The document provides information about the Public Works Department of Rajasthan. It discusses that the PWD is responsible for construction and maintenance of roads, bridges and government buildings. It has a long history since before independence. The department oversees over 87,500 km of roads and many state buildings. It also acts as a technical advisor to the state government. The budget allocation for construction is over Rs. 1000 crores annually. The PWD has a widespread network across the state to efficiently carry out various tasks.
DURABLE CONCRETE WITH MINERAL ADMIXTURES: TRAINING COURSE IN MALAYSIA: BY Dr ...Dr J.D. Bapat
The objective of the training programme is to impart deeper knowledge about the contribution of mineral admixtures in improving strength and durability of concrete. It should equip the practicing engineer make better choice of the type and quality of mineral admixture in concrete mix to optimize the cost on one hand, and build structures with greater reliability, on the other. The engineers on site, with the knowledge on the impact of environmental factors that are responsible for distress and deterioration of structures, shall be in a position to take appropriate preventive measures.
WHO SHOULD ATTEND
Engineers working at construction site and interested in learning optimum utilisation of mineral admixtures for strength and durability.
Marketing engineers working with cement, concrete and admixture industry, which frequently face customer queries regarding benefits of blended cement or admixtures.
Engineers working on product development.
Students/researchers interested in pursuing studies in the area.
DURABLE CONCRETE WITH MINERAL ADMIXTURES: TRAINING COURSE IN MALAYSIA: BY Dr ...Dr J.D. Bapat
The objective of the training programme is to impart deeper knowledge about the contribution of mineral admixtures in improving strength and durability of concrete. It should equip the practicing engineer make better choice of the type and quality of mineral admixture in concrete mix to optimize the cost on one hand, and build structures with greater reliability, on the other. The engineers on site, with the knowledge on the impact of environmental factors that are responsible for distress and deterioration of structures, shall be in a position to take appropriate preventive measures.
WHO SHOULD ATTEND
Engineers working at construction site and interested in learning optimum utilisation of mineral admixtures for strength and durability.
Marketing engineers working with cement, concrete and admixture industry, which frequently face customer queries regarding benefits of blended cement or admixtures.
Engineers working on product development.
Students/researchers interested in pursuing studies in the area.
Techno-Economic Analysis of Slum Rehabilitation Housing Project by Pradhan Ma...rahulmonikasharma
Slum is a neighborhood with significant population living in substandard housing that lacks basic and social science amenities. Urbanization, growing population and migration pressurizes cities resulting in overflowing infrastructure, increase in urban economic condition and haphazard development of cities. So rehabilitation of slum is important to supply truthful and reasonable homes to slum dwellers. During this thesis, slum rehabilitation by Public Private Partnership is completed exploitation Rapid wall technique. The information in Pune town is collected. Beneath Pradhan Mantri Awas Yojana housing for all scheme the slum rehabilitation by Public Private Partnership is completed. Techno-economic analysis of rehabilitation scheme by typical/conventional manner and Rapid wall is done. Comparison of time, cost and resources is completed. And best alternative is chosen.
Behaviour of Interlocking Hollow Concrete Blocksijtsrd
India is one of the highly populated countries of the world. It ranks the second in population next to China. Besides this, major section of the people live below poverty line. Due to over population, poverty, high land value & house deficit, major cities like Delhi & Mumbai are covered by slums. These slums not only make our country aesthetically bad but also the people living in such slums are deprived from basic facilities like proper sanitation, health care, and proper housing. The provision of affordable housing for these poor people needs to be facilitated by certain provisions. This can be possible only by introducing such technologies and materials that can be beneficial for building low-cost houses. Researchers worldwide have made significant efforts to find sustainable and affordable technologies to arrest the situation. Appropriate solution for affordable housing will vary from one location to another. Some general rules, however, apply to construction methods and housing systems. This project aims for developing a technology called dry stacking or mortar less buildings made from interlocking blocks. Mortarless brick construction, usually employing interlocking bricks, is growing in popularity round the world, indicative of acceptability. Mortarless techniques demonstrate the following advantages: increase of construction productivity, reduction in construction duration and labor and reduced construction cost. Because of its technological simplicity and local resource dependence, mortarless-block construction is more appropriate to many local communities than conventional mortared-brick techniques. Mohammad Vekas Wani | Mr. Chitranjan Kumar"Behaviour of Interlocking Hollow Concrete Blocks" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-2 | Issue-4 , June 2018, URL: http://www.ijtsrd.com/papers/ijtsrd14173.pdf http://www.ijtsrd.com/engineering/civil-engineering/14173/behaviour-of-interlocking-hollow-concrete-blocks/mohammad-vekas-wani
IJRET : International Journal of Research in Engineering and Technology is an international peer reviewed, online journal published by eSAT Publishing House for the enhancement of research in various disciplines of Engineering and Technology. The aim and scope of the journal is to provide an academic medium and an important reference for the advancement and dissemination of research results that support high-level learning, teaching and research in the fields of Engineering and Technology. We bring together Scientists, Academician, Field Engineers, Scholars and Students of related fields of Engineering and Technology
Study on Causes of Cracks & its Preventive Measures in Concrete StructuresIJERA Editor
The problem of cracking in building is becoming a difficult puzzle for engineers nowadays. Cracking is an unavoidable response of any structure while designers are trying to eliminate many of the causes of cracking and design tolerance for other factors. We all want our building structurally safe but it is not so easy. Some faulty steps during construction and some unavoidable reasons different type of cracks starts to appear on various structural and non- structural parts of the building. So, timely identification of such cracks and adopting preventive measure are essential. The repair materials and repair technique are different depending upon forms of cracks according to their positions in structure. Some types of cracks seriously need attention as they are structurally hazardous. In this paper, we will discuss about the problem engineers are facing i.e. of cracking after construction and what preventive measures should be taken along with the techniques to cure cracks.
Introduction to Concrete
Manufacturing of Concrete
Types of Concrete
Properties of Concrete
Advantage of Concrete
Uses of Concrete
Various Tests for Concrete
Innovations…
Final project report on grocery store management system..pdfKamal Acharya
In today’s fast-changing business environment, it’s extremely important to be able to respond to client needs in the most effective and timely manner. If your customers wish to see your business online and have instant access to your products or services.
Online Grocery Store is an e-commerce website, which retails various grocery products. This project allows viewing various products available enables registered users to purchase desired products instantly using Paytm, UPI payment processor (Instant Pay) and also can place order by using Cash on Delivery (Pay Later) option. This project provides an easy access to Administrators and Managers to view orders placed using Pay Later and Instant Pay options.
In order to develop an e-commerce website, a number of Technologies must be studied and understood. These include multi-tiered architecture, server and client-side scripting techniques, implementation technologies, programming language (such as PHP, HTML, CSS, JavaScript) and MySQL relational databases. This is a project with the objective to develop a basic website where a consumer is provided with a shopping cart website and also to know about the technologies used to develop such a website.
This document will discuss each of the underlying technologies to create and implement an e- commerce website.
Automobile Management System Project Report.pdfKamal Acharya
The proposed project is developed to manage the automobile in the automobile dealer company. The main module in this project is login, automobile management, customer management, sales, complaints and reports. The first module is the login. The automobile showroom owner should login to the project for usage. The username and password are verified and if it is correct, next form opens. If the username and password are not correct, it shows the error message.
When a customer search for a automobile, if the automobile is available, they will be taken to a page that shows the details of the automobile including automobile name, automobile ID, quantity, price etc. “Automobile Management System” is useful for maintaining automobiles, customers effectively and hence helps for establishing good relation between customer and automobile organization. It contains various customized modules for effectively maintaining automobiles and stock information accurately and safely.
When the automobile is sold to the customer, stock will be reduced automatically. When a new purchase is made, stock will be increased automatically. While selecting automobiles for sale, the proposed software will automatically check for total number of available stock of that particular item, if the total stock of that particular item is less than 5, software will notify the user to purchase the particular item.
Also when the user tries to sale items which are not in stock, the system will prompt the user that the stock is not enough. Customers of this system can search for a automobile; can purchase a automobile easily by selecting fast. On the other hand the stock of automobiles can be maintained perfectly by the automobile shop manager overcoming the drawbacks of existing system.
Techno-Economic Analysis of Slum Rehabilitation Housing Project by Pradhan Ma...rahulmonikasharma
Slum is a neighborhood with significant population living in substandard housing that lacks basic and social science amenities. Urbanization, growing population and migration pressurizes cities resulting in overflowing infrastructure, increase in urban economic condition and haphazard development of cities. So rehabilitation of slum is important to supply truthful and reasonable homes to slum dwellers. During this thesis, slum rehabilitation by Public Private Partnership is completed exploitation Rapid wall technique. The information in Pune town is collected. Beneath Pradhan Mantri Awas Yojana housing for all scheme the slum rehabilitation by Public Private Partnership is completed. Techno-economic analysis of rehabilitation scheme by typical/conventional manner and Rapid wall is done. Comparison of time, cost and resources is completed. And best alternative is chosen.
Behaviour of Interlocking Hollow Concrete Blocksijtsrd
India is one of the highly populated countries of the world. It ranks the second in population next to China. Besides this, major section of the people live below poverty line. Due to over population, poverty, high land value & house deficit, major cities like Delhi & Mumbai are covered by slums. These slums not only make our country aesthetically bad but also the people living in such slums are deprived from basic facilities like proper sanitation, health care, and proper housing. The provision of affordable housing for these poor people needs to be facilitated by certain provisions. This can be possible only by introducing such technologies and materials that can be beneficial for building low-cost houses. Researchers worldwide have made significant efforts to find sustainable and affordable technologies to arrest the situation. Appropriate solution for affordable housing will vary from one location to another. Some general rules, however, apply to construction methods and housing systems. This project aims for developing a technology called dry stacking or mortar less buildings made from interlocking blocks. Mortarless brick construction, usually employing interlocking bricks, is growing in popularity round the world, indicative of acceptability. Mortarless techniques demonstrate the following advantages: increase of construction productivity, reduction in construction duration and labor and reduced construction cost. Because of its technological simplicity and local resource dependence, mortarless-block construction is more appropriate to many local communities than conventional mortared-brick techniques. Mohammad Vekas Wani | Mr. Chitranjan Kumar"Behaviour of Interlocking Hollow Concrete Blocks" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-2 | Issue-4 , June 2018, URL: http://www.ijtsrd.com/papers/ijtsrd14173.pdf http://www.ijtsrd.com/engineering/civil-engineering/14173/behaviour-of-interlocking-hollow-concrete-blocks/mohammad-vekas-wani
IJRET : International Journal of Research in Engineering and Technology is an international peer reviewed, online journal published by eSAT Publishing House for the enhancement of research in various disciplines of Engineering and Technology. The aim and scope of the journal is to provide an academic medium and an important reference for the advancement and dissemination of research results that support high-level learning, teaching and research in the fields of Engineering and Technology. We bring together Scientists, Academician, Field Engineers, Scholars and Students of related fields of Engineering and Technology
Study on Causes of Cracks & its Preventive Measures in Concrete StructuresIJERA Editor
The problem of cracking in building is becoming a difficult puzzle for engineers nowadays. Cracking is an unavoidable response of any structure while designers are trying to eliminate many of the causes of cracking and design tolerance for other factors. We all want our building structurally safe but it is not so easy. Some faulty steps during construction and some unavoidable reasons different type of cracks starts to appear on various structural and non- structural parts of the building. So, timely identification of such cracks and adopting preventive measure are essential. The repair materials and repair technique are different depending upon forms of cracks according to their positions in structure. Some types of cracks seriously need attention as they are structurally hazardous. In this paper, we will discuss about the problem engineers are facing i.e. of cracking after construction and what preventive measures should be taken along with the techniques to cure cracks.
Introduction to Concrete
Manufacturing of Concrete
Types of Concrete
Properties of Concrete
Advantage of Concrete
Uses of Concrete
Various Tests for Concrete
Innovations…
Final project report on grocery store management system..pdfKamal Acharya
In today’s fast-changing business environment, it’s extremely important to be able to respond to client needs in the most effective and timely manner. If your customers wish to see your business online and have instant access to your products or services.
Online Grocery Store is an e-commerce website, which retails various grocery products. This project allows viewing various products available enables registered users to purchase desired products instantly using Paytm, UPI payment processor (Instant Pay) and also can place order by using Cash on Delivery (Pay Later) option. This project provides an easy access to Administrators and Managers to view orders placed using Pay Later and Instant Pay options.
In order to develop an e-commerce website, a number of Technologies must be studied and understood. These include multi-tiered architecture, server and client-side scripting techniques, implementation technologies, programming language (such as PHP, HTML, CSS, JavaScript) and MySQL relational databases. This is a project with the objective to develop a basic website where a consumer is provided with a shopping cart website and also to know about the technologies used to develop such a website.
This document will discuss each of the underlying technologies to create and implement an e- commerce website.
Automobile Management System Project Report.pdfKamal Acharya
The proposed project is developed to manage the automobile in the automobile dealer company. The main module in this project is login, automobile management, customer management, sales, complaints and reports. The first module is the login. The automobile showroom owner should login to the project for usage. The username and password are verified and if it is correct, next form opens. If the username and password are not correct, it shows the error message.
When a customer search for a automobile, if the automobile is available, they will be taken to a page that shows the details of the automobile including automobile name, automobile ID, quantity, price etc. “Automobile Management System” is useful for maintaining automobiles, customers effectively and hence helps for establishing good relation between customer and automobile organization. It contains various customized modules for effectively maintaining automobiles and stock information accurately and safely.
When the automobile is sold to the customer, stock will be reduced automatically. When a new purchase is made, stock will be increased automatically. While selecting automobiles for sale, the proposed software will automatically check for total number of available stock of that particular item, if the total stock of that particular item is less than 5, software will notify the user to purchase the particular item.
Also when the user tries to sale items which are not in stock, the system will prompt the user that the stock is not enough. Customers of this system can search for a automobile; can purchase a automobile easily by selecting fast. On the other hand the stock of automobiles can be maintained perfectly by the automobile shop manager overcoming the drawbacks of existing system.
TECHNICAL TRAINING MANUAL GENERAL FAMILIARIZATION COURSEDuvanRamosGarzon1
AIRCRAFT GENERAL
The Single Aisle is the most advanced family aircraft in service today, with fly-by-wire flight controls.
The A318, A319, A320 and A321 are twin-engine subsonic medium range aircraft.
The family offers a choice of engines
Water scarcity is the lack of fresh water resources to meet the standard water demand. There are two type of water scarcity. One is physical. The other is economic water scarcity.
Quality defects in TMT Bars, Possible causes and Potential Solutions.PrashantGoswami42
Maintaining high-quality standards in the production of TMT bars is crucial for ensuring structural integrity in construction. Addressing common defects through careful monitoring, standardized processes, and advanced technology can significantly improve the quality of TMT bars. Continuous training and adherence to quality control measures will also play a pivotal role in minimizing these defects.
Hybrid optimization of pumped hydro system and solar- Engr. Abdul-Azeez.pdffxintegritypublishin
Advancements in technology unveil a myriad of electrical and electronic breakthroughs geared towards efficiently harnessing limited resources to meet human energy demands. The optimization of hybrid solar PV panels and pumped hydro energy supply systems plays a pivotal role in utilizing natural resources effectively. This initiative not only benefits humanity but also fosters environmental sustainability. The study investigated the design optimization of these hybrid systems, focusing on understanding solar radiation patterns, identifying geographical influences on solar radiation, formulating a mathematical model for system optimization, and determining the optimal configuration of PV panels and pumped hydro storage. Through a comparative analysis approach and eight weeks of data collection, the study addressed key research questions related to solar radiation patterns and optimal system design. The findings highlighted regions with heightened solar radiation levels, showcasing substantial potential for power generation and emphasizing the system's efficiency. Optimizing system design significantly boosted power generation, promoted renewable energy utilization, and enhanced energy storage capacity. The study underscored the benefits of optimizing hybrid solar PV panels and pumped hydro energy supply systems for sustainable energy usage. Optimizing the design of solar PV panels and pumped hydro energy supply systems as examined across diverse climatic conditions in a developing country, not only enhances power generation but also improves the integration of renewable energy sources and boosts energy storage capacities, particularly beneficial for less economically prosperous regions. Additionally, the study provides valuable insights for advancing energy research in economically viable areas. Recommendations included conducting site-specific assessments, utilizing advanced modeling tools, implementing regular maintenance protocols, and enhancing communication among system components.
Explore the innovative world of trenchless pipe repair with our comprehensive guide, "The Benefits and Techniques of Trenchless Pipe Repair." This document delves into the modern methods of repairing underground pipes without the need for extensive excavation, highlighting the numerous advantages and the latest techniques used in the industry.
Learn about the cost savings, reduced environmental impact, and minimal disruption associated with trenchless technology. Discover detailed explanations of popular techniques such as pipe bursting, cured-in-place pipe (CIPP) lining, and directional drilling. Understand how these methods can be applied to various types of infrastructure, from residential plumbing to large-scale municipal systems.
Ideal for homeowners, contractors, engineers, and anyone interested in modern plumbing solutions, this guide provides valuable insights into why trenchless pipe repair is becoming the preferred choice for pipe rehabilitation. Stay informed about the latest advancements and best practices in the field.
NO1 Uk best vashikaran specialist in delhi vashikaran baba near me online vas...Amil Baba Dawood bangali
Contact with Dawood Bhai Just call on +92322-6382012 and we'll help you. We'll solve all your problems within 12 to 24 hours and with 101% guarantee and with astrology systematic. If you want to take any personal or professional advice then also you can call us on +92322-6382012 , ONLINE LOVE PROBLEM & Other all types of Daily Life Problem's.Then CALL or WHATSAPP us on +92322-6382012 and Get all these problems solutions here by Amil Baba DAWOOD BANGALI
#vashikaranspecialist #astrologer #palmistry #amliyaat #taweez #manpasandshadi #horoscope #spiritual #lovelife #lovespell #marriagespell#aamilbabainpakistan #amilbabainkarachi #powerfullblackmagicspell #kalajadumantarspecialist #realamilbaba #AmilbabainPakistan #astrologerincanada #astrologerindubai #lovespellsmaster #kalajaduspecialist #lovespellsthatwork #aamilbabainlahore#blackmagicformarriage #aamilbaba #kalajadu #kalailam #taweez #wazifaexpert #jadumantar #vashikaranspecialist #astrologer #palmistry #amliyaat #taweez #manpasandshadi #horoscope #spiritual #lovelife #lovespell #marriagespell#aamilbabainpakistan #amilbabainkarachi #powerfullblackmagicspell #kalajadumantarspecialist #realamilbaba #AmilbabainPakistan #astrologerincanada #astrologerindubai #lovespellsmaster #kalajaduspecialist #lovespellsthatwork #aamilbabainlahore #blackmagicforlove #blackmagicformarriage #aamilbaba #kalajadu #kalailam #taweez #wazifaexpert #jadumantar #vashikaranspecialist #astrologer #palmistry #amliyaat #taweez #manpasandshadi #horoscope #spiritual #lovelife #lovespell #marriagespell#aamilbabainpakistan #amilbabainkarachi #powerfullblackmagicspell #kalajadumantarspecialist #realamilbaba #AmilbabainPakistan #astrologerincanada #astrologerindubai #lovespellsmaster #kalajaduspecialist #lovespellsthatwork #aamilbabainlahore #Amilbabainuk #amilbabainspain #amilbabaindubai #Amilbabainnorway #amilbabainkrachi #amilbabainlahore #amilbabaingujranwalan #amilbabainislamabad
NO1 Uk best vashikaran specialist in delhi vashikaran baba near me online vas...
building construction
1. 1
CHAPTER 1
ABOUT PWD
Introduction
The Public Works Department has a glorious history in the development of the state since pre
independence. The department is mainly entrusted with construction and maintenance of Roads,
Bridges and Govt. buildings. The department also acts as Technical Advisor to the State Government.
Initially, Irrigation, Public Health engineering were units of PWD. Subsequently these units were
given separate entities to handle increased scope of work in the respective field. Since the inception
of the Department, it has strived through its continuous quest for excellence and putting milestones in
the feat of Engineering. It is this time that the Department is treading into a new era of information
technology to keep pace with the modernization. The Public Works Department being the oldest
engineering department of the State, has its well woven network even below tensile level which
enables the P.W.D. to ensure the execution of a variety of jobs/tasks any where in the state
1.2 About Public Works Department
The Public Works Department has a glorious history in the development of the state since pre
independence. The department is mainly entrusted with construction and maintenance of Roads,
Bridges and Govt. buildings. The department also acts as Technical Advisor to the State Government
in these matters.
Total road length being maintained by the department is more than 87500 KM the Department also
maintains State buildings all over Rajasthan & outside. The current annual budget allocation to the
department for construction & maintenance activities is over Rs 1000 Crores.
The Public Works Department being the oldest engineering department of the State, has its well
woven network even below tensile level which enables the P.W.D. to ensure the execution of a
variety of jobs/tasks any where in the state.
2. 2
Initially, Irrigation, Public Health engineering were units of PWD. Subsequently these units were
given separate entities to handle increased scope of work in the respective field. Since the inception
of the Department, it has strived through its continuous quest for excellence and putting milestones in
the feat of Engineering. It is this time that the Department is treading into a new era of information
technology to keep pace with the modernization. The Public Works Department being the oldest
engineering department of the State, has its well woven network even below tensile level which
enables the P.W.D. to ensure the execution of a variety of jobs/tasks any where in the state.
1.3 Agencies
1. Relief works in the event of Natural calamities like famine, flood, earthquakes et al.
2. D.R.D.A. Works like Employment Assurance Scheme (EAS) etc.
3. Assessments of rent of private premises requisitioned for housing Govt. offices.
4. Design, construction, maintenance and repairs of runway relating to the State Government.
5. Development and maintenance of Public Parks and Gardens in important Public Buildings.
6. Up keeping of Govt. Rest House and Circuit Houses.
7. To permit construction of approaches on both sides of roads to private individual, other
institutions, factories, Petrol Pumps etc.
8. To evacuate the encroachment coming along the road sides. To evacuate the encroachment
coming along the road sides.
3. 3
9. Issue of certificates periodically to Cinema Houses about stability of structures/ arrangement
related to electrical fittings conforming to Cinema Regulation Act.
10. Plantation of trees along both sides of the road.
4. 4
CHAPTER 2
ABOUT THE BUILDING
2.1Introduction
It project is a multi-storey residential building. This building is constructing for middle class people.
company has divided the residential buildings in different group as mentioned below-
i. HIG (HIGH INCOME GROUP) :
This group includes the flats of cost is more than 15 lac.
ii. MIG (MIDDLE INCOME GROUP) :
This group includes the flats of cost varies between 5 to 15 lac.
iii. LIG (LOW INCOME GROUP) :
This group includes the flats of cost is less than 5 lac.
This building insists In MIG (Middle Income Group).It is a four storey building (G+3).Entire
building is constructed in two combined apartments. The number of flats in each floor is four in
each apartment. Each flat consists two bed room, a living room and a kitchen (2 BHK) with
separate bathroom and toilet. The height of each floor is 3 meter. The dimensions of all flats were
same.
Dimensional detail of a flat
i. Living Room : (3.18*4.00) meter
ii. Bed Room (1) : (3.00*3.30) meter
iii. Bed Room (2) : (2.70*3.30) meter
iv. Kitchen : (1.80*2.50) meter
v. Toilet : (2.1*1.20) meter
vi. Bath Room : (1.20*1.20) meter
vii. Water Closet : (0.90*1.20) meter
Single window has provided in living room, bed rooms and kitchen .Each flat consists a balcony in
front and rear sides of apartments.
5. 5
Fig 2.1 Frame structure building flat
2.2 Types of Building:
Building are classified on the basis of character of occupancy and type of use as –
i. Residential Building
ii. Educational Building
iii. Institutional Building
iv. Industrial Building
2.2.1 Residential Building:
In such building sleeping accommodation is provided. IT includes the living room, bed room,
kitchen, hall, and toilet and bath room. It may be a single storey building or apartments.
2.2.2 Educational Building:
These include any building using for school, college, assembly for instruction, education or
recreation.
2.2.3 Institutional Building:
These building are used for different purposes, such as medical or other treatment or care of a person
suffering from a physical or mental illnesses. These building include hospital, sanitoria, jail etc.
6. 6
2.2.4 INDUSTRIAL BUILDING:
These are buildings in which products or material s of all kind of properties are fabricated,
assembled, processed. For example refineries, gas plant, mills etc.
7. 7
CHAPTER 3
MATERIALS FOR CONSTRUCTION
3.1 Cement
The function of cement is to combine with water and to form cement paste. This paste first sets i.e. it
becomes firms and then hardens due to chemical reaction, called hydration, between the cement and
water. On setting & hardening, the cement binds the aggregate together into a stone like hard mass &
thus provides strength, durability & water-tighten to the concrete. Quality of cement is based on
grade of cement. The grades of cement are as-
i. 33 Grades
ii. 43 Grades
iii. 53 Grades
At the site Portland cement of53grades (JK SUPER CEMENT) is used.
The cost per beg = 275rupees
The initial setting time of cement = 30 minutes (1/2 hr)
The final setting time of cement = 10 hrs.
3.2 Aggregate
Aggregates are small pieces of broken stones in irregular size and shapes.
Neat cement is very rarely used in construction works since it is liable to shrink too much and
become cracks on setting. More over, it will be costly to use neat cement in construction work.
Therefore cement is mixed with some inert strong & durable hard materials.
They also reduce the cost of concrete because they are comparative much cheaper as cement.
Types of aggregates
i. .Fine Aggregate
ii. .Coarse Aggregate
3.2.1 Fine Aggregate (Sand)
The aggregate, which pass through 4.75 mm, I.S. sieve and entirely retain on 75 micron (.075mm)
I.S. sieve is known as fine aggregate.
8. 8
3.2.1.1 Function of Fine Aggregate
The function of using fine aggregate in a concrete mix is to fill up the voids existing in the coarse
aggregate and to obtain a dense and strong concrete with less quantity of cement and increase the
workability of the concrete mix.
3.2.2 Coarse Aggregate
The aggregate, which pass through 75 mm I.S. sieve and entirely retain on 4.75 I.S. sieve is known as
coarse aggregates. At the site the coarse aggregate was 10mm & 20mm (graded).
Fig 3.1 Aggregate
3.2.2.1 Function of Coarse Aggregate
The coarse aggregates are used in mixing of concrete. It is mixed cement, sand with water. These
aggregates increase the strength of bonding in aggregates. Coarse aggregates are used in construction
of plan cement concrete (PCC), foundation, beams and columns etc.
3.3 Grading Of Concrete
The art of doing gradation of an aggregate as determined by sieve analysis is known as grading of
aggregate. The grade of concrete is depends on size of aggregates.
9. 9
The principle of grading is that the smaller particles will fill up the voids between large particles.
This results in the most economical use of cement paste for filling the voids & binding together the
aggregate in the preparation of concrete.
Thus proper grading of fine & coarse aggregate in concrete mix produces a dense concrete with less
quantity of cement.
3.4 Reinforcement
The material that develops a good bond with concrete in order to increase its strength is called
reinforcement. Steel bars are highly strong in tension, shear, bending moment, torsion and
compression.
3.4.1 Function of Reinforcement
Reinforcement working as a tension member because concrete is strong in compression and week in
tension so reinforcement resists the tensile stresses in the concrete members. At the site contractor
using the high strength steel bars and T.M.T. (Thermo Mechanically Treated) bars of diameter 8 mm,
10 mm, 16 mm, & 32 mm as per requirement of design.
3.5 Water
It is an important ingredient of concrete because it combines with cement and forms a binding paste.
The paste thus formed fills up the voids of the sand and coarse aggregate bringing them into close
adhesion.
In this project source of water is a tube well which is closely spaced to the building. The quality of
water is good and can be used for drinking purpose also.
3.6 R.C.C.
Though plain cement concrete has high compressive strength and its tensile strength is relatively low.
Normally, the tensile strength of a concrete is about 10% to 15% of its compressive strength. Hence if
a beam is made up of plain cement concrete, it has a very low load carrying capacity since its low
tensile strength limits its overall strength. It is, there reinforced by placing steel bars in the tensile
zone of the concrete beam so that the compressive bending stress is carried by concrete and tensile
10. 10
bending stress is carried by steel reinforcing bars. Generally in simply supported and Cantilever
beams the tension zone occurs at bottom and top of beam respectively.
11. 11
CHAPTER 4
EQUIPMENTS AND MACHINES
4.1 Batching Machine
The measurement of materials for making concrete is known as batching. The machines which used
for batching is known as batching machine.
4.2 Grinding Machine
This is a power mechanically operated machine which is used to mix the concrete. It consists a
hollow cylindrical part with inner side wings. In which cement, sand, aggregates and water is mix
properly.
Fig 4.1 Grinding machine
4.3 Transportation
The process of carrying the concrete mix from the place of it’s mixing to final position of deposition
is termed as transportation of concrete. There are many methods of transportation as mentioned
below
i. Transport of concrete by pans
12. 12
ii. Transport of concrete by wheel barrows
iii. Transport of concrete by tipping lorries
iv. Transport of concrete by pumps
v. Transport of concrete by belt conveyors
vi. At this site belt conveyors were used.
Fig 4.2 Transportation
13. 13
4.4 Compactors
When the concrete has been placed, it shows a very loose structure. Hence, it must be compacted to
remove the air bubbles and voids so as to make it dense and solid concrete to obtain a high strength.
There are two method- of compaction.
i. Manual compaction
ii. Mechanical compaction
Generally in large projects mechanical compactors are used . There are various mechanical
compactors which uses according to requirement as needle and screed vibrators needed to compact
the column and floor respectively.
4.5 Footing
It is part of structural transfer the load of superstructure through columns to soil strata.
i. Combined Footing
ii. Isolated Footing
iii. Raft Footing
In this project RAFT footing is provided.
4.6 Stairs
Stairs are defined as the access to reach one floor to another floor. Stairs are designed so as it gives
maximum comfort and safety. There are several types of stairs.
i. Straight flight stairs
ii. Half turn stairs
iii. Circular stairs
iv. Spiral stairs
14. 14
Fig4.3 Stairs
4.7 Building Drawing
i. Front Elevation
ii. Ground Floor Plan
iii. Typical Floor Plan
iv. Reinforcement Detail
v. Concrete Detail
vi. Source: Site Engineer
15. 15
CHAPTER 5
BRICKMASONARY
5.1 Introduction
The bricks are obtained by moulding clay in rectangular block of uniform size and then drying and
burning these blocks. Brick masonry easy to constrctcompare stone masonry. It is less time
consuming and there is no need of skilled labour to construct it. The bricks do not require dressing
and the arty of laying bricks is so simple.
5.2 Class of Brick
On the basis of quality and performance of brick is classified in three parts-
i. CLASS A
ii. CLASS B
iii. CLASS C
At this site A class brick is used.
Fig 5.1 Bricks
16. 16
5.3 Size and Weight Of Bricks
The bricks are prepared in various sizes. On the basis of size, BIS bricks are categories in two parts-
5.3.1 Modular Bricks:
BIS recommends a standard size of brick which is 190mm*90mm*90mm. With mortar thickness,
size of such a brick become 200mm*100mm*100mm.
5.3.2 Traditional Bricks:
The brick of which size varies and not standardized known as traditional brick.
5.4 Weight Of Brick:
It is found that the weight of 1 cubic meter brick earth is about 1800 kg. Hence the average weight of
a brick will be about 3 to 3.5 kg.
5.5 Structure of Brick
5.5.1 Stretcher
If brick lay along its length then front view of brick is known as stretcher.
5.5.2 Header
If brick laid along it’s width , then front view of brick is known as header.
5.5.3 Frog
It is top of brick. It provides strong bonding between two courses of masonry by filling the mortar. It
also consists the name of company.
5.5.4 Queen Closer
This is obtained by cutting the bricks longitudinally in two equal parts.
5.5.5 Bat
This is piece of brick, considered in relation to the length of brick as half bat, three quarter bat, etc.
17. 17
5.6 Types Of Brick Masonry
Brick work is classified according to quality of mortar, quality of brick and thickness of joints. They
types of brick work as follows-
5.6.1 Brick Work In Mud Mortar
IN this type of brick work mud is used to fill up the joints. Mud is mixer of sand and clay. The
thickness of mortar joint is 12mm.
5.6.2 Brick Work In Lime Mortar:
In this type of brick work, lime mortar is used to fill up the joints. Lime mortar is mixer of lime and
sand the thickness of joints does not exceeds 10mm.
5.6.3 Brick Work In Cement Mortar:
In this type of brick work, cement mortar is used to fill up the joints. Cement mortar is mixer of
cement and sand in caftan ratio. The ratio Of cement and sand varies according to construction as in
brick masonry it generally kept 1:6.The thickness of joint does not exceeds 10mm. The brick work
with cement mortar provides high adopted in building construction.
At this site cement mortar is used in brick work. The ratio of Cement to sand is 1:6.
5.7 Tools Used In Brick Masonry:
The tools used in brick masonry are trowel, spirit level, plumb bob, square, hammer, straight edge.
5.7.1 Bonds In Brick Work:
There various bonds which provided in brick work to increase the stability of walls. Various types of
bonds are as follows-
i. Stretcher Bond
ii. Header Bond
iii. English Bond
iv. Flemish Bond
Stretcher Bond:
The bricks are laid along its length in all courses. A half and three quarter bat is used in alternative
courses to break the verticality of joints.
18. 18
Fig 5.1 Stretcher
Header Bond:
The bricks are laid along its width in all courses. A half and three quarter bat is also used in
alternative courses to break the verticality of joints.
English Bond:
This bond is widely used in practice. It is consider the strongest bond. Alternate courses consist of
stretcher and header. A queen closer is put next to quoin header to break the verticality of joints.
Generally such types of bond is provided in walls width is 9 inches.
At this site ENGLISH BOND is prefer in main wall and STRETCHER BOND in partition walls.
19. 19
Fig 5.3 English Bond
Flemish Bond:
This is also widely used because it gives better appearance to English bond. It also provides good
strength. Stretcher and header is provided in each course alternatively. A queen closer is put next to
quoin header in each alternate course to break the verticality of joints.
5.7.2 Thickness of Walls
Thickness of wall depend on load, strength of material ,length of wallet. In this project the thickness
of main wall is 9 inches and partition wall is 4.5 inches.
20. 20
Fig 5.4 Thickness of Walls
5.8 Procedure Of Brick Masonry:
i. In frame structure brick work starts after construction of foundation, column, beam, and slabs.
Following procedure is adopt to construct the brick masonry-
ii. Initially clean and wet the surface on which brick wall is be constructed.
iii. Set a straight alignment by using threads in both side of a wall .
iv. Prepare the cement mortar.
v. At this site cement sand ratio is 1:6 for all walls.
vi. Mortar is laid on surface base and then bricks are laid over it .
vii. Prepare a course and then again laid the mortar on existing course and provides bricks in such
a way that the vertical joint should not stand in a line.
viii. To break the verticality of joints generally English or Flemish bond is adopted.
ix. Use the plumb bob to check the verticality at regular interval.
x. Also use square to check the wall is constructing straight or not.
xi. After each 1meter height of wall provide a layer of reinforced cement concrete of 1.5 to 2
inches.
xii. It will increase the strength of structure.
21. 21
CHAPTER 6
PLASTER
The term plastering is used to describe thin cover that is applied on the surface of walls. It removes
unevenness of surface of walls. Sometimes it is use for decorative purpose also.
5.1Mortar for Plastering:
Selection of type of mortar depends on various factors such as suitability of building material,
atmospheric conditions, durability etc. there are mainly three type of mortar which can be used for
the purpose of mortar
i. Lime mortar
ii. Cement mortar
iii. Water proof mortar
6.1.1 Lime Mortar
The main content of lime mortar is lime that is mixed with correct proportion of sand. Generally fat
lime is recommended for plaster work because the fat lime contains 75% of Cao and it combines with
CO2 of atmosphere and gives CaCO3 quickly. Thus, the lime sets quickly, but it imparts low
strength. So it can be used only for plaster work. The sand to be used for preparing lime mortar for
plastering work should be clean, coarse and free from any organic impurities.
6.1.2 Cement Mortar
The cement mortar consists of one part of cement to four part of clean and coarse sand by volume.
The materials are thoroughly mix in dry condition before water is added to them. The mixing of
material is done on a watertight platform. It is better than lime mortar. It is widely used in
construction work.
22. 22
Fig 6.1 Plaster of cement mortar
6.1.3 Water Proof Mortar:
Water proof mortar is prepared by mixing one part of cement, two part of sand and pulverized alum
at the rate of 120Nperm3 of sand. In the water to be used, 0.75 of soft soap is dissolve per one liter of
water and this soap water is added to the dry mix.
6.2 Tools for Plastering
Gauging Trowel Metal Float Floating Rule
Plumb Bob Sprit Level Brushes
6.3 Method of Plastering:
According to the thickness of wall there are three method of plastering.
i. One coat method
ii. Two coat method
iii. Three coat method
6.3.1 One Coat Method
It is in the cheapest form of construction that plaster is applied in one coat.
23. 23
This method is quietly used in rural areas for the construction of low category and cheap house.
6.3.2 Two Coat Method:
Following procedure is carried out for two coating plaster work
Clean the surface and keep it well watered on which plaster work to be done.
If it is found that the surface to be plastered is very rough and uneven, a preliminary coat is applied to
fill up the hollows before the first coat of plaster is put up on the surface.
Now the first coat is applied on the surface. The usual thickness of first coat for brick masonry is
9mm to10mm.
Second coat of plaster is applied after about 6 hours and the thickness of second caot is usually about
2mm to 3mm.It is finished as per requirement.
6.3.3 Three Coat Method:
The procedure for plaster in three coats is the same as above except that the num of coats of plaster is
three.
Table:
Name of coat Thicknessa
First coat Rendering coat 9 to 10 mm
Second coat Floating coat 6 to 9 mm
Third coat Finishing coat 3 mm
24. 24
CHAPTER 7
EVALUATING MUNICIPAL WATER DISTRIBUTION SYSTEMS
7.1 Primary Considerations
This topic has two primary objectives: The first is to understand the evaluation of an installed
municipal water supply delivery system by identifying all the physical components of any specific
water distribution system. The same basic concepts and principles apply to small community water
systems and large city water systems. For a basic understanding of these concepts, two illustrations
are provided that include a relatively small water distribution system and a medium size water
distribution system. These concepts will cover 92 percent of all the water supply systems in the
United States. While there are similarities to all water systems, it should be recognized that the
likelihood of two water systems being exactly alike in physical features is remote because the raw
water sources in relation to the water delivery demands can hardly be the same.
The second objective is to provide recognized practices for conducting water supply tests at
prescribed intervals to measure the water system delivery capability and ensure that the system is
meeting the water supply demand. An important part of this second objective is to use the results of
water supply tests to monitor the performance of the water delivery system in relation to the existing
water supply and the constant changes in demand on the water system. The following material will
illustrate the broad features of water supply systems in order to understand how this can be
accomplished. Chapter 2 presents a basic understanding of hydraulic fundamentals needed to
accomplish water supply testing and evaluation accurately, and Chapter 3 presents water supply
system evaluation methods for determining existing water supplies for consumer consumption and
especially for fire protection
7.2 Functional Components of a Water Utility System
A water utility system can be relatively simple for a community of 3,000 to 5,000. At this level of
population, communities often are served by wells. The well water is treated typically by chlorination
and then either pumped directly into water distribution mains to supply customers or pumped into
ground-level or elevated storage tanks where the water flows by gravity on demand to each customer
on the water system. Some fire hydrants may be located on the distribution system to provide a
25. 25
minimum fire flow capability in the range of 250 gallons per minute (gpm) to 500 gpm. Figure 7-
1illustrates an actual example of a community that has these characteristics.
Fig 7.1 Water Utility System
As the population served in the illustration of a small community increases, so does the complexity of
the water delivery system. Figure7-2depicts the functional components expected to be in place in
communities with populations ranging from 25,000 to 50,000. This is fairly typical of what one needs
to understand in evaluating water supply systems to assure that rates of water can be delivered
through the distribution system to simultaneously meet consumer consumption demands and meet
Needed Fire Flow (NFF) criteria for structural fire suppression. Therefore, before specifically
26. 26
examining and tracing the water system component diagramed in Figure 7-2, it is essential that each
component be evaluated in relationship to the capability of the water delivery system, plus the
function of selected components of the water system to meet the needed domestic and fire protection
demands on the system. This needs to be assessed for each and every water system as a function of
rates of water usage. Three historical or predicted water demand rates are involved in the discussion
of consumer demand and fire protection:
Average daily demand–the average of the total amount of water used each day during a 1-year
(designed) period.
Maximum daily demand–the maximum total amount of water used during any 24-hour period. The
Insurance Services Office. Inc. (ISO) bases this calculation on the highest demand during the
previous 3 years from the years of an ISO Grading Schedule evaluation. Note: This number should
consider and exclude any unusual and excessive uses of water that would affect the calculation i.e., a
broken water main.
Maximum hourly demand–the maximum amount of water used in any single hour of any day in a
3-year period. It normally is expressed in gallons per day by multiplying the actual peak hour by 24.
Fig 7.2 Maximum hourly demand
27. 27
When specific data on past consumption levels are not available, a good rule of thumb is that
maximum daily demand may vary from 1.5 to 3.0 times the average daily demand, while the peak
hourly rate may vary from 2 to 8 times the average daily rate. In small water systems, peaking factors
may vary significantly higher.
Design flow and analysis should be based on the maximum hourly demand or the maximum daily
demand plus the fire flow requirement, whichever is greater. This distribution system should be
designed to maintain a minimum pressure of 20 pounds per square inch (psi) at all water taps
including fire hydrant locations under all conditions of design flow.
[This is a recommended practice of the American Water Works Association (AWWA) Manual of
Water Supplies Practices–M-31 and M-17 along with criteria published by the ISO in accordance
with Grading Schedule evaluations.]
In order to account for system demands, chart recorders should be in place at every separate location
where purified water enters the distribution system, including finished water holding basins, direct
pumping facilities, finished water standpipe tanks, and finished water gravity tanks. This is the only
reasonably accurate way to monitor water system demand on an hourly, or less frequent, time period,
24 hours a day, 365 days a year. This is a key consideration in matching water system demand to
water system availability.
7.3Tracing the Components of an Urban Water Distribution System
The following information is presented in the context of Figure 7-2.
1. Raw water source shown in the upper left of the drawing marked.
The water source may be a lake, a river, a reservoir, a well field, or, more recently, salt water sources
which can be purified through new techniques in water filtration and reverse osmosis. The Tampa,
Florida, municipal water system now has the capability of producing 60 percent of the city’s water
demand using salt water. The AWWA recommended guideline on raw water capability is that the
supply source(s) have a sufficient capacity at all time to meet maximum daily demand for a
continuous period of 5 days. (Reference 1, pg. 12) This is demonstrated on the drawing by a raw
water storage pond marked 2.
28. 28
Water Department action needed: A depth gauge is needed on each raw water source. A hydrologist
or geologist needs to asses the gallons of water in storage at gauge level. There typically is not an
equal drop or increase as water is drawn off or is supplemented by rain and runoff, due to the slope of
the container sides and the slope of the bottom of the holding basin. This monitoring needs to be done
daily if a diminishing supply is observed, to predict long-term supply conditions.
2. Typical raw water pumping facility marked
In the case of the illustrated water system, the pumping facility has a dual purpose. First it can pump
the raw water, which is filtered by trash racks (coarse screws) and other finer screening, if necessary,
to the treatment facility where the water is processed to meet Environment Protection Agency (EPA)
criteria and even more rigid requirements for water treatment in several States through State health
departments. Second, there needs to be the capability to transfer water to and from the raw water
storage facility. This builds reliability into the water system. Constant-recording flow meters are
needed on each of the pumps in this facility to assess how and when water is being transported
through facility and the rate of water in gpm.
Water Department action needed: The secondary raw water storage facility is important for retaining
a reserve supply of water in case of a major pipe failure on the distribution piping, or if the main
source of water become depleted due to drought conditions or contamination of the primary supply.
3. The treatment facility marked.
Chapter 7 covers the basic of water supply treatment and the sampling of water required to meet EPA
criteria. There is a need to know the maximum water processing rate and the length of time that water
can be processed at this rate, because this could limit water delivery to the distribution piping system.
Process flow rates need to be monitored on a continuous timeline, which also will account for the
downtime in the treatment plant to flush and clean equipment.
Note in the illustration that a finished waterfacility is provided on the delivery side of the treatment
plant; this is commonly called a clear well. In gravity feed systems, water flows from the clear well(s)
into the distribution piping, or it is pumped where the land surface is relatively level. Water levels in
the clear well(s) needed to be monitored closely on a daily basis with data recorded hour.
29. 29
4. A high service pumping station marked.
Note that this pumping station is located on the water distribution delivery side of the water treatment
plant. High-level service pumps may be needed to:
a. Pump water up to service areas that have higher elevations than other areas of a community.
b. Fill gravity tanks that float on the water supply distribution system.
c. When service pumping stations are used to distribute water, and no water storage is provided, the
pumps force water directly into the water mains. From a water system evaluation perspective, there is
no outlet for the water except as it furnishes consumer consumption for actual fire flows. Variable
speed pumps or multiple pumps may be required to provide adequate water delivery service because
of fluctuating demands. The efficiency and expense of this pumping equipment needs to be
considered carefully. For example, it is a disadvantage that the peak power demand of the water plant
is likely to occur during periods of high electrical consumption, and thus increase power costs.
Furthermore, systems with little or no storage should be provided with standby electrical generating
capability or pumps driven directly by internal combustion engines. These standby generators and
engines needs to be tested routinely (e.g., several hours per week).
5. A gravity storage facility marked.
An extremely important element in a water distribution system is water storage. (Reference #3, pg.
12) System storage facilities have a far-reaching effect on a system’s ability to provide adequate
consumer consumption during periods of high demand while meeting fire protection requirements.
The two common storage methods are ground-level storage and elevated storage. The finished water
storage at number 4 on Figure 1-2 is an example of ground-level storage; this type of storage also
may be contained in covered tanks. Emphasis is put on elevated storage as a stand-alone in Chapter 7
of this Manual.
7. Water entering the distribution system marked.
There are two basic types of pipe layout for delivering water to consumer taps and to supply water to
individual fire hydrants. The preferred method is to loop the entire service area with a primary feeder
main; the size is determined by hydraulic analysis. Interior to the ring main are cross-connected
secondary feeders provided along the major streets in the community. Interior water mains that
essentially provide water to residential areas are cross-connected to the secondary feeders. The
30. 30
advantages of this type of pipe system layout are two fold: 1) the water to every service location or
demand point is supplied from two directions, which is considered to be the most efficient hydraulic
design to minimize pipe sizes; and 2) in the event that a pipe section is out of service for cleaning,
breakage from an accident, tapping for service extension, or whatever reason, water can be supplied
to any demand point from a different travel path. In older community water systems single primary
feeder supplies secondary feeders and distributor pipes along block fronts in a branched layout
configuration where at any demand point water is supplied from one direction only. This arrangement
decreases the reliability of a water system significantly and has a tendency to decrease fire flow
capability for larger scale fires. The capability of water main systems for meeting fire flow criteria
can be determined only by semiannual fire flow tests as presented below.
7.4Evaluating Distribution System Appurtenances
1. Piping and valve arrangement.
A piping system serving the consumers in a small community is illustrated in Figure 7-3. The primary
feeders, sometimes called arterial mains, form the skeleton of the distribution system. They are
located so that large quantities of water can be carried from the pumping plant to and from the
storage tanks and the distribution system.
Primary feeders should be arranged in several interlocking loops, with the mains not more than 3,000
feet apart. Looping allows continuous service as previously identified through the rest of the primary
mains, even when one portion is shut down temporarily for repairs. Under normal conditions, looping
also allows supply from two directions for large fire flows. Large feeders and long feeders should be
equipped with blow-off valvesat low points and air relief valvesat high points. Valves should be
placed so that a pipe break will affect water service onlyin the immediate area of the break.
The secondary feeders carry large quantities of water from the primary feeders to points in the system
in order to provide for normal domestic consumption supply and fire suppression. They form smaller
loops within the loops of the primary mains by running from one primary feeder to another.
Secondary feeders should be spaced only about three blocks apart, or a maximum of 1,500 feet. This
spacing allows concentration of large amounts of water for firefighting without excessive head loss
and resulting low pressure.
31. 31
Small distribution mains (i.e., distributors) are to form a grid over the area to be served. They supply
water to residential taps and fire hydrants along residential block fronts throughout areas with this
occupancy classification. In no case should the pipe size be less than 6 inches in diameter. Larger size
pipes may be needed in residential areas for multiple occupancy buildings. In this case, pipe sizing is
based on the sum of the peak day water use plus fire-flow requirements. Where there are multiple-
occupancy buildings of more than one floor, required pipe sizing is almost always controlled by the
fire-flow requirement.
Water distribution piping should be sized and spaced to meet design flow. The minimum size water
main for providing fire protection and serving fire hydrants is 6 inches in diameter. Typical values for
distribution system piping are summarized in Table 1-2.
All areas served by a water distribution system should have fire hydrants installed in locations and
with spacing for fire department use. The following method of locating fire hydrants should be
observed in the United States. This method is outlined in Section 614 of the the ISO Fire Suppression
Rating Schedule–2003 edition. (Reference #9, pg. 12) [Sidebar: Canada uses an area method.]
Briefly summarized, the procedure examines a representative fire-risk location and a computed NFF
at that location. The first determination is that a recognized fire hydrant be within 1,000 feet of the
fire risk, as fire hose is laid from the fire hydrant to the fire risk. A recognized fire hydrant on a
municipal water system must flow a minimum of 250 gpm at 20 psi residual pressure for 2 hours.
The actual flow capability from each fire hydrant in the vicinity of the fire risk is limited by the
distance to the fire risk as follows: (Reference #9, pg. 12)
Credit is awarded up to 1,000 gpm from each hydrant within 300 feet of the fire-risk building; 670
gpm from hydrants within 301 to 600 feet of the fire-risk building; and 250 gpm from hydrants within
601 to 1,000 feet of the fire-risk building.
Furthermore, the water utility should review hydrant spacing or representative fire risks in the
community with the responsible first-due fire company because the supply hose capacity on fire
apparatus may limit the credit assigned by ISO to this item in the Fire Suppression Rating Schedule.
The pipe connecting the fire hydrant to the water main is call the hydrant branch or lateral. Every
lateral needs to have an installed valve to enable the water utility to isolate the fire hydrant for repair
or general maintenance.
32. 32
In addition, fire department use typically requires a maximum lineal distance between fire hydrants
along street fronts in commercial and congested built-up areas of 300 feet, and 600 feet for light
single-family residential areas. Good practice calls for fire hydrants at intersections, in the middle of
a block where the NFF equals or exceeds 1,200 gpm, and at the end of dead-end streets
7.5Summary Statement on Water Supply Distribution
Water supply distribution systems are rather straightforward to evaluate in small communities with a
population range up 5,000. The proper evaluation of water supplies and distribution for larger
communities, up to cities over 100,000 population, is no simple thing. Water system maps that are
kept current and electronic graph records for all of the water supply that enters the distribution system
are essential to establish an understanding of actual supply versus consumption on an hourly basis,
daily basis, monthly basis, and yearly basis. If this information is not in place, the first step to the
evaluation of a water system is to put in place a records management system, and then to pay close
attention to this system. The water utility has the responsibility to keep public officials, especially fire
officials, apprised of the current conditions of the water system. This topic paints the big picturefor
developing and maintaining a comprehensive evaluation of a water system.
33. 33
CHAPTER 8
RAIN WATER HARVESTING SYSTEM
8.1 Rainwater Harvesting
Rainwater harvesting is a technology used to collect, convey and store rain for later use from
relatively clean surfaces such as a roof, land surface or rock catchment. The water is generally stored
in a rainwater tank or directed to recharge groundwater. Rainwater infiltration is another aspect of
rainwater harvesting playing an important role in storm water management and in the replenishment
of the groundwater levels. Rainwater harvesting has been practiced for over 4,000 years throughout
the world, acticed for over 4,000 years throughout the world, traditionally in arid and semi-arid areas,
and has provided drinking water, domestic water and water for livestock and small irrigation. Today,
rainwater harvesting has gained much on significance as a modern, water-saving and simple
technology.
The practice of collecting rainwater from rainfall events can be classified into two broad categories:
land-based and roof-based. Land-based rainwater harvesting occurs when runoff from land surfaces is
collected in furrow dikes, ponds, tanks and reservoirs. Roof-based rainwater harvesting refers to
collecting rainwater runoff from roof surfaces which usually provides a much cleaner source of water
that can be also used for drinking.
Fig.8.1 Small-scale rainwater harvesting systems and uses
34. 34
Rooftop rainwater harvesting at the household level is most commonly used for domestic purposes. It
is popular as a household option as the water source is close
to people and thus requires a minimum of energy to collect it. An added advantage is that users own,
maintain and control their system without the need to rely on other community members.
8.2 Requirement rainwater harvesting
In many regions of the world, clean drinking water is not always available and this is only possible
with tremendous investment costs and expenditure. Rainwater is a free source and relatively clean
and with proper treatment it can be even used as a potable water source. Rainwater harvesting saves
high-quality drinking water sources and relieves the pressure on sewers and the environment by
mitigating floods, soil erosions and replenishing groundwater levels. In addition, rainwater harvesting
reduces the potable water consumption and consequently, the volume of generated wastewater.
Application areas
Rainwater harvesting systems can be installed in both new and existing buildings and harvested
rainwater used for different applications that do not require drinking water quality such as toilet
flushing, garden watering, irrigation, cleaning and laundry washing. Harvested rainwater is also used
in many parts of the world as a drinking water source. As rainwater is very soft there is also less
consumption of washing and cleaning powder. With rainwater harvesting, the savings in potable
water could amount up to 50% of the total household consumption.
8.3Criteria for selection of rainwater harvesting technologies
Several factors should be considered when selecting rainwater harvesting systems for domestic use:
i. type and size of catchment area
ii. local rainfall data and weather patterns
iii. family size
iv. length of the drought period
v. alternative water sources
vi. cost of the rainwater harvesting system.
When rainwater harvesting is mainly considered for irrigation, several factors should be taken into
consideration. These include:
35. 35
i. rainfall amounts, intensities, and evapo-transpiration rates
ii. soil infiltration rate, water holding capacity, fertility and depth of soil
iii. crop characteristics such as water requirement and length of growing period
iv. hydrogeology of the site
v. socio-economic factors such as population density, labour, costs of materials and regulations
governing water resources use.
8.4Components of a rooftop rainwater harvesting system
Although rainwater can be harvested from many surfaces, rooftop harvesting systems are most
commonly used as the quality of harvested rainwater is usually clean following proper installation
and maintenance. The effective roof area and the material used in constructing the roof largely
influence the efficiency of collection and the water quality.
Rainwater harvesting systems generally consist of four basic elements:
i. A collection (catchment) area
ii. A conveyance system consisting of pipes and gutters
iii. A storage facility, and
iv. A delivery system consisting of a tap or pump.
Fig. 8.2: A schematic diagram of a rooftop rainwater harvesting system.
36. 36
(1) A collection or catchment system is generally a simple structure such as roofs and/or gutters that
direct rainwater into the storage facility. Roofs are ideal as catchment areas as they easily collect
large volumes of rainwater.
The amount and quality of rainwater collected from a catchment area depends upon the rain intensity,
roof surface area, type of roofing material and the surrounding environment. Roofs should be
constructed of chemically inert materials such as wood, plastic, aluminium, or fibreglass. Roofing
materials that are well suited include slates, clay tiles and concrete tiles. Galvanised corrugated iron
and thatched roofs made from palm leaves are also suitable. Generally, unpainted and uncoated
surface areas are most suitable. If paint is used, it should be non-toxic (no lead-based paints).
(2) A conveyance system is required to transfer the rainwater from the roof catchment area to the
storage system by connecting roof drains (drain pipes) and piping from the roof top to one or more
downspouts that transport the rainwater
through a filter system to the storage tanks. Materials suitable for the pipework include polyethylene
(PE), polypropylene (PP) or stainless steel.
Before water is stored in a storage tank or cistern, and prior to use, it should be filtered to remove
particles and debris. The choice of the filtering system depends on the construction conditions. Low-
maintenance filters with a good filter output and high water flow should be preferred. “First flush”
systems which filter out the first rain and diverts it away from the storage tank should be also
installed. This will remove the contaminants in rainwater which are highest in the first rain shower.
(3) Storage tank or cistern to store harvested rainwater for use when needed. Depending on the
space available these tanks can be constructed above grade, partly underground, or below grade. They
may be constructed as part of the building, or may be built as a separate unit located some distance
away from the building.
The storage tank should be also constructed of an inert material such as reinforced concrete,
ferrocement (reinforced steel and concrete), fibreglass, polyethylene, or stainless steel, or they could
be made of wood, metal, or earth. The choice of material depends on local availability and
37. 37
affordability. Various types can be used including cylindrical ferrocement tanks, mortar jars (large jar
shaped vessels constructed from wire reinforced mortar) and single and battery (interconnected)
tanks. Polyethylene tanks are the most common and easiest to clean and connect to the piping system.
Storage tanks must be opaque to inhibit algal growth and should be located near to the supply and
demand points to reduce the distance water is conveyed.
Water flow into the storage tank or cistern is also decisive for the quality of the cistern water. Calm
rainwater inlet will prevent the stirring up of the sediment. Upon leaving the cistern, the stored water
is extracted from the cleanest part of the tank, just below the surface of the water, using a floating
extraction filter. A sloping overflow trap is necessary to drain away any floating matter and to protect
from sewer gases. Storage tanks should be also kept closed to prevent the entry of insects and other
animals.
(4) Delivery system which delivers rainwater and it usually includes a small pump, a pressure tank
and a tap, if delivery by means of simple gravity on site is not feasible.
Disinfection of the harvested rainwater, which includes filtration and/or ozone or UV disinfection, is
necessary if rainwater is to be used as a potable water source.
8.5Designing a rainwater harvesting system
For the design of a rainwater harvesting system, rainfall data is required preferably for a period of at
least 10 years. The more reliable and specific the data is for the location, the better the design will be.
Data for a given area can be obtained at the meteorological departments, agricultural and
hydrological research centres and airports.
One simple method of determining the required storage volume, and consequently the size of the
storage tank, is shown below:
With an estimated water consumption of 20 l/c*d, which is the commonly accepted minimum, the
water demand will be = 20 x n x 365 l/year, where n=number of people in the household. If there are
five people in the household then the annual water demand is 36,500 litres or about 3,000 l/month.
For a dry period of four months, the required minimum storage capacity would be about 12,000 litres.
As rainwater supply depends on the annual rainfall, roof surface and the runoff coefficient, the
amount of rainwater that can be collected = rainfall (mm/year) x area (m2) x runoff coefficient.
38. 38
As an example: a metal sheet roof of 80 m2 with 800 mm rainfall/year will yield = 80 x 800 x 0.8 =
51,200 l/year.
Figure 3 demonstrates the cumulative roof runoff (m3) over a one-year period and the cumulative
water demand (m3). The greatest distance between these two lines gives the required storage volume
(m3) to minimise the loss of rainwater.
Fig. 3: Graphical method to determine the required storage volume for a rainwater cistern
8.7 Types of rainwater use
Rainwater systems can be classified according to their reliability, yielding four types of user regimes:
• Occasional - water is stored for only a few days in a small container. This is suitable when there is a
uniform rainfall pattern with very few days without rain and when a reliable alternative water source
is available.
• Intermittent - in situations with one long rainy season when all water demands are met by rainwater.
During the dry season, water is collected from other sources.
• Partial - rainwater is used throughout the year but the 'harvest' is not sufficient for all domestic
demands. For example, rainwater is used for drinking and cooking, while for other domestic uses
(e.g. bathing and laundry) water from other sources is used.
• Full - for the whole year, all water for all domestic purposes comes from rainwater. In such cases,
there is usually no alternative water source other than rainwater, and the available water should be
well managed, with enough storage to bridge the dry period.
39. 39
Which of the user regimes to be followed depends on many variables including rainfall quantity and
pattern, available surface area and storage capacity, daily consumption rate, number of users, cost and
affordability, and the presence of alternative water sources.
8.7Benefits of rainwater harvesting
Rainwater harvesting in urban and rural areas offers several benefits including provision of
supplemental water, increasing soil moisture levels for urban greenery, increasing the groundwater
table via artificial recharge, mitigating urban flooding and improving the quality of groundwater. In
homes and buildings, collected rainwater can be used for irrigation, toilet flushing and laundry. With
proper filtration and treatment, harvested rainwater can also be used for showering, bathing, or
drinking. The major benefits of rainwater harvesting are summarised below:
i. rainwater is a relatively clean and free source of water
ii. rainwater harvesting provides a source of water at the point where it is needed
iii. it is owner-operated and managed
iv. it is socially acceptable and environmentally responsible
v. it promotes self-sufficiency and conserves water resources
vi. rainwater is friendly to landscape plants and gardens
vii. it reduces stormwater runoff and non-point source pollution
viii. it uses simple, flexible technologies that are easy to maintain
ix. offers potential cost savings especially with rising water costs
x. provides safe water for human consumption after proper treatment
xi. low running costs
xii. construction, operation and maintenance are not labour-intensive.
Disadvantages
The main disadvantages of rainwater harvesting technologies are the limited supply and uncertainty
of rainfall. Rainwater is not a reliable water source in times of dry periods or prolonged drought.
Other disadvantages include:
i. lowstorage capacitywhichwill limit rainwater harvesting, whereas, increasing the storage capacity
will add to the construction and operating costs making the technology less economically feasible
40. 40
ii. possible contaminationof the rainwaterwith animal wastes and organic matter which may result in
health risks if rainwater is not treated prior to consumption as a drinking water source
iii. leakage from cisterns can cause the deterioration of load-bearing slopes
iv. cisterns and storage tanks can be unsafe for small children if proper access protection is not
provided.
Maintenance
Maintenance is generally limited to the annual cleaning of the tank and regular inspection and
cleaning of gutters and down-pipes. Maintenance typically consists of the removal of dirt, leaves and
other accumulated material. Cleaning should take place annually before the start of the major rainfall
season. Filters in the inlet should be inspected every about three months. Cracks in storage tanks can
create major problems and should be repaired immediately.
Costs
The associated costs of a rainwater harvesting system are for installation, operation and maintenance.
Of the costs for installation, the storage tank represents the largest investment which can vary
between 30 and 45% of the total cost of the system dependent on system size. A pump, a pressure
controller and fittings in addition to plumber’s labour represent other major costs of the investment.
In general, a rainwater harvesting system designed as an integrated element of a new construction
project is more cost-effective than retrofitting a system. This can be explained by the fact that many
of the shared costs (such as for roofs and gutters) can be designed to optimise system performance
and the investment can be spread over time.
8.8Rainwater quality standards
The quality of rainwater used for domestic supply is of vital importance because, in most cases, it is
used for drinking. Rainwater does not always meet drinking water standards especially with respect
to bacteriological water quality. However, just because water quality does not meet some arbitrary
national or international standards, it does not automatically mean that the water is harmful to drink.
Compared with most unprotected traditional water resources, drinking rainwater from well-
maintained roof catchments is usually safe, even if it is untreated. The official policy of the
Australian Government towards the question “Is rainwater safe to drink?” is as follows: “Providing
41. 41
the rainwater is clear, has little taste or smell and is from a well-maintained system, it is probably safe
and unlikely to cause any illness for most users”. For immuno-compromised persons, however, it is
recommended that rainwater is disinfected through boiling prior to consumption.
Drinking water from rainwater
In many countries of the world where water resources are not available at a sufficient quality fit for
human consumption, rainwater acts as a substitute for drinking water and other domestic uses. In
some remote islands around the globe, rainwater may even act as the major potable water source for
their population.
The most important issue in collecting rainwater is keeping it free of dirt such as leaves, bird
droppings and dead animals, and avoiding contamination with pollutants like heavy metals and dust.
Rainwater can be also treated for use as a potable water source. The use of slow sand filtration has
proved to be a simple and effective treatment technology for the elimination of most of the organic
and inorganic pollutants that may be present in rainwater, as well as producing a virtually pathogen-
free water for drinking.
42. 42
CONCLUSION
As per my training report I have conclude that , during 45 days. I am familiar with the construction
of brick masonry & plastering and study of water distribution & rain water harvesting system under
a Center Public Work Department project. Brick masonry is provided to transfer the load of structure
to foundation. All though maximum load of building comes on columns and beams. Plaster is
necessary to cover and protect the masonry from weathering factor. It is a layer of cement mortar of
thickness is 1 to 1.5 inches. The basic knowledge of rainwater harvesting system also important for
future water saving planning. I am very thankful to all those people who help me to get knowledge of
brick masonry and plastering & RWHS.
43. 43
Chapter 10
Learning and outcome
1. Learning how to work in professional environment.
2. Learning the technology
3. Punctuality,time evaluation,priority deciding
4. Helped in developing knowledege about the technology
5. Overcoming hurdles and meeting hurdles
6. Implementation of theoritical knowledge in practical.
7. I built my knowledge about the Building construction .