 17.2 m. The length of
vibro core sediment varies from 0.2 to 3.1 m. These vibro core samples were cut at every 25 cm interval and the
sub-samples were preserved in a refrigerated storage container during the voyage. Later all the sub-samples
were transferred to the laboratory and kept in the deep freezer till the geotechnical tests were carried out as
described by [17] . Thus a total of 75 sub-samples were generated.
A. Laboratory studies
Water content, liquid limit, shear strength by hand torvane and sensitivity are measured on vibro-core
sub-samples. The vibro cores were collected in a PVC liner after vibro-core penetration into seabed. As such the
pore water remained within the sediment (sand). The cores were cut into sub-samples of 25 cm each
immediately after collection and shear strength measurements were done by hand torvane. The sub-samples
were then preserved on board in the refrigerator container and the same sub-samples were transported to shore
laboratory and kept in freezing conditions till the remaining tests were conducted with minimum time lapse. As
such the water content within the core was not allowed to drain and measurements of water content were done.
As such all the above samples contain low natural moisture content and liquid limit when compared to samples
containing more clay/silt fraction. The various geotechnical tests, which include, the un-drained shear strength
of the undisturbed and re-molded sediment, the wet unit weight, the natural moisture content, the specific
gravity were conducted on the samples with more than 12 % of fines (Silt + Clay). Wherever the fines content
is less than 12 % and sand content is more than 88 %, properties such as, water content, wet unit weight, specific
gravity only determined. The various geotechnical tests which include, the shear strength of the undisturbed and
re-molded sediments, the wet unit weight, the natural moisture content, the specific gravity, and the Atterberg
Limits (Plastic) were determined as per Lambe, 1951. Plastic limit and liquid limit could be measured on only
one sample (VC-10/150) where sufficient clay content is present. Void ratio and porosity were computed by
using the standard conventional formulae. The downcore variation of geotechnical parameters measured is given
in Fig. 4
11. Geotechnical Studies of Inner Shelf off Mutyalammapalem –Pudimadaka, North Andhra Pradesh...
49
Fig.4: Down-core variation of Geotechnical property of VC-10
1) Specific gravity (Gs): The specific gravity varies from 2.6 to 2.8 (Average 2.66). There is no remarkable
variation ether laterally or vertically.
2) Shear Strength: Although the sediment is predominantly sandy in saturated condition, shear strength has
been determined as per the values observed in the samples.
3) Undrained Shear strength (Su) of undisturbed sediment: The un-drained shear strength in undisturbed state
varies from 3.14 to 6.28 k Pa (Average 4.4 k Pa) and increases towards sub-bottom with exception in some
cores.
4) Shear strength (Su) of re-molded sediment: The remolded shear strength varies from 2.35 to 4.71 k Pa
(Average 3.28 k Pa) and increases towards bottom with few exceptions. The Shear strength values of un-
disturbed as well as remolded sediment increases towards sub-bottom due to compactness and consolidation of
sediment at that level. The Shear strength of remolded sediment are always less than the normal (undisturbed
sediment) shear strength as the structural strength gets destroyed by remolding.
5) Sensitivity (St): The sensitivity varies from 1.1 to 2.0 with an average of 1.35. The sensitivity is a measure of
loss of strength, when the structure strength of sediment is destroyed by re-molding. Higher the sensitivity,
greater the loss of strength in re-molded condition. As far as sensitivity values are concerned all the sub-samples
in the range of 1 to 2, which is suggestive of “slightly insensitive” nature of sediment with a strength loss of
up to 50 % up to 3.1 m subsurface.
6) Wet Bulk Density (γ) or (Wet Unit Weight): The wet bulk density varies from 15.34kN/m3
to 21.71 k N/m3
with an average of 18.98 k N/m3
. The sediments have shown a general increase towards sub-bottom. The wet
unit weight is directly related to the amount of sand material and decrease with increase in silt plus clay content.
The increase towards bottom indicates the dominance of coarse sediment over the fines. The studies also suggest
presence of medium dense coarse sand to very dense coarse medium sand.
7) Water content (Wn) or (Natural Moisture Content): The water content varies from 15.46 % to 29.57 % with
an average of 24.24 % and decreases towards bottom. The water content is a quantitative measure of wetness of
sediment mass. Generally, the water content in the finer sediments is more than the coarser sediments.
Sometimes in fine clays, the water content is even more than 100 %, which means that more than 50 % of total
mass is that of water (ratio between the weight of the water and weight of the mass). The water content is such
an important property that soil changes to a marked degree with a variation of its water content. The water
content increases with increase of silt and clay content. The variability in water content is due to the textural
variations and normal burial effects due to loading. In general, the water content decreases towards sub-surface.
As a whole, the nature of sediment is dense mixed grained sand; and loose mixed grain sand with average dense
uniformity.
8) Void Ratio (e): Void ratio varies from 0.40 (dense uniform sand) (310 cm level at 14.6 m water depth, fine
sand 100 % and water content 15.46 %) to 0.81 (loose uniform sand) (150 cm level at 14.97 m of water depth,
sand with 82 % sand and 18 % fines and water content 29.57%) with an average of 0.67 (soft fine silt) showing
general decrease towards sub-bottom.
9) Porosity (n): Porosity varies from 28.57 % (densest) (15.46 m bathy depth, 100% fine sand; void ratio 0.40
with water content 15.46%) to 44.75 % (loosest) ( 150 cm level at 14.97 m bathy depth, sand with 82 % sand
and 18 % fines; void ratio 0.81 with water content 29.57%) with an average 39.39% . In general, porosity
decreases towards sub-surface.
12. Geotechnical Studies of Inner Shelf off Mutyalammapalem –Pudimadaka, North Andhra Pradesh...
50
This type of finer sediment at this sub-surface level and at these water depths could be because of the
active deposition followed by deposition of sediments in suspension etc. as discussed already. The engineering
classification suggests nature of sediment types are of loose uniform.
10) Activity (A): The Activity for one sample is 1.23 (normal as per [17].
B. Atterberg Limits
1) Liquid Limit (LL): The liquid limit for one sample is 29.35 % dry weight.
2) Plastic Limit (PL): The plastic limit for one sample is 13.75 % dry weight.
3) Plasticity Index (PI): The plasticity index for one sample is 15.96 (medium plasticity and cohesive in nature
as per [19].
4) Liquidity Index (LI): The liquidity index for one sample is 0.92 (very soft as per [18]).
5) Consistency (Ic or Ci): The consistency index for one sample is 0.08 (very soft or fluid plastic as per [18] and
[20].
XII. PHYSICAL - CHEMICAL PARAMETERS
OF SEA WATER
Sea water samples have been collected by deploying water sampler at 6 stations in water depths
ranging from 8.92 m to 21.17 m. Analyses of sea water samples for salinity, temperature, dissolved oxygen
(DO), hydrogen ion concentration (pH) and conductivity have been carried out on board by using the water
analysis kit.
A. Materials and methods
Surface water sample collection with Niskin water sampler was carried out at 6 stations in the month of
February, 2010. The sampling is spread over the surveyed area. The waters collected separately and preserved
nitric acid media are analysed at shore laboratories with state of the art AAS. The total uranium, gross alpha and
gross beta measurements are made at Bhabha Atomic Reseach Centre, Environmental Assessment Division,
Radiation Protection Section (Nuclear Fuels), Radio analytical Laboratory, Mumbai.
B. Salinity, Temperature, Conductivity, DO and pH
The Salinity values varied from 31.6 to 31.9 ‰ at surface level to 31.7 to 31.8 ‰ at bottom level; the
Temperature from 27.4C to 28.8C (average 28.11C) at surface to 26.8C to 28.6C (average 27.86C) at
bottom; the Conductivity from 48.1 to 48.8 x mS/cm at surface to 48.3 to 48.6 x ms/cm at bottom; the DO
from 4.79 to 5.5.4 (average 5.07) mg/l at surface to 4.82 to 4.92 mg/l (average 4.866 mg/l) at bottom; and the
pH from 8.45 to 8.91 at surface to 8.15 to 8.78 (average 8.514) at bottom. The values show almost uniform for
salinity, conductivity and the pH and marginal decrease of temperature and DO towards bottom.
The salinity off coastal waters off Visakhapatnam as reported earlier [2] varies in the range of 15 to 35
‰. The observed values are well in agreement with the earlier reported values.
The relatively higher temperature in the surface waters may be due to shallow depth and nearer to the
coast. The temperature values are gradually decreasing from surface to bottom. The relatively high surface
temperatures in the shallow depths can be explained due to fact that the sea waters become warmer due to
exposure to the suns heat near the coast than the deeper waters. The dissolved oxygen values are slightly lower
than the oceanic average (6.0 ppm) as quoted in [21]. Hence the area under study may be considered as slightly
low oxygen region. There is a slight decrease from top to bottom waters.
C. Carbonate, Bi-Carbonate, Major And Trace Metals
Carbonate (CO3), bi-carbonate (HCO3), major elements (Al, Mg, Fe, K, Na, Ca, Mn) and trace metals
(Cu, Pb, Zn, Ni, Co, V, Bi, Cr, Cd, Mo, As, Sr) are analysed by AAS in the water sample preserved in acid
media.
The carbonates is in non-detectable limits, Cr, Mn, As, V and Mo also in non-detectable limits, Cu and
Zn are in <5 ppm limits, bicarbonates are in ppm levels where as remaining major and trace metals are in low
ppm levels indicating that there is no pollution in the area of study. Present base line data clearly shows that
coastal waters are pollution free.
XIII. CONCLUSIONS
Bathymetric contours are in alignment with the NE-SW shore-line. The sea floor is smooth with
moderately steep gradient. Rock exposures are present on the seafloor in the southern part of the area around 8
m isobath. The profiles drawn across the beach to 22 m isobath in the offshore reveals a gradient varying from
1:4 to 1:800 on the beach sector and 1:22 to 1:247 in the offshore sector off P1; 1:4 to 1:38 in the beach sector
and 1:23 to 1:290 in the offshore sector off P2; 1:6 to 1:117 on the beach sector and 1:17 to 1:298 in the offshore
sector off P3 and 1:4.5 to 1:48 in the beach sector and 1:51 to 1:147 in the offshore region off P4
13. Geotechnical Studies of Inner Shelf off Mutyalammapalem –Pudimadaka, North Andhra Pradesh...
51
The reflector R1 is almost sub-parallel and mimics the seafloor. The thickness of unit – I between the
seafloor and reflector R1 varies between 3-4 m. The deeper reflector R2 is a marker reflector with good
reflectivity present through out the area surveyed. The reflector R2 is dipping towards the sea. The reflector R2 is
merging with reflector R1 in the NE part and further exposes onto the seafloor. The thickness of unit –I varies
between 0 to 11m. The echo character of reflector R2 suggests that it is the hard formation and surfaces on to the
seafloor in the northeastern part. This reflector R2 seems to be the extension of hinterland rock formation
exposed in the near shore area. The stratum contour generated to the top of reflector R2 indicates a maximum
thickness of unconsolidated / semi consolidated sediments of 2 to 15 m which is increasing with depth both in
SSE and SW. Surface faults/lineaments are not present which makes the area suitable for any offshore
development. The extension of hinterland rock formations into the offshore area in the NE part of the area acts as
a barrier, creating an environment of Bay which is more suitable for offshore developmental activity.
The sediment type in the mapped area is uniformly sand. The sand unit extends both vertically as
observed from the core logs and laterally up to 30 m isobath. Very fine sand is the dominant unit in the surface
sediment. Area off P2 to P3 around 15 m isobath as isolated patch, poorly sorted sediments is noticed as a result
of low energy conditions. The poor sorting of the very fine sands as per [8] in this area may be due to the curved
nature of the coast line which resulted in creation of low energy conditions, showing the suspended fine
sediment population to settle after a short travel. The remaining area is composed of very well, well sorted and
moderately sorted sand due to the high/medium energy conditions. The promontories at Pudimadaka into the sea
have created an accretion pattern giving rise to very well to well sorted sediments in the area. Littoral currents
and wave activity played a great role in the deposition of the sediments in the area.
The moderately sorted and well sorted sediment which are negatively skewed are suggests relatively
medium energy conditions. From the kurtosis values, the overall nature of sediment can be interpreted as a unit
with few size class ranges. The distribution pattern is showing decreasing competency of the sorting agent from
near shore to inner shelf area. The mixing is seen due to the addition of fine sediments from the creeks.
. Sub-surface Sand remains as the dominant constituent of the sediment column up to 3 m as evidenced by
the longest core of 3.10 m recovered off P-1. The down core variation of mean size shows a steady decrease
towards lower levels. Kurtosis in most of the cores shows an increase with depth. Sediment with negative and
symmetrical skewness occurs off P-2. Skewness values in majority of the cores shows a decrease with depth.
The surface current speed varies from 0.304 knots to 0.48 knots and direction varies from 59o
to 190o
.
The bottom current speed varies from 0.29 knots to 0.41 knots and direction varies from 61o
to 210o
The direction of the drift on 21-02-2010 at 0830 hrs is towards north east and magnitude variable beyond
the wave breaker is low having drift 0.404 knots and wave breaker to lowest low tide zone having comparatively
high with 0.4047 knots.
The specific gravity of sediments varies from 2.6 to 2.8 (Average 2.66) and there is no
remarkable/noticeable variation ether laterally or vertically. The Shear strength values of both undisturbed as
well as remolded sediment increases towards sub-bottom due to compactness and consolidation of sediment at
that level. The Shear strength of re-molded sediment are always less than the normal (undisturbed sediment)
shear strength as the structural strength gets destroyed by re-molding. Higher shear strength suggests that the
sediment is fine grained with low water content and with high density. The sensitivity is a measure of loss of
strength, when the structure strength of sediment is destroyed by re-molding. Higher the sensitivity, greater the
loss of strength in re-molded condition. As far as sensitivity values are concerned all the sub-samples in the
range of 1 to 2, which is suggestive of “slightly insensitive” nature of sediment with a strength loss of up to
50 % up to 3.1 m below seafloor. The wet unit weight is directly related to the amount of sand material and
decrease with increase in silt plus clay content. The increase towards sub-bottom indicates the dominance of
coarse sediment over the fines. The studies also suggest presence of medium dense coarse sand to very dense
coarse medium sand. In general the water content decrease towards sub-surface which is infers the domination
of coarser sediment over the finer sediment. Sediment is dense mixed grained sand; and loose mixed grain sand
with average dense uniform sand.
This type of finer sediment at this sub-surface level and at these water depths could be because of the
active deposition followed by deposition of sediments in suspension etc. as discussed already. The engineering
classification suggests nature of sediment types are of loose uniform.
The plastic limit for one sample is 13.75 % dry weight and is inferred to be medium state of plasticity.
Statistical appraisal of the sediment geochemistry shows that the basic factors that are identified in the
detritus sediments can be related to the bulk chemistry of the metamorphic rock types present in the source
region, i.e. Khondalites, which represent the aluminous metamorphosed rock types and Charnockites have
dominant amounts of elements reported is an important component of the bulk chemistry of source rocks. In
general, it can be stated that the sampled data represents the erosional products of the terrain consisting
Archaean group of rocks.
14. Geotechnical Studies of Inner Shelf off Mutyalammapalem –Pudimadaka, North Andhra Pradesh...
52
The base line geochemical data of sediment and sea water clearly shows that the area of study is free
from pollution. Pollution Load Index (PLI) which is less than one and Geo-accumulation Index (Igeo) zero
shows there is no pollution in the area of study. Studies are taken up for geo-environmental appraisal for
the present area. The concentration levels of toxic metals analyses are far below the world average marine
sediment concentrations. The V & Mo are <1 ppm, Cd average concentration is 2.1 ppm and other major traces
are far below the world average. The values show almost uniform for salinity, conductivity and the pH and
marginal decrease of temperature and DO towards bottom.
The carbonate is in non-detectable limits, Cr, Mn, As, V and Mo also in non-detectable limits, Cu and
Zn are in <5 ppm limits, bicarbonates are in ppm levels where as remaining major and trace metals are in low
ppm levels indicating that there is no pollution in the area of study. Present base line data clearly shows that
coastal waters are pollution free.
The seafloor is very smooth and gently dipping towards offshore. The reflectorR1 is almost parallel to
the seafloor. The thickness of the sediment (between seafloor and Reflector r1) unit – I varies from 3 - 5 m and
the thickness of the sediment (between Reflector 1 and Reflector R2) unit –II is 1.8 m to 10.8 m.The area is
floored by sandy sediment which has mean size of fine to very fine sand 2.74 to 3.64 Ø (average 3.21Ø).
Surface sand has continuity towards subsurface up to a minimum of 3.1 m.The fine sand indicates a moderate
energy conditions.The bathymetric contours are linearly parallel to sub parallel with the trend of the shore
line.There is a conspicuous break in gradient from 500 to 700 m after 6 m in the south to 12 m depth in the
north.There are submerged rocky out crops between 7 to 8 m isobath with a relief of 1 m shore side to 4.7 m
offshore side. Shallow seismic study indicates a relatively hard stratum below the seafloor to the first reflector
of 3 - 5 m thick sediment and the second reflector of 2 – 15 m thick. Water analysis indicates that the area is
free from any pollution. Similarly geochemistry of sediment also shows that the area is free from pollution. The
gentle slope of the beach during February could be due to removal of top sediment during Northeast
monsoon.The current meter observation indicate that the average current of the surface current is towards NE
with 4.48 knots speed and bottom current direction also shows towards NE with 0.29 knots speed during
survey. The littoral drift is towards north east and magnitude variable beyond the wave breaker is low (0.104
knots) and wave breaker to lowest low tide zone (onshore side) is high (0.4047 knots). The current pattern
within breaker zone is in variation with deeper waters.A deeper drill into the R2 reflector may indicate the
extent and nature of sub- surface soil.
A. Suitability of Pipe Line and Jetty Construction
The configuration of the seafloor, the disposition of the reflector R1, the thickness of the sediment
(between seafloor and Reflector R1) unit-I, the thickness of the sediment (between Reflector 1 and Reflector R2)
unit – II and no surface or sub-surface dislocations / faults were found, thus the area selected is suitable for any
offshore development. Moderate gradient of the seafloor up to 1:8 is present. There is a conspicuous break in
gradient at 700 m distance from the shore after 12 m depth. The area is floored by sandy sediments with a mean
of 2.15 to 3.64 Ø (average 3.2 Ø). Surface sand has continuity towards subsurface up to a minimum of 2.3 m.
Sediment characteristics indicates a moderate energy conditions. Water analysis and sediment geochemistry
indicates that the area is free from any pollution. The surface current speed varies from 0.304 to 0.48 knots with
59o
to 158o
direction and the bottom current speed varies from 0.29 to 0.41 knots with 61o
to 164o
direction.
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