SlideShare a Scribd company logo

Irrigation engineering

ā€¢
ā€¢
J
JustChilling2

Important topics of Irrigation Engineering : 1. METHOD OF IRRIGATION 2. METHOD OF IRRIGATION SYSTEM 3. CROP GROWING IN GUJARAT 4. DIVERTION HEAD WORKS 5. CANAL REGULATION WORKS 6. CANAL FALLS,CANAL ESCAPE, CANAL OUTLETS 7. DAMS IN INDIA 8. MAJAOR DAMS OF GUJARAT

Engineering
1 of 36
Download to read offline
INDEX 1. METHOD OF IRRIGATION 2. METHOD OF IRRIGATION SYSTEM 3. CROP GROWING IN GUJARAT 4. DIVERTION HEAD WORKS 5. CANAL REGULATION WORKS 6. CANAL FALLS,CANAL ESCAPE, CANAL OUTLETS 7. DAMS IN INDIA 8. MAJAOR DAMS OF GUJARAT
METHOD OF IRRIGATION There are different types of irrigation practised for improving crop yield. These types of irrigation systems are practised based on the different types of soils, climates, crops and resources. The main types of irrigation followed by farmers include:
Surface Irrigation: In this system, no irrigation pump is involved. Here, water is distributed across the land by gravity. 1. Flooding method 2. Furrow method 3. Contour farming 1) Flooding method : Flooding method of irrigation is in use since centuries. Flooding method consists in applying the water by flooding the land of rather smooth and flat topography. In modern irrigation practice several flooding methods have been developed. In free flooding method water is applied to the land from field ditches without any check or guidance to the flow. The method is very clear from fig.
This method is very useful for newly established farms where making furrows, etc., is very costly. This method is cheap and can be successfully used where water supply is in plenty. This method is also well suited for the fields with very irregular surface which makes adoption of other methods difficult. Disadvantage of this method is, as there is no perfect control over the flow of water it is difficult to attain high efficiency. Sometimes the flow of water over the soil is too rapid to fulfil soil moisture deficiency. On the other hand sometimes water is retained on the field for a very long time and consequently the water is lost in infiltration or deep percolation. This method should be adopted only when other flooding methods are impossible.
2)Furrow method: Furrow irrigation is a method of laying out the water channels in such a way where gravity plays the role of providing just enough water for suitable plants to grow. It is usually made by the planned placement of ridges and furrows. It is a kind of surface irrigation system. A ridge is the part of the layout of the field that is elevated at different angles based on the type of soil. This is actually where the plants are planted. The furrows are the troughs that let the water flow through it.
3) Contour farming : Farming is one of the oldest and sustainable human activities. As societies evolved from simple to sophisticated lifestyles, human beings began to till land and farm in order to produce their own food. As time passed, man discovered different ways of tilling and farming on different landscapes, including slopes that are notorious for soil erosion. Some of the methods used to date include windbreaks, planting cover crops, planting grass on waterways, and contour cultivation among others. Contour cultivation is a sustainable way of farming where farmers plant crops across or perpendicular to slopes to follow the contours of a slope of a field. This arrangement of plants breaks up the flow of water and makes it harder for soil erosion to occur.
Sub surface irrigation : Subsurface irrigation uses a network of polyethylene pipes located just under the ground's surface to apply disinfected effluent in the root zone of plants, preventing airborne drift and minimising runoff. Note that effluent that has not been disinfected, such as from septic tanks and most wet composting toilets, must be disposed of below the soil (at least 300 millimetres deep). Subsurface irrigation requires less maintenance than surface irrigation, and there is also less chance of surface saturation and effluent runoff. By reducing the chance of human contact, it also significantly reduces the public health risks.
Sprinkler irrigation : In this method an attempt is made to simulate natural rainfall. Irrigation water is applied to the land in the form of a spray. This method is also known as sprinkler irrigation , Sprinklers can be used on all soil types of any topography. According to the equipment and procedure used the sprinkler method may fall in fixed type or portable type.
Drip irrigation : It is a latest advancement over other methods. The name of the method itself implies water saving. In this method irrigation water is conveyed on the surface in 12 to 16 mm diameter tubingā€™s fed from large feeder pipes. The water is allowed to drip or trickle slowly through the nozzle or orifices at practically zero pressure. In this way the soil in the root-zone of crops is constantly kept wet. In Drip system, water supply is done drop by drop exactly at roots using a hose or pipe. This method can also be used in regions where water availability is less.
METHOD OF IRRIGATION SYSTEM There are many different types of irrigation systems, depending on how the water is distributed throughout the field. Some common types of irrigation systems include: Surface irrigation Water is distributed over and across land by gravity, no mechanical pump involved. Localized irrigation Water is distributed under low pressure, through a piped network and applied to each plant. Drip irrigation A type of localized irrigation in which drops of water are delivered at or near the root of plants. In this type of irrigation, evaporation and runoff are minimized. Sprinkler irrigation Water is distributed by overhead high-pressure sprinklers or guns from a central location in the field or from sprinklers on moving platforms.
Center pivot irrigation Water is distributed by a system of sprinklers that move on wheeled towers in a circular pattern. This system is common in flat areas of the United States. Lateral move irrigation Water is distributed through a series of pipes, each with a wheel and a set of sprinklers, which are rotated either by hand or with a purpose-built mechanism. The sprinklers move a certain distance across the field and then need to have the water hose reconnected for the next distance. This system tends to be less expensive but requires more labor than others. Sub-irrigation Water is distributed across land by raising the water table, through a system of pumping stations, canals, gates, and ditches. This type of irrigation is most effective in areas with high water tables. Manual irrigation Water is distributed across land through manual labor and watering cans. This system is very labor intensive.
CROP GROWING IN GUJARAT Gujarat is a state in western India. It has an area of 19.6 million hectare with a coastline of 1,600 km, most of which lies on the Kathiawar peninsula, and a population in excess of 60 million. The state registered 12.8% agricultural growth in the last five years against the national average of 2%. Gujarat recorded highest decadal agricultural growth rate of 10.97% among all the Indian states. The three main sources of growth in Gujarat's agriculture are from cotton production, the rapid growth of high-value crops such as fruits and vegetables, and from wheat production, which saw an annual average growth rate of 28% between 2000 and 2008. Table illustrates the current area, productivity and production statistics of major crops in Gujarat.
Other major produce includes rice, wheat, maize, pearl millet, groundnut, cotton, mustard, sesame, pigeon pea, green gram, sugarcane, mango, banana, sapota, lime, guava, tomato, potato, onion, cumin, garlic, isabgul and fennel. Latest Crop Production Statistics of Gujarat-2012-13 Area ('000 ha); Production ('000 tonnes); Productivity (kg/ha); # Production and Productivity in 1000 bales of 180 kg each
DIVERTION HEAD WORKS An irrigation canal takes its supplies from a river or a stream. In order to divert water from the river into canal it is necessary to construct certain worksor structures across the river and at the head of the off taking canal. These works are known as Diversion headworks Components of diversion headworks The various components of diversion headworks are as follows: 1. Weir or Barrage 2. Divide wall or divide groyne 3. Fish ladder 4. Undersluices or scouring sluices 5. Silt excluder 6. Canal head regulator 7. River training works such as Marginal bunds and Guide bunds
1. Weir : A weir is a structure constructed across a river to raise its water level and divert the eater into the canal. On the crest of the weirs usually shutters are provided so that part of the raising up of water is carried out by shutters. During floods the shutters may be dropped down to allow water to flow over the crest of the weir. Weir is usually aligned at right angles to the direction of flow of the river. Weirs may be classified according to the material of construction and certain design features into the following three types. ā€¢ Masonry weirs with vertical drop ā€¢ Rockfill weirs with sloping aprons. ā€¢ Concrete weirs with a downstream glacis
2.Divide wall or divide groyne : A divide wall is a long masonry or concrete wall or groyne (an embankment protected on all sides by stone or concrete blocks) which is constructed at right angles to the axis of the weir to separate the undersluices from the rest of the weir. If two canals take off, one on either side of the river, then two divide walls are required, one on each side. The top width of the divide wall is about 1.5 to 2.5m. The divide wall extends on the upstream side up to a distance little beyond the beginning of the canal head regulator and on the downstream side up to the end of the loose protection.
3.Fish ladder & Diversion headworks : Large rivers have various types of fish, many of which are migratory. They move from one part of the river to another according to the season. In our country generally fish move from upstream to downstream in the beginning of winter in search of warmth and return upstream before monsoon for clearer water. Due to the construction of a weir or barrage across the river such migration of the fish will be obstructed and if no arrangement is made in the weir or barrage for this migration, large scale destruction of the fish life may take place in the river.Thus to enable the fish to migrate fish ladder is provided. Since most fish can travel upstream only if the velocity of flow does not exceed 3 to 3.5 m/s,
4.Undersluices or Scouring sluices: The undersluices are the openings provided in the weir wall with their crest at a low level. These openings are fully controlled by gates. They are located on the same side as the off taking canal. If two canals take off, one on either side of the river, then it would be necessary to provide undersluices on either side of the canal.
5.Silt excluder : Silt excluders are a type of silt control device which functions to exclude silt from water to entering the canal. These devices are particularly provided on the river bed in front of the head regulator. A silt excluder usually consists of a number of rectangular tunnels resting on the floor of the undersluice pocket. The bottom portion of the tunnels is formed by the floor of undersluice pocket. The top level portion of the roof of tunnel is kept same as the level of the crest or sill of the head regulator. The tunnels are constructed with variable lengths. The tunnel nearest to the crest is of same length as the length of the head regulator. But all other successive tunnels have a decreasing length.
6. Canal Head regulator : It is a structure constructed at the head of a canal from the upstream of the weir or barrage constructed. It consists of number of spans separated by piers which supports the gates provided for the regulation of water flow to the canal. The spans ranging from 6 to 8 m are used with counter balanced steel gates which are operated manually by winches. Also larger spans are used if necessary or the condition is economical.
8.Marginal bunds and guide banks : Marginal bunds or levees are the earthen embankments which are provided to confine the flood water from the river within an allowable cross-section and in between the embankments. Thus the spreading of flood water beyond these marginal bunds is prevented. The guide bunds are also a type of earthen embankments provided to confine the flood water of alluvial rivers within a reasonable length of waterway and provide a straight and non-tortuous approach towards the constructions works across the river. They are also used to prevent the river from changing its course and outflanking the construction work
CANAL REGULATION WORKS A canal obtains its share of water from the pool behind a barrage through a structure called the canal head regulator. The various regulation works are : ā€¢ Canal falls ā€¢ Cross regulator ā€¢ Distributary head regulator ā€¢ Canal eascapes ā€¢ Canal outlet
CANAL FALLS,CANAL ESCAPE, CANAL OUTLETS Canal falls: A canal has a designed longitudinal slope but has to pass through an undulating terrain. When a canal crosses an area that has a larger natural surface slope, a canal drop, also called fall in India, has to be provided suitably at certain intervals
Canal escapes : These are structures meant to release excess water from a canal, which could be main canal, branch canal, distributary, minors etc. Though usually an irrigation system suffers from deficit supply in later years of its life, situations that might suddenly lead to accumulation of excess water in a certain reach of a canal network may occur due to the following reasons ā€¢ Wrong operation of head works in trying to regulate flow in a long channel resulting in release of excess water than the total demand in the canal system downstream. ā€¢ Excessive rainfall in the command area leading to reduced demand and consequent closure of downstream gates. Escapes as also built at the tail end of minors at the far ends of a canal network. These are required to maintain the required full supply level at the tail end of the canal branch. The construction feature of escapes allows it to be classified in to two types, as described below.
1 Weir or surface escapes : These are constructed in the form of weirs, without any gate or shutter (Figure ) and spills over when the water level of the canal goes above its crest level 2 Sluice or surplus escapes : These are gated escapes with a very low crest height (Figure ). Hence, these sluices can empty the canal much below its full supply level and at a very fast rate. In some cases, these escapes act as scouring sluices to facilitate removal of sediment.
Canal Outlet : Outlets are the openings constructed in the banks of distributaries and minors. Field channel takes off from this point and gets irrigation water through outlet. It is also called turnout or sluice in some parts of India. The field channels below the outlets are maintained by the cultivators. Once the water comes out of the outlet irrigation department has no control over it. Further, in a canal system there are numerous outlets.
DAMS IN INDIA The major dams in India have helped the inhabitants in a number of ways like: 1. Providing adequate water for domestic, industry and irrigation purposes. 2. Hydroelectric power production and river navigation. 3. These major dams in India and their reservoirs provide recreation areas for fishing and boating. 4. They have helped in the reduction of floods.
The list of some major dams in India have been given below:
Tehri Dam The Tehri Dam is located in the state of Uttarakhand. It is the highest Dam in India with a height of 260.5 metres. It is also listed in the top ten highest dams in the world. This Dam is situated on the river Bhagirathi. ā€¢ Height of the Dam- 260.5 m ā€¢ Length of the Dam- 575 m ā€¢ Type of Dam- Rock fill ā€¢ The reservoir capacity- 21,00,000 acre feet ā€¢ Capacity that is installed- 1000 Megawatt
Bhakra Nangal Dam The Bhakra Nangal Dam is located in the state of Himachal Pradesh and Punjab. It is the largest dam in India having a height of 225 metres and also in the second position in the largest dams in all over Asia. It is situated on the river Sutlej. ā€¢ Height of the Dam- 226 m ā€¢ Length of the Dam- 520m ā€¢ Type of Dam- Concrete Gravity ā€¢ The reservoir capacity- 75,01,775 acre feet ā€¢ Capacity that is installed- 1325 Megawatt
Hirakud Dam The Hirakud Dam is located in the state of Orissa. It is the longest dam in India with a total length of 25.79 km. It is also in the list of the longest dams in the world. The Hirakud Dam is situated on the river Mahanadi. ā€¢ Height of the Dam- 61 m ā€¢ Length of the Dam- 4.8 km (Main Dam) ā€¢ Type of Dam- Composite Dam ā€¢ The reservoir capacity- 47,79,965 acre feet ā€¢ Capacity that is installed- 347.5 Megawatt
Nagarjuna Sagar Dam The Nagarjuna Sagar Dam is located in the state of Telangana. It is Indiaā€™s largest Masonry Dams built till date. It is the largest manmade lake in the world. It has 26 gates and is 1.55 km in length. It is situated on the river Krishna. ā€¢ Height of the Dam- 124m ā€¢ Length of the Dam- 4863 m (Total Lenght) ā€¢ Type of Dam- Masonry Dam ā€¢ The reservoir capacity- 93,71,845 acre feet ā€¢ Capacity that is installed- 816 Megawatt
MAJAOR DAMS OF GUJARAT Sardar Sarovar Dam The Sardar Sarovar Dam is located in the state of Gujarat. It is the largest dam in the Narmada Valley Project. This Dam is to benefit the other neighbouring states of Madhya Pradesh, Rajasthan and Maharashtra. It is situated on the river Narmada River. ā€¢ Height of the Dam- 163m ā€¢ Length of the Dam- 1210m ā€¢ Type of Dam- Gravity Dam ā€¢ The reservoir capacity- 77,00,000 acre-feet ā€¢ Capacity that is installed- 1450 Megawatt
Ukai Dam Ukai Dam is second largest dam in the state and has largest reservoir in Gujarat known as Vallabh Sagar. The Dam is constructed across the Tapti river in Surat district and has second largest storage capacity of other existing dams in Gujarat. ā€¢ Height ā€“ 80m ā€¢ River - Tapti
Kadana Dam ā€¢ Kadana Dam is a masonry with embankment dam on the Mahi river,situated in Panchmahal district. The dam was built for controlling the floods in the catchment area.
Kamleshwar Dam Kamleshwar Dam or Hiran I Dam is located inside the Gir Forest National Park on the Hiran River in Visavadar, Junagadh district. The Kamleshwar Dam is a rock-fill embankment dam and the reservoir is famous for crocodiles and birds. ā€¢ Height ā€“ 25 m ā€¢ River -Hiren

Recommended

Water requirement of crops and reservoir planing
Water requirement of crops and reservoir planingWater requirement of crops and reservoir planing
Water requirement of crops and reservoir planingDKTE'S YASHWANTRAO CHAVAN POLYTECHNIC, ICHALKARANJI
Ā 
minor and micro irrigation
minor and micro irrigation minor and micro irrigation
minor and micro irrigationDKTE'S YASHWANTRAO CHAVAN POLYTECHNIC, ICHALKARANJI
Ā 
Canal irrigation
Canal irrigationCanal irrigation
Canal irrigationHari ganesh CAPM
Ā 
Spillways
SpillwaysSpillways
SpillwaysMalla Reddy University
Ā 
Earthen Dams
Earthen DamsEarthen Dams
Earthen DamsGAURAV. H .TANDON
Ā 
Computation of irrigation efficiency
Computation of irrigation efficiencyComputation of irrigation efficiency
Computation of irrigation efficiencyMd Irfan Ansari
Ā 
Unit 2 Irrigation Methods
Unit 2 Irrigation MethodsUnit 2 Irrigation Methods
Unit 2 Irrigation MethodsLeema Margret A
Ā 
Spillway and its types
Spillway and its typesSpillway and its types
Spillway and its typesBilal Mirani
Ā 

Recommended

Water requirement of crops and reservoir planing
Water requirement of crops and reservoir planingWater requirement of crops and reservoir planing
Water requirement of crops and reservoir planingDKTE'S YASHWANTRAO CHAVAN POLYTECHNIC, ICHALKARANJI
Ā 
minor and micro irrigation
minor and micro irrigation minor and micro irrigation
minor and micro irrigationDKTE'S YASHWANTRAO CHAVAN POLYTECHNIC, ICHALKARANJI
Ā 
Canal irrigation
Canal irrigationCanal irrigation
Canal irrigationHari ganesh CAPM
Ā 
Spillways
SpillwaysSpillways
SpillwaysMalla Reddy University
Ā 
Earthen Dams
Earthen DamsEarthen Dams
Earthen DamsGAURAV. H .TANDON
Ā 
Computation of irrigation efficiency
Computation of irrigation efficiencyComputation of irrigation efficiency
Computation of irrigation efficiencyMd Irfan Ansari
Ā 
Unit 2 Irrigation Methods
Unit 2 Irrigation MethodsUnit 2 Irrigation Methods
Unit 2 Irrigation MethodsLeema Margret A
Ā 
Spillway and its types
Spillway and its typesSpillway and its types
Spillway and its typesBilal Mirani
Ā 
Unit 1 Crop Water Requirement
Unit 1 Crop Water RequirementUnit 1 Crop Water Requirement
Unit 1 Crop Water RequirementLeema Margret A
Ā 
Irrigation engineering m1
Irrigation engineering m1Irrigation engineering m1
Irrigation engineering m1Bibhabasu Mohanty
Ā 
Sinking of well foundation
Sinking of well foundationSinking of well foundation
Sinking of well foundationSourabh Jain
Ā 
Sewer appurtenances
Sewer appurtenances Sewer appurtenances
Sewer appurtenances SitalParajuli
Ā 
Unit 3 Diversion and Impounding Structures
Unit 3 Diversion and Impounding StructuresUnit 3 Diversion and Impounding Structures
Unit 3 Diversion and Impounding StructuresLeema Margret A
Ā 
RAIN WATER HARVESTING
RAIN WATER HARVESTINGRAIN WATER HARVESTING
RAIN WATER HARVESTINGNamitha M R
Ā 
7 routing
7 routing7 routing
7 routingZagazig University
Ā 
Diversion headworks
Diversion headworksDiversion headworks
Diversion headworksJimit Shah
Ā 
CANAL IRRIGATION
CANAL IRRIGATIONCANAL IRRIGATION
CANAL IRRIGATIONkannan1407
Ā 
Canal Irrigation
Canal IrrigationCanal Irrigation
Canal IrrigationPranamesh Chakraborty
Ā 
Irrigation
IrrigationIrrigation
IrrigationEr Shubhendu Singh
Ā 
Drought management and water harvesting m5
Drought management and water harvesting m5Drought management and water harvesting m5
Drought management and water harvesting m5Bibhabasu Mohanty
Ā 
Irrigation Channels
Irrigation ChannelsIrrigation Channels
Irrigation ChannelsGAURAV. H .TANDON
Ā 
Determination of co efficient of consolidation method
Determination of co efficient of consolidation methodDetermination of co efficient of consolidation method
Determination of co efficient of consolidation methodParth Joshi
Ā 
Open channel design
Open channel designOpen channel design
Open channel designMohsin Siddique
Ā 
Irrigation Engineering
Irrigation EngineeringIrrigation Engineering
Irrigation EngineeringGAURAV. H .TANDON
Ā 
Canal
CanalCanal
CanalDKTE'S YASHWANTRAO CHAVAN POLYTECHNIC, ICHALKARANJI
Ā 
Chapter 5 drop sturcutures
Chapter 5 drop sturcuturesChapter 5 drop sturcutures
Chapter 5 drop sturcuturesMohsin Siddique
Ā 
Tube wells and their design
Tube wells and their designTube wells and their design
Tube wells and their designMoudud Hasan
Ā 
LIFT IRRIGATION SYSTEM
LIFT IRRIGATION SYSTEMLIFT IRRIGATION SYSTEM
LIFT IRRIGATION SYSTEMAnup Kude
Ā 
Introduction about Irrigation BY SITARAM SAINI
Introduction about Irrigation BY SITARAM SAINIIntroduction about Irrigation BY SITARAM SAINI
Introduction about Irrigation BY SITARAM SAINISitaramSaini11
Ā 
Agr 241 prepared by sosanta paul
Agr 241 prepared by sosanta paulAgr 241 prepared by sosanta paul
Agr 241 prepared by sosanta paulansar ali
Ā 

More Related Content

What's hot

Unit 1 Crop Water Requirement
Unit 1 Crop Water RequirementUnit 1 Crop Water Requirement
Unit 1 Crop Water RequirementLeema Margret A
Ā 
Irrigation engineering m1
Irrigation engineering m1Irrigation engineering m1
Irrigation engineering m1Bibhabasu Mohanty
Ā 
Sinking of well foundation
Sinking of well foundationSinking of well foundation
Sinking of well foundationSourabh Jain
Ā 
Sewer appurtenances
Sewer appurtenances Sewer appurtenances
Sewer appurtenances SitalParajuli
Ā 
Unit 3 Diversion and Impounding Structures
Unit 3 Diversion and Impounding StructuresUnit 3 Diversion and Impounding Structures
Unit 3 Diversion and Impounding StructuresLeema Margret A
Ā 
RAIN WATER HARVESTING
RAIN WATER HARVESTINGRAIN WATER HARVESTING
RAIN WATER HARVESTINGNamitha M R
Ā 
Diversion headworks
Diversion headworksDiversion headworks
Diversion headworksJimit Shah
Ā 
CANAL IRRIGATION
CANAL IRRIGATIONCANAL IRRIGATION
CANAL IRRIGATIONkannan1407
Ā 
Drought management and water harvesting m5
Drought management and water harvesting m5Drought management and water harvesting m5
Drought management and water harvesting m5Bibhabasu Mohanty
Ā 
Determination of co efficient of consolidation method
Determination of co efficient of consolidation methodDetermination of co efficient of consolidation method
Determination of co efficient of consolidation methodParth Joshi
Ā 
Open channel design
Open channel designOpen channel design
Open channel designMohsin Siddique
Ā 
Irrigation Engineering
Irrigation EngineeringIrrigation Engineering
Irrigation EngineeringGAURAV. H .TANDON
Ā 
Chapter 5 drop sturcutures
Chapter 5 drop sturcuturesChapter 5 drop sturcutures
Chapter 5 drop sturcuturesMohsin Siddique
Ā 
Tube wells and their design
Tube wells and their designTube wells and their design
Tube wells and their designMoudud Hasan
Ā 
LIFT IRRIGATION SYSTEM
LIFT IRRIGATION SYSTEMLIFT IRRIGATION SYSTEM
LIFT IRRIGATION SYSTEMAnup Kude
Ā 

What's hot (20)

Unit 1 Crop Water Requirement
Unit 1 Crop Water RequirementUnit 1 Crop Water Requirement
Unit 1 Crop Water Requirement
Ā 
Irrigation engineering m1
Irrigation engineering m1Irrigation engineering m1
Irrigation engineering m1
Ā 
Sinking of well foundation
Sinking of well foundationSinking of well foundation
Sinking of well foundation
Ā 
Sewer appurtenances
Sewer appurtenances Sewer appurtenances
Sewer appurtenances
Ā 
Unit 3 Diversion and Impounding Structures
Unit 3 Diversion and Impounding StructuresUnit 3 Diversion and Impounding Structures
Unit 3 Diversion and Impounding Structures
Ā 
RAIN WATER HARVESTING
RAIN WATER HARVESTINGRAIN WATER HARVESTING
RAIN WATER HARVESTING
Ā 
7 routing
7 routing7 routing
7 routing
Ā 
Diversion headworks
Diversion headworksDiversion headworks
Diversion headworks
Ā 
CANAL IRRIGATION
CANAL IRRIGATIONCANAL IRRIGATION
CANAL IRRIGATION
Ā 
Canal Irrigation
Canal IrrigationCanal Irrigation
Canal Irrigation
Ā 
Irrigation
IrrigationIrrigation
Irrigation
Ā 
Drought management and water harvesting m5
Drought management and water harvesting m5Drought management and water harvesting m5
Drought management and water harvesting m5
Ā 
Irrigation Channels
Irrigation ChannelsIrrigation Channels
Irrigation Channels
Ā 
Determination of co efficient of consolidation method
Determination of co efficient of consolidation methodDetermination of co efficient of consolidation method
Determination of co efficient of consolidation method
Ā 
Open channel design
Open channel designOpen channel design
Open channel design
Ā 
Irrigation Engineering
Irrigation EngineeringIrrigation Engineering
Irrigation Engineering
Ā 
Canal
CanalCanal
Canal
Ā 
Chapter 5 drop sturcutures
Chapter 5 drop sturcuturesChapter 5 drop sturcutures
Chapter 5 drop sturcutures
Ā 
Tube wells and their design
Tube wells and their designTube wells and their design
Tube wells and their design
Ā 
LIFT IRRIGATION SYSTEM
LIFT IRRIGATION SYSTEMLIFT IRRIGATION SYSTEM
LIFT IRRIGATION SYSTEM
Ā 

Similar to Irrigation engineering

Introduction about Irrigation BY SITARAM SAINI
Introduction about Irrigation BY SITARAM SAINIIntroduction about Irrigation BY SITARAM SAINI
Introduction about Irrigation BY SITARAM SAINISitaramSaini11
Ā 
Agr 241 prepared by sosanta paul
Agr 241 prepared by sosanta paulAgr 241 prepared by sosanta paul
Agr 241 prepared by sosanta paulansar ali
Ā 
Traditional agriculture and its modernization questions by Ishita Agarwal
Traditional agriculture and its modernization questions by Ishita AgarwalTraditional agriculture and its modernization questions by Ishita Agarwal
Traditional agriculture and its modernization questions by Ishita AgarwalIshita Agarwal
Ā 
Chapter Four.pptx
Chapter Four.pptxChapter Four.pptx
Chapter Four.pptxManamnoBeza1
Ā 
WRE.pptx
WRE.pptxWRE.pptx
WRE.pptxbalejames1
Ā 
Irrigation methods
Irrigation methodsIrrigation methods
Irrigation methodsImran Samtia
Ā 
Methods of irrigation
Methods of irrigationMethods of irrigation
Methods of irrigationSuwash Acharya
Ā 
Definition and Types of IRRIGATION.pptx
Definition and Types of IRRIGATION.pptxDefinition and Types of IRRIGATION.pptx
Definition and Types of IRRIGATION.pptxVernaJoyEvangelio1
Ā 
Irrigation Management.pptx
Irrigation Management.pptxIrrigation Management.pptx
Irrigation Management.pptxSuggestionKhanal
Ā 
Introduction To Irrigation
Introduction To IrrigationIntroduction To Irrigation
Introduction To IrrigationVigneshIyer58
Ā 
Information About Water Irrigation
Information About Water IrrigationInformation About Water Irrigation
Information About Water Irrigationh3owatersystems
Ā 
Irrigation.pptx
Irrigation.pptxIrrigation.pptx
Irrigation.pptxNeeluSKumar1
Ā 
Research Inventy : International Journal of Engineering and Science
Research Inventy : International Journal of Engineering and ScienceResearch Inventy : International Journal of Engineering and Science
Research Inventy : International Journal of Engineering and Scienceinventy
Ā 
Ground water recharge & water logging
Ground water recharge & water loggingGround water recharge & water logging
Ground water recharge & water loggingNIKHIL PAKWANNE
Ā 
Ground water recharge & water logging by Nikhil Pakwanne
Ground water recharge & water logging by Nikhil PakwanneGround water recharge & water logging by Nikhil Pakwanne
Ground water recharge & water logging by Nikhil PakwanneNIKHIL PAKWANNE
Ā 
Irrigationengineeringm1 120625051631-phpapp01
Irrigationengineeringm1 120625051631-phpapp01Irrigationengineeringm1 120625051631-phpapp01
Irrigationengineeringm1 120625051631-phpapp01heyh0ik
Ā 
Irrigationengineeringm1 120625051631-phpapp01
Irrigationengineeringm1 120625051631-phpapp01Irrigationengineeringm1 120625051631-phpapp01
Irrigationengineeringm1 120625051631-phpapp01jdi8kj
Ā 
Irrigationengineeringm1 120625051631-phpapp01
Irrigationengineeringm1 120625051631-phpapp01Irrigationengineeringm1 120625051631-phpapp01
Irrigationengineeringm1 120625051631-phpapp01ehi9k
Ā 

Similar to Irrigation engineering (20)

Introduction about Irrigation BY SITARAM SAINI
Introduction about Irrigation BY SITARAM SAINIIntroduction about Irrigation BY SITARAM SAINI
Introduction about Irrigation BY SITARAM SAINI
Ā 
Agr 241 prepared by sosanta paul
Agr 241 prepared by sosanta paulAgr 241 prepared by sosanta paul
Agr 241 prepared by sosanta paul
Ā 
Agro 101, 7.ppt
Agro 101, 7.pptAgro 101, 7.ppt
Agro 101, 7.ppt
Ā 
Traditional agriculture and its modernization questions by Ishita Agarwal
Traditional agriculture and its modernization questions by Ishita AgarwalTraditional agriculture and its modernization questions by Ishita Agarwal
Traditional agriculture and its modernization questions by Ishita Agarwal
Ā 
Chapter Four.pptx
Chapter Four.pptxChapter Four.pptx
Chapter Four.pptx
Ā 
WRE.pptx
WRE.pptxWRE.pptx
WRE.pptx
Ā 
Irrigation methods
Irrigation methodsIrrigation methods
Irrigation methods
Ā 
Methods of irrigation
Methods of irrigationMethods of irrigation
Methods of irrigation
Ā 
Definition and Types of IRRIGATION.pptx
Definition and Types of IRRIGATION.pptxDefinition and Types of IRRIGATION.pptx
Definition and Types of IRRIGATION.pptx
Ā 
Irrigation Management.pptx
Irrigation Management.pptxIrrigation Management.pptx
Irrigation Management.pptx
Ā 
systems of irrigations
systems of irrigationssystems of irrigations
systems of irrigations
Ā 
Introduction To Irrigation
Introduction To IrrigationIntroduction To Irrigation
Introduction To Irrigation
Ā 
Information About Water Irrigation
Information About Water IrrigationInformation About Water Irrigation
Information About Water Irrigation
Ā 
Irrigation.pptx
Irrigation.pptxIrrigation.pptx
Irrigation.pptx
Ā 
Research Inventy : International Journal of Engineering and Science
Research Inventy : International Journal of Engineering and ScienceResearch Inventy : International Journal of Engineering and Science
Research Inventy : International Journal of Engineering and Science
Ā 
Ground water recharge & water logging
Ground water recharge & water loggingGround water recharge & water logging
Ground water recharge & water logging
Ā 
Ground water recharge & water logging by Nikhil Pakwanne
Ground water recharge & water logging by Nikhil PakwanneGround water recharge & water logging by Nikhil Pakwanne
Ground water recharge & water logging by Nikhil Pakwanne
Ā 
Irrigationengineeringm1 120625051631-phpapp01
Irrigationengineeringm1 120625051631-phpapp01Irrigationengineeringm1 120625051631-phpapp01
Irrigationengineeringm1 120625051631-phpapp01
Ā 
Irrigationengineeringm1 120625051631-phpapp01
Irrigationengineeringm1 120625051631-phpapp01Irrigationengineeringm1 120625051631-phpapp01
Irrigationengineeringm1 120625051631-phpapp01
Ā 
Irrigationengineeringm1 120625051631-phpapp01
Irrigationengineeringm1 120625051631-phpapp01Irrigationengineeringm1 120625051631-phpapp01
Irrigationengineeringm1 120625051631-phpapp01
Ā 

Recently uploaded

Introduction and different types of Ethernet.pptx
Introduction and different types of Ethernet.pptxIntroduction and different types of Ethernet.pptx
Introduction and different types of Ethernet.pptxupamatechverse
Ā 
GDSC ASEB Gen AI study jams presentation
GDSC ASEB Gen AI study jams presentationGDSC ASEB Gen AI study jams presentation
GDSC ASEB Gen AI study jams presentationGDSCAESB
Ā 
Model Call Girl in Narela Delhi reach out to us at šŸ”8264348440šŸ”
Model Call Girl in Narela Delhi reach out to us at šŸ”8264348440šŸ”Model Call Girl in Narela Delhi reach out to us at šŸ”8264348440šŸ”
Model Call Girl in Narela Delhi reach out to us at šŸ”8264348440šŸ”soniya singh
Ā 
SPICE PARK APR2024 ( 6,793 SPICE Models )
SPICE PARK APR2024 ( 6,793 SPICE Models )SPICE PARK APR2024 ( 6,793 SPICE Models )
SPICE PARK APR2024 ( 6,793 SPICE Models )Tsuyoshi Horigome
Ā 
College Call Girls Nashik Nehal 7001305949 Independent Escort Service Nashik
College Call Girls Nashik Nehal 7001305949 Independent Escort Service NashikCollege Call Girls Nashik Nehal 7001305949 Independent Escort Service Nashik
College Call Girls Nashik Nehal 7001305949 Independent Escort Service NashikCall Girls in Nagpur High Profile
Ā 
MANUFACTURING PROCESS-II UNIT-5 NC MACHINE TOOLS
MANUFACTURING PROCESS-II UNIT-5 NC MACHINE TOOLSMANUFACTURING PROCESS-II UNIT-5 NC MACHINE TOOLS
MANUFACTURING PROCESS-II UNIT-5 NC MACHINE TOOLSSIVASHANKAR N
Ā 
HARMONY IN THE NATURE AND EXISTENCE - Unit-IV
HARMONY IN THE NATURE AND EXISTENCE - Unit-IVHARMONY IN THE NATURE AND EXISTENCE - Unit-IV
HARMONY IN THE NATURE AND EXISTENCE - Unit-IVRajaP95
Ā 
Microscopic Analysis of Ceramic Materials.pptx
Microscopic Analysis of Ceramic Materials.pptxMicroscopic Analysis of Ceramic Materials.pptx
Microscopic Analysis of Ceramic Materials.pptxpurnimasatapathy1234
Ā 
Processing & Properties of Floor and Wall Tiles.pptx
Processing & Properties of Floor and Wall Tiles.pptxProcessing & Properties of Floor and Wall Tiles.pptx
Processing & Properties of Floor and Wall Tiles.pptxpranjaldaimarysona
Ā 
Call for Papers - African Journal of Biological Sciences, E-ISSN: 2663-2187, ...
Call for Papers - African Journal of Biological Sciences, E-ISSN: 2663-2187, ...Call for Papers - African Journal of Biological Sciences, E-ISSN: 2663-2187, ...
Call for Papers - African Journal of Biological Sciences, E-ISSN: 2663-2187, ...Christo Ananth
Ā 
VIP Call Girls Service Hitech City Hyderabad Call +91-8250192130
VIP Call Girls Service Hitech City Hyderabad Call +91-8250192130VIP Call Girls Service Hitech City Hyderabad Call +91-8250192130
VIP Call Girls Service Hitech City Hyderabad Call +91-8250192130Suhani Kapoor
Ā 
(SHREYA) Chakan Call Girls Just Call 7001035870 [ Cash on Delivery ] Pune Esc...
(SHREYA) Chakan Call Girls Just Call 7001035870 [ Cash on Delivery ] Pune Esc...(SHREYA) Chakan Call Girls Just Call 7001035870 [ Cash on Delivery ] Pune Esc...
(SHREYA) Chakan Call Girls Just Call 7001035870 [ Cash on Delivery ] Pune Esc...ranjana rawat
Ā 
DJARUM4D - SLOT GACOR ONLINE | SLOT DEMO ONLINE
DJARUM4D - SLOT GACOR ONLINE | SLOT DEMO ONLINEDJARUM4D - SLOT GACOR ONLINE | SLOT DEMO ONLINE
DJARUM4D - SLOT GACOR ONLINE | SLOT DEMO ONLINEslot gacor bisa pakai pulsa
Ā 
Call Girls Delhi {Jodhpur} 9711199012 high profile service
Call Girls Delhi {Jodhpur} 9711199012 high profile serviceCall Girls Delhi {Jodhpur} 9711199012 high profile service
Call Girls Delhi {Jodhpur} 9711199012 high profile servicerehmti665
Ā 
the ladakh protest in leh ladakh 2024 sonam wangchuk.pptx
the ladakh protest in leh ladakh 2024 sonam wangchuk.pptxthe ladakh protest in leh ladakh 2024 sonam wangchuk.pptx
the ladakh protest in leh ladakh 2024 sonam wangchuk.pptxhumanexperienceaaa
Ā 
Call Girls Service Nagpur Tanvi Call 7001035870 Meet With Nagpur Escorts
Call Girls Service Nagpur Tanvi Call 7001035870 Meet With Nagpur EscortsCall Girls Service Nagpur Tanvi Call 7001035870 Meet With Nagpur Escorts
Call Girls Service Nagpur Tanvi Call 7001035870 Meet With Nagpur EscortsCall Girls in Nagpur High Profile
Ā 
Sheet Pile Wall Design and Construction: A Practical Guide for Civil Engineer...
Sheet Pile Wall Design and Construction: A Practical Guide for Civil Engineer...Sheet Pile Wall Design and Construction: A Practical Guide for Civil Engineer...
Sheet Pile Wall Design and Construction: A Practical Guide for Civil Engineer...Dr.Costas Sachpazis
Ā 
The Most Attractive Pune Call Girls Budhwar Peth 8250192130 Will You Miss Thi...
The Most Attractive Pune Call Girls Budhwar Peth 8250192130 Will You Miss Thi...The Most Attractive Pune Call Girls Budhwar Peth 8250192130 Will You Miss Thi...
The Most Attractive Pune Call Girls Budhwar Peth 8250192130 Will You Miss Thi...ranjana rawat
Ā 

Recently uploaded (20)

Introduction and different types of Ethernet.pptx
Introduction and different types of Ethernet.pptxIntroduction and different types of Ethernet.pptx
Introduction and different types of Ethernet.pptx
Ā 
GDSC ASEB Gen AI study jams presentation
GDSC ASEB Gen AI study jams presentationGDSC ASEB Gen AI study jams presentation
GDSC ASEB Gen AI study jams presentation
Ā 
Model Call Girl in Narela Delhi reach out to us at šŸ”8264348440šŸ”
Model Call Girl in Narela Delhi reach out to us at šŸ”8264348440šŸ”Model Call Girl in Narela Delhi reach out to us at šŸ”8264348440šŸ”
Model Call Girl in Narela Delhi reach out to us at šŸ”8264348440šŸ”
Ā 
SPICE PARK APR2024 ( 6,793 SPICE Models )
SPICE PARK APR2024 ( 6,793 SPICE Models )SPICE PARK APR2024 ( 6,793 SPICE Models )
SPICE PARK APR2024 ( 6,793 SPICE Models )
Ā 
College Call Girls Nashik Nehal 7001305949 Independent Escort Service Nashik
College Call Girls Nashik Nehal 7001305949 Independent Escort Service NashikCollege Call Girls Nashik Nehal 7001305949 Independent Escort Service Nashik
College Call Girls Nashik Nehal 7001305949 Independent Escort Service Nashik
Ā 
MANUFACTURING PROCESS-II UNIT-5 NC MACHINE TOOLS
MANUFACTURING PROCESS-II UNIT-5 NC MACHINE TOOLSMANUFACTURING PROCESS-II UNIT-5 NC MACHINE TOOLS
MANUFACTURING PROCESS-II UNIT-5 NC MACHINE TOOLS
Ā 
HARMONY IN THE NATURE AND EXISTENCE - Unit-IV
HARMONY IN THE NATURE AND EXISTENCE - Unit-IVHARMONY IN THE NATURE AND EXISTENCE - Unit-IV
HARMONY IN THE NATURE AND EXISTENCE - Unit-IV
Ā 
9953056974 Call Girls In South Ex, Escorts (Delhi) NCR.pdf
9953056974 Call Girls In South Ex, Escorts (Delhi) NCR.pdf9953056974 Call Girls In South Ex, Escorts (Delhi) NCR.pdf
9953056974 Call Girls In South Ex, Escorts (Delhi) NCR.pdf
Ā 
Microscopic Analysis of Ceramic Materials.pptx
Microscopic Analysis of Ceramic Materials.pptxMicroscopic Analysis of Ceramic Materials.pptx
Microscopic Analysis of Ceramic Materials.pptx
Ā 
Processing & Properties of Floor and Wall Tiles.pptx
Processing & Properties of Floor and Wall Tiles.pptxProcessing & Properties of Floor and Wall Tiles.pptx
Processing & Properties of Floor and Wall Tiles.pptx
Ā 
Call for Papers - African Journal of Biological Sciences, E-ISSN: 2663-2187, ...
Call for Papers - African Journal of Biological Sciences, E-ISSN: 2663-2187, ...Call for Papers - African Journal of Biological Sciences, E-ISSN: 2663-2187, ...
Call for Papers - African Journal of Biological Sciences, E-ISSN: 2663-2187, ...
Ā 
ā˜… CALL US 9953330565 ( HOT Young Call Girls In Badarpur delhi NCR
ā˜… CALL US 9953330565 ( HOT Young Call Girls In Badarpur delhi NCRā˜… CALL US 9953330565 ( HOT Young Call Girls In Badarpur delhi NCR
ā˜… CALL US 9953330565 ( HOT Young Call Girls In Badarpur delhi NCR
Ā 
VIP Call Girls Service Hitech City Hyderabad Call +91-8250192130
VIP Call Girls Service Hitech City Hyderabad Call +91-8250192130VIP Call Girls Service Hitech City Hyderabad Call +91-8250192130
VIP Call Girls Service Hitech City Hyderabad Call +91-8250192130
Ā 
(SHREYA) Chakan Call Girls Just Call 7001035870 [ Cash on Delivery ] Pune Esc...
(SHREYA) Chakan Call Girls Just Call 7001035870 [ Cash on Delivery ] Pune Esc...(SHREYA) Chakan Call Girls Just Call 7001035870 [ Cash on Delivery ] Pune Esc...
(SHREYA) Chakan Call Girls Just Call 7001035870 [ Cash on Delivery ] Pune Esc...
Ā 
DJARUM4D - SLOT GACOR ONLINE | SLOT DEMO ONLINE
DJARUM4D - SLOT GACOR ONLINE | SLOT DEMO ONLINEDJARUM4D - SLOT GACOR ONLINE | SLOT DEMO ONLINE
DJARUM4D - SLOT GACOR ONLINE | SLOT DEMO ONLINE
Ā 
Call Girls Delhi {Jodhpur} 9711199012 high profile service
Call Girls Delhi {Jodhpur} 9711199012 high profile serviceCall Girls Delhi {Jodhpur} 9711199012 high profile service
Call Girls Delhi {Jodhpur} 9711199012 high profile service
Ā 
the ladakh protest in leh ladakh 2024 sonam wangchuk.pptx
the ladakh protest in leh ladakh 2024 sonam wangchuk.pptxthe ladakh protest in leh ladakh 2024 sonam wangchuk.pptx
the ladakh protest in leh ladakh 2024 sonam wangchuk.pptx
Ā 
Call Girls Service Nagpur Tanvi Call 7001035870 Meet With Nagpur Escorts
Call Girls Service Nagpur Tanvi Call 7001035870 Meet With Nagpur EscortsCall Girls Service Nagpur Tanvi Call 7001035870 Meet With Nagpur Escorts
Call Girls Service Nagpur Tanvi Call 7001035870 Meet With Nagpur Escorts
Ā 
Sheet Pile Wall Design and Construction: A Practical Guide for Civil Engineer...
Sheet Pile Wall Design and Construction: A Practical Guide for Civil Engineer...Sheet Pile Wall Design and Construction: A Practical Guide for Civil Engineer...
Sheet Pile Wall Design and Construction: A Practical Guide for Civil Engineer...
Ā 
The Most Attractive Pune Call Girls Budhwar Peth 8250192130 Will You Miss Thi...
The Most Attractive Pune Call Girls Budhwar Peth 8250192130 Will You Miss Thi...The Most Attractive Pune Call Girls Budhwar Peth 8250192130 Will You Miss Thi...
The Most Attractive Pune Call Girls Budhwar Peth 8250192130 Will You Miss Thi...
Ā 

Irrigation engineering

  • 1. INDEX 1. METHOD OF IRRIGATION 2. METHOD OF IRRIGATION SYSTEM 3. CROP GROWING IN GUJARAT 4. DIVERTION HEAD WORKS 5. CANAL REGULATION WORKS 6. CANAL FALLS,CANAL ESCAPE, CANAL OUTLETS 7. DAMS IN INDIA 8. MAJAOR DAMS OF GUJARAT
  • 2. METHOD OF IRRIGATION There are different types of irrigation practised for improving crop yield. These types of irrigation systems are practised based on the different types of soils, climates, crops and resources. The main types of irrigation followed by farmers include:
  • 3. Surface Irrigation: In this system, no irrigation pump is involved. Here, water is distributed across the land by gravity. 1. Flooding method 2. Furrow method 3. Contour farming 1) Flooding method : Flooding method of irrigation is in use since centuries. Flooding method consists in applying the water by flooding the land of rather smooth and flat topography. In modern irrigation practice several flooding methods have been developed. In free flooding method water is applied to the land from field ditches without any check or guidance to the flow. The method is very clear from fig.
  • 4. This method is very useful for newly established farms where making furrows, etc., is very costly. This method is cheap and can be successfully used where water supply is in plenty. This method is also well suited for the fields with very irregular surface which makes adoption of other methods difficult. Disadvantage of this method is, as there is no perfect control over the flow of water it is difficult to attain high efficiency. Sometimes the flow of water over the soil is too rapid to fulfil soil moisture deficiency. On the other hand sometimes water is retained on the field for a very long time and consequently the water is lost in infiltration or deep percolation. This method should be adopted only when other flooding methods are impossible.
  • 5. 2)Furrow method: Furrow irrigation is a method of laying out the water channels in such a way where gravity plays the role of providing just enough water for suitable plants to grow. It is usually made by the planned placement of ridges and furrows. It is a kind of surface irrigation system. A ridge is the part of the layout of the field that is elevated at different angles based on the type of soil. This is actually where the plants are planted. The furrows are the troughs that let the water flow through it.
  • 6. 3) Contour farming : Farming is one of the oldest and sustainable human activities. As societies evolved from simple to sophisticated lifestyles, human beings began to till land and farm in order to produce their own food. As time passed, man discovered different ways of tilling and farming on different landscapes, including slopes that are notorious for soil erosion. Some of the methods used to date include windbreaks, planting cover crops, planting grass on waterways, and contour cultivation among others. Contour cultivation is a sustainable way of farming where farmers plant crops across or perpendicular to slopes to follow the contours of a slope of a field. This arrangement of plants breaks up the flow of water and makes it harder for soil erosion to occur.
  • 7. Sub surface irrigation : Subsurface irrigation uses a network of polyethylene pipes located just under the ground's surface to apply disinfected effluent in the root zone of plants, preventing airborne drift and minimising runoff. Note that effluent that has not been disinfected, such as from septic tanks and most wet composting toilets, must be disposed of below the soil (at least 300 millimetres deep). Subsurface irrigation requires less maintenance than surface irrigation, and there is also less chance of surface saturation and effluent runoff. By reducing the chance of human contact, it also significantly reduces the public health risks.
  • 8. Sprinkler irrigation : In this method an attempt is made to simulate natural rainfall. Irrigation water is applied to the land in the form of a spray. This method is also known as sprinkler irrigation , Sprinklers can be used on all soil types of any topography. According to the equipment and procedure used the sprinkler method may fall in fixed type or portable type.
  • 9. Drip irrigation : It is a latest advancement over other methods. The name of the method itself implies water saving. In this method irrigation water is conveyed on the surface in 12 to 16 mm diameter tubingā€™s fed from large feeder pipes. The water is allowed to drip or trickle slowly through the nozzle or orifices at practically zero pressure. In this way the soil in the root-zone of crops is constantly kept wet. In Drip system, water supply is done drop by drop exactly at roots using a hose or pipe. This method can also be used in regions where water availability is less.
  • 10. METHOD OF IRRIGATION SYSTEM There are many different types of irrigation systems, depending on how the water is distributed throughout the field. Some common types of irrigation systems include: Surface irrigation Water is distributed over and across land by gravity, no mechanical pump involved. Localized irrigation Water is distributed under low pressure, through a piped network and applied to each plant. Drip irrigation A type of localized irrigation in which drops of water are delivered at or near the root of plants. In this type of irrigation, evaporation and runoff are minimized. Sprinkler irrigation Water is distributed by overhead high-pressure sprinklers or guns from a central location in the field or from sprinklers on moving platforms.
  • 11. Center pivot irrigation Water is distributed by a system of sprinklers that move on wheeled towers in a circular pattern. This system is common in flat areas of the United States. Lateral move irrigation Water is distributed through a series of pipes, each with a wheel and a set of sprinklers, which are rotated either by hand or with a purpose-built mechanism. The sprinklers move a certain distance across the field and then need to have the water hose reconnected for the next distance. This system tends to be less expensive but requires more labor than others. Sub-irrigation Water is distributed across land by raising the water table, through a system of pumping stations, canals, gates, and ditches. This type of irrigation is most effective in areas with high water tables. Manual irrigation Water is distributed across land through manual labor and watering cans. This system is very labor intensive.
  • 12. CROP GROWING IN GUJARAT Gujarat is a state in western India. It has an area of 19.6 million hectare with a coastline of 1,600 km, most of which lies on the Kathiawar peninsula, and a population in excess of 60 million. The state registered 12.8% agricultural growth in the last five years against the national average of 2%. Gujarat recorded highest decadal agricultural growth rate of 10.97% among all the Indian states. The three main sources of growth in Gujarat's agriculture are from cotton production, the rapid growth of high-value crops such as fruits and vegetables, and from wheat production, which saw an annual average growth rate of 28% between 2000 and 2008. Table illustrates the current area, productivity and production statistics of major crops in Gujarat.
  • 13. Other major produce includes rice, wheat, maize, pearl millet, groundnut, cotton, mustard, sesame, pigeon pea, green gram, sugarcane, mango, banana, sapota, lime, guava, tomato, potato, onion, cumin, garlic, isabgul and fennel. Latest Crop Production Statistics of Gujarat-2012-13 Area ('000 ha); Production ('000 tonnes); Productivity (kg/ha); # Production and Productivity in 1000 bales of 180 kg each
  • 14. DIVERTION HEAD WORKS An irrigation canal takes its supplies from a river or a stream. In order to divert water from the river into canal it is necessary to construct certain worksor structures across the river and at the head of the off taking canal. These works are known as Diversion headworks Components of diversion headworks The various components of diversion headworks are as follows: 1. Weir or Barrage 2. Divide wall or divide groyne 3. Fish ladder 4. Undersluices or scouring sluices 5. Silt excluder 6. Canal head regulator 7. River training works such as Marginal bunds and Guide bunds
  • 15. 1. Weir : A weir is a structure constructed across a river to raise its water level and divert the eater into the canal. On the crest of the weirs usually shutters are provided so that part of the raising up of water is carried out by shutters. During floods the shutters may be dropped down to allow water to flow over the crest of the weir. Weir is usually aligned at right angles to the direction of flow of the river. Weirs may be classified according to the material of construction and certain design features into the following three types. ā€¢ Masonry weirs with vertical drop ā€¢ Rockfill weirs with sloping aprons. ā€¢ Concrete weirs with a downstream glacis
  • 16. 2.Divide wall or divide groyne : A divide wall is a long masonry or concrete wall or groyne (an embankment protected on all sides by stone or concrete blocks) which is constructed at right angles to the axis of the weir to separate the undersluices from the rest of the weir. If two canals take off, one on either side of the river, then two divide walls are required, one on each side. The top width of the divide wall is about 1.5 to 2.5m. The divide wall extends on the upstream side up to a distance little beyond the beginning of the canal head regulator and on the downstream side up to the end of the loose protection.
  • 17. 3.Fish ladder & Diversion headworks : Large rivers have various types of fish, many of which are migratory. They move from one part of the river to another according to the season. In our country generally fish move from upstream to downstream in the beginning of winter in search of warmth and return upstream before monsoon for clearer water. Due to the construction of a weir or barrage across the river such migration of the fish will be obstructed and if no arrangement is made in the weir or barrage for this migration, large scale destruction of the fish life may take place in the river.Thus to enable the fish to migrate fish ladder is provided. Since most fish can travel upstream only if the velocity of flow does not exceed 3 to 3.5 m/s,
  • 18. 4.Undersluices or Scouring sluices: The undersluices are the openings provided in the weir wall with their crest at a low level. These openings are fully controlled by gates. They are located on the same side as the off taking canal. If two canals take off, one on either side of the river, then it would be necessary to provide undersluices on either side of the canal.
  • 19. 5.Silt excluder : Silt excluders are a type of silt control device which functions to exclude silt from water to entering the canal. These devices are particularly provided on the river bed in front of the head regulator. A silt excluder usually consists of a number of rectangular tunnels resting on the floor of the undersluice pocket. The bottom portion of the tunnels is formed by the floor of undersluice pocket. The top level portion of the roof of tunnel is kept same as the level of the crest or sill of the head regulator. The tunnels are constructed with variable lengths. The tunnel nearest to the crest is of same length as the length of the head regulator. But all other successive tunnels have a decreasing length.
  • 20. 6. Canal Head regulator : It is a structure constructed at the head of a canal from the upstream of the weir or barrage constructed. It consists of number of spans separated by piers which supports the gates provided for the regulation of water flow to the canal. The spans ranging from 6 to 8 m are used with counter balanced steel gates which are operated manually by winches. Also larger spans are used if necessary or the condition is economical.
  • 21. 8.Marginal bunds and guide banks : Marginal bunds or levees are the earthen embankments which are provided to confine the flood water from the river within an allowable cross-section and in between the embankments. Thus the spreading of flood water beyond these marginal bunds is prevented. The guide bunds are also a type of earthen embankments provided to confine the flood water of alluvial rivers within a reasonable length of waterway and provide a straight and non-tortuous approach towards the constructions works across the river. They are also used to prevent the river from changing its course and outflanking the construction work
  • 22. CANAL REGULATION WORKS A canal obtains its share of water from the pool behind a barrage through a structure called the canal head regulator. The various regulation works are : ā€¢ Canal falls ā€¢ Cross regulator ā€¢ Distributary head regulator ā€¢ Canal eascapes ā€¢ Canal outlet
  • 23. CANAL FALLS,CANAL ESCAPE, CANAL OUTLETS Canal falls: A canal has a designed longitudinal slope but has to pass through an undulating terrain. When a canal crosses an area that has a larger natural surface slope, a canal drop, also called fall in India, has to be provided suitably at certain intervals
  • 24. Canal escapes : These are structures meant to release excess water from a canal, which could be main canal, branch canal, distributary, minors etc. Though usually an irrigation system suffers from deficit supply in later years of its life, situations that might suddenly lead to accumulation of excess water in a certain reach of a canal network may occur due to the following reasons ā€¢ Wrong operation of head works in trying to regulate flow in a long channel resulting in release of excess water than the total demand in the canal system downstream. ā€¢ Excessive rainfall in the command area leading to reduced demand and consequent closure of downstream gates. Escapes as also built at the tail end of minors at the far ends of a canal network. These are required to maintain the required full supply level at the tail end of the canal branch. The construction feature of escapes allows it to be classified in to two types, as described below.
  • 25. 1 Weir or surface escapes : These are constructed in the form of weirs, without any gate or shutter (Figure ) and spills over when the water level of the canal goes above its crest level 2 Sluice or surplus escapes : These are gated escapes with a very low crest height (Figure ). Hence, these sluices can empty the canal much below its full supply level and at a very fast rate. In some cases, these escapes act as scouring sluices to facilitate removal of sediment.
  • 26. Canal Outlet : Outlets are the openings constructed in the banks of distributaries and minors. Field channel takes off from this point and gets irrigation water through outlet. It is also called turnout or sluice in some parts of India. The field channels below the outlets are maintained by the cultivators. Once the water comes out of the outlet irrigation department has no control over it. Further, in a canal system there are numerous outlets.
  • 27. DAMS IN INDIA The major dams in India have helped the inhabitants in a number of ways like: 1. Providing adequate water for domestic, industry and irrigation purposes. 2. Hydroelectric power production and river navigation. 3. These major dams in India and their reservoirs provide recreation areas for fishing and boating. 4. They have helped in the reduction of floods.
  • 28. The list of some major dams in India have been given below:
  • 29. Tehri Dam The Tehri Dam is located in the state of Uttarakhand. It is the highest Dam in India with a height of 260.5 metres. It is also listed in the top ten highest dams in the world. This Dam is situated on the river Bhagirathi. ā€¢ Height of the Dam- 260.5 m ā€¢ Length of the Dam- 575 m ā€¢ Type of Dam- Rock fill ā€¢ The reservoir capacity- 21,00,000 acre feet ā€¢ Capacity that is installed- 1000 Megawatt
  • 30. Bhakra Nangal Dam The Bhakra Nangal Dam is located in the state of Himachal Pradesh and Punjab. It is the largest dam in India having a height of 225 metres and also in the second position in the largest dams in all over Asia. It is situated on the river Sutlej. ā€¢ Height of the Dam- 226 m ā€¢ Length of the Dam- 520m ā€¢ Type of Dam- Concrete Gravity ā€¢ The reservoir capacity- 75,01,775 acre feet ā€¢ Capacity that is installed- 1325 Megawatt
  • 31. Hirakud Dam The Hirakud Dam is located in the state of Orissa. It is the longest dam in India with a total length of 25.79 km. It is also in the list of the longest dams in the world. The Hirakud Dam is situated on the river Mahanadi. ā€¢ Height of the Dam- 61 m ā€¢ Length of the Dam- 4.8 km (Main Dam) ā€¢ Type of Dam- Composite Dam ā€¢ The reservoir capacity- 47,79,965 acre feet ā€¢ Capacity that is installed- 347.5 Megawatt
  • 32. Nagarjuna Sagar Dam The Nagarjuna Sagar Dam is located in the state of Telangana. It is Indiaā€™s largest Masonry Dams built till date. It is the largest manmade lake in the world. It has 26 gates and is 1.55 km in length. It is situated on the river Krishna. ā€¢ Height of the Dam- 124m ā€¢ Length of the Dam- 4863 m (Total Lenght) ā€¢ Type of Dam- Masonry Dam ā€¢ The reservoir capacity- 93,71,845 acre feet ā€¢ Capacity that is installed- 816 Megawatt
  • 33. MAJAOR DAMS OF GUJARAT Sardar Sarovar Dam The Sardar Sarovar Dam is located in the state of Gujarat. It is the largest dam in the Narmada Valley Project. This Dam is to benefit the other neighbouring states of Madhya Pradesh, Rajasthan and Maharashtra. It is situated on the river Narmada River. ā€¢ Height of the Dam- 163m ā€¢ Length of the Dam- 1210m ā€¢ Type of Dam- Gravity Dam ā€¢ The reservoir capacity- 77,00,000 acre-feet ā€¢ Capacity that is installed- 1450 Megawatt
  • 34. Ukai Dam Ukai Dam is second largest dam in the state and has largest reservoir in Gujarat known as Vallabh Sagar. The Dam is constructed across the Tapti river in Surat district and has second largest storage capacity of other existing dams in Gujarat. ā€¢ Height ā€“ 80m ā€¢ River - Tapti
  • 35. Kadana Dam ā€¢ Kadana Dam is a masonry with embankment dam on the Mahi river,situated in Panchmahal district. The dam was built for controlling the floods in the catchment area.
  • 36. Kamleshwar Dam Kamleshwar Dam or Hiran I Dam is located inside the Gir Forest National Park on the Hiran River in Visavadar, Junagadh district. The Kamleshwar Dam is a rock-fill embankment dam and the reservoir is famous for crocodiles and birds. ā€¢ Height ā€“ 25 m ā€¢ River -Hiren