logging in or signing up RAIN WATER HARVESTING aSGuest132050 Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINT lite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: Embed: Flash iPad Dynamic Copy Does not support media & animations Automatically changes to Flash or non-Flash embed WordPress Embed Customize Embed URL: Copy Thumbnail: Copy The presentation is successfully added In Your Favorites. Views: 14170 Category: Entertainment License: All Rights Reserved Like it (1) Dislike it (0) Added: April 11, 2012 This Presentation is Public Favorites: 10 Presentation Description it should be Comments Posting comment... Premium member Presentation Transcript welcome: welcome A SEMINAR REPORT RAIN WATER HARVESTING ON MAHENDRA Kr. MEENA SUBMITTED BY RAIN WATER HARVESTING: RAIN WATER HARVESTING A NOBLE GOAL A COMMON RESPONSIBILITYWHAT IS RAIN WATER HARVESTING: WHAT IS RAIN WATER HARVESTING Rainwater harvesting is the accumulating and storing of rainwater for reuse before it reaches the aquifer. The principle of collecting and using precipitation from a catchments surface.WHY RAIN WATER HARVESTING :: WHY RAIN WATER HARVESTING : Surface water is inadequate to meet our demand and we have to depend on ground water. To arrest ground water decline and augment ground water table To beneficiate water quality in aquifers To conserve surface water runoff during monsoon To reduce soil erosion Due to rapid urbanization, infiltration of rain water into the sub-soil has decreased drastically and recharging of ground water has diminished.RAIN WATER PATTERN IN INDIA: RAIN WATER PATTERN IN INDIA Total annual rainfall in India: 400 million hectare-meters (area x height) India’s area: 329 million hectares If evenly spread, average height: 1.28m Actual distribution: Highly skewed area-wise Thar desert receives less than 200mm annually, while Cherrapunji receives 11,400mm But almost every part of India receives at least 100mm annually Key: even 100mm annual rainfall sufficient if harvested properly and where it fallsRAIN WATER HARVESTING TECHNIQUES :: RAIN WATER HARVESTING TECHNIQUES : Roof top rainwater harvesting. Surface runoff harvesting .ELEMENTS OF ROOFTOP RWH: ELEMENTS OF ROOFTOP RWH CATCHMENT COUNDITS FILTERS STORAGE FACILITYMETHODS OF ROOFTOP RWH: METHODS OF ROOFTOP RWH Storage of direct use Recharging ground water aquifer - Recharging dug wells - Recharging pits - Recharging tube wellSURFACE RUNOFF HARVESTING: SURFACE RUNOFF HARVESTING Harvesting of surface runoff and storage of the same into reservoirs such as water pans makes it available for use when required. In this method of collecting rainwater for irrigation, water flowing along the ground during the rains will be collected to a tank below the surface of the ground..TRADITIONAL RWH STRUCTURE: TRADITIONAL RWH STRUCTURE BAWODI: Traditional step wells are called vavadi in Gujarat, or baoris or bavadis in Rajasthan and northern India. They were secular structures from which everyone could draw water. Most of them are defunct today.JOHADS: JOHADS A johad is a crescent-shaped bund which is built across a sloping catchment to capture the surface water before it runs off. Water accumulating in the johad percolates in the soil to augment the groundwater. The groundwater then can be used when there is no rainfall.Kunds: Kunds Covered underground tank, developed primarily for tackling drinking water problems. Usually constructed with local materials or cement, kunds were more prevalent in regions where groundwater is saline. Before the onset of rains every year, meticulous care was taken to clean up the catchment of the kunds . Cattle grazing and entry with shoes into the catchment area of the kunds was strictly prohibited. The proximity of a kund to the house or village saved time and effort in searching for drinking water.USES OF RAINWATER HARVESTING: USES OF RAINWATER HARVESTING Domestic Use Agricultural Use Increase groundwater suppliesPOTENTIAL OF RWH: POTENTIAL OF RWH Impacts on downstream flows. Reduce soil erosion. Increase the crop production. Increase infiltration and groundwater recharge. Improve food & economic security.ADVANTAGE: ADVANTAGE It uses local construction materials and labor. Sources of energy are not needed to operate the systems. The owner/user can easily maintain the systems. The water is convenient and accessible; valuable time and effort are saved in collecting and/or hauling water. It provides a supply of water to meet future agricultural needs.RWH: A NOBLE GOAL: RWH: A NOBLE GOAL A COMMON RESPONSIBILITYPowerPoint Presentation: THANK YOU FOR ATTENTION You do not have the permission to view this presentation. In order to view it, please contact the author of the presentation.