The document discusses the historical background of rainwater harvesting as an ancient practice used worldwide to supplement water supply where drinking water is scarce. It then reviews related literature on how rainwater harvesting has been used at the community level for domestic and agricultural purposes. The literature highlights how policies and practices of rainwater harvesting have developed differently in various countries and regions.
Rainwater Harvesting for Multi Storied Apartments - Texas A&M Univseristy D7Z
The document discusses the historical background of rainwater harvesting as an ancient practice used worldwide to address water scarcity. It then reviews related literature on how rainwater harvesting has been used at the community level for domestic water supply and irrigation. The literature also examines how rainwater harvesting can help alleviate poverty and promote socioeconomic development.
Rainwater Harvesting Retrofit Strategies: A Guide for Apartment Owners D7Z
This document provides an overview of retrofit strategies that can be implemented by apartment owners and managers to conserve water usage. It discusses both indoor and outdoor retrofit options, identifying strategies with quick paybacks such as installing low-flow showerheads and faucet aerators, as well as strategies involving utility rebates and programs. Outdoor strategies discussed include reducing lawn areas, installing efficient irrigation systems, and using native plants that require less water. The document provides context on typical water usage in apartments and the potential savings from various retrofit measures.
OR: Portland: Downspout Disconnection Program - Putting Stormwater into Rain ...Sotirakou964
This document discusses downspout disconnection programs in multiple cities. It summarizes programs in Bremerton, Washington; Toronto, Canada; and Portland, Oregon. The Bremerton program educated residents about combined sewer overflows and facilitated separating private stormwater from sewers through site assessments, grants, and ordinances. Over 350 separations were completed, removing 260,000 gallons of stormwater annually. Toronto encourages disconnecting downspouts for free to reduce combined sewer overflows. Portland's program disconnects downspouts and redirects runoff onto lawns through incentives, volunteers, and contractors to reduce runoff and protect watersheds.
This document provides guidelines for rural builders on constructing basic water supply systems. It discusses various small-scale water projects that can be built through simple designs and construction methods, including subsurface dams, hand dug wells, rainwater catchment systems, and small earth dams. The document aims to improve the success and cost-effectiveness of rural water projects by promoting low-cost techniques over more complex engineered solutions. It also provides guidance on contracting, project planning, and operations and maintenance to help ensure projects function properly long-term.
Rainwater Tanks and Jars Construction Manual - Rainwater HarvestingSotirakou964
This document provides instructions for constructing cement rainwater jars and tanks. It discusses the materials needed, construction techniques, and installation of rainwater gutters. Rainwater collection is presented as a practical solution to water scarcity issues in rural and remote areas. The manual aims to promote rainwater harvesting at the household and community levels to improve access to safe water.
The Decision Support System for IWRM in the Citarum River BasinOswar Mungkasa
The document discusses the development of a decision support system (DSS) for integrated water resources management in the Citarum River Basin in Indonesia. The Citarum River Basin faces challenges of meeting the water needs of over 2.5 million inhabitants while allocating water for irrigation, hydropower, and other uses. The DSS being created will integrate hydrological, water allocation, and water quality models with spatial data and real-time sensor data. It is hoped that the DSS will help water managers more effectively operate the cascade reservoir system and allocate limited water resources.
National Sanitation Conference 2007. Indonesia Water and Sanitation Magazine....Oswar Mungkasa
This document provides a summary of the October 2007 issue of the magazine "Percik" which focuses on water supply, sanitation, and environmental issues in Indonesia. The main topics covered include:
1) Why a National Sanitation Conference is necessary to improve cooperation and commitment to sanitation development.
2) An interview with the Deputy for Infrastructure Development at Bappenas discussing the government's attention to sanitation issues.
3) Other articles on sanitation responsibilities, climate change, water network management, and lessons from water/latrine development projects.
The document describes a rainwater harvesting demonstration trailer created by University of Florida/IFAS Extension to educate homeowners and contractors about sustainable landscaping, smart irrigation, and rainwater harvesting. The self-contained trailer contains displays of rooftop water collection, rain barrels, cisterns, and irrigation systems. Surveys found that over 500 people who interacted with the trailer were interested in adopting water conservation practices. The trailer has traveled throughout Florida and other states to promote environmental stewardship.
Rainwater Harvesting for Multi Storied Apartments - Texas A&M Univseristy D7Z
The document discusses the historical background of rainwater harvesting as an ancient practice used worldwide to address water scarcity. It then reviews related literature on how rainwater harvesting has been used at the community level for domestic water supply and irrigation. The literature also examines how rainwater harvesting can help alleviate poverty and promote socioeconomic development.
Rainwater Harvesting Retrofit Strategies: A Guide for Apartment Owners D7Z
This document provides an overview of retrofit strategies that can be implemented by apartment owners and managers to conserve water usage. It discusses both indoor and outdoor retrofit options, identifying strategies with quick paybacks such as installing low-flow showerheads and faucet aerators, as well as strategies involving utility rebates and programs. Outdoor strategies discussed include reducing lawn areas, installing efficient irrigation systems, and using native plants that require less water. The document provides context on typical water usage in apartments and the potential savings from various retrofit measures.
OR: Portland: Downspout Disconnection Program - Putting Stormwater into Rain ...Sotirakou964
This document discusses downspout disconnection programs in multiple cities. It summarizes programs in Bremerton, Washington; Toronto, Canada; and Portland, Oregon. The Bremerton program educated residents about combined sewer overflows and facilitated separating private stormwater from sewers through site assessments, grants, and ordinances. Over 350 separations were completed, removing 260,000 gallons of stormwater annually. Toronto encourages disconnecting downspouts for free to reduce combined sewer overflows. Portland's program disconnects downspouts and redirects runoff onto lawns through incentives, volunteers, and contractors to reduce runoff and protect watersheds.
This document provides guidelines for rural builders on constructing basic water supply systems. It discusses various small-scale water projects that can be built through simple designs and construction methods, including subsurface dams, hand dug wells, rainwater catchment systems, and small earth dams. The document aims to improve the success and cost-effectiveness of rural water projects by promoting low-cost techniques over more complex engineered solutions. It also provides guidance on contracting, project planning, and operations and maintenance to help ensure projects function properly long-term.
Rainwater Tanks and Jars Construction Manual - Rainwater HarvestingSotirakou964
This document provides instructions for constructing cement rainwater jars and tanks. It discusses the materials needed, construction techniques, and installation of rainwater gutters. Rainwater collection is presented as a practical solution to water scarcity issues in rural and remote areas. The manual aims to promote rainwater harvesting at the household and community levels to improve access to safe water.
The Decision Support System for IWRM in the Citarum River BasinOswar Mungkasa
The document discusses the development of a decision support system (DSS) for integrated water resources management in the Citarum River Basin in Indonesia. The Citarum River Basin faces challenges of meeting the water needs of over 2.5 million inhabitants while allocating water for irrigation, hydropower, and other uses. The DSS being created will integrate hydrological, water allocation, and water quality models with spatial data and real-time sensor data. It is hoped that the DSS will help water managers more effectively operate the cascade reservoir system and allocate limited water resources.
National Sanitation Conference 2007. Indonesia Water and Sanitation Magazine....Oswar Mungkasa
This document provides a summary of the October 2007 issue of the magazine "Percik" which focuses on water supply, sanitation, and environmental issues in Indonesia. The main topics covered include:
1) Why a National Sanitation Conference is necessary to improve cooperation and commitment to sanitation development.
2) An interview with the Deputy for Infrastructure Development at Bappenas discussing the government's attention to sanitation issues.
3) Other articles on sanitation responsibilities, climate change, water network management, and lessons from water/latrine development projects.
The document describes a rainwater harvesting demonstration trailer created by University of Florida/IFAS Extension to educate homeowners and contractors about sustainable landscaping, smart irrigation, and rainwater harvesting. The self-contained trailer contains displays of rooftop water collection, rain barrels, cisterns, and irrigation systems. Surveys found that over 500 people who interacted with the trailer were interested in adopting water conservation practices. The trailer has traveled throughout Florida and other states to promote environmental stewardship.
Latest of the Ebsford Environmental newsletters, the aim of these is to provide industry and market specific information and advice for any of our clients or peers working on similar projects.
ENVIRONMENTAL IMPACT ASSESSMENT STUDIES OF THE
POLLUTED WATER AT PATANCHERU INDUSTRIAL
AREA, HYDERABAD, A.P., INDIA, 1999
PHD OF DR NAKKA SAI BHASKAR REDDY
This document is a dissertation submitted by Sandhi Priya to Doon University in partial fulfillment of the requirements for a Master of Science degree in Environmental Science specialized in Natural Resource Management. The dissertation investigates productivity variation in the Eastern Arabian Sea during the late Holocene and implications of climate change. Productivity refers to the production of organic matter by phytoplankton in the ocean. It is influenced by availability of nutrients and sunlight. Major factors limiting productivity include nutrients, sunlight, upwelling, turbulence, and grazing intensity. The dissertation will use proxies like calcium carbonate fluctuations, foraminifera, and radiolarians in ocean sediments to reconstruct past productivity variations and understand the impacts of climate change.
Water Works: capacity and communication for social change in peruvian municip...April Pojman
This thesis is an exploratory study of the role that Communication for Social Change principles play in World University Service of Canada's (WUSC) project to strengthen the capacity of Peruvian municipalities in the area of water and sanitation. The research took place in two case study locations, one urban and one rural, and was conducted through stakeholder workshops, semi-structured interviews, participant observation and a review of project documents. The findings describe the communication, collaboration and perceived changes in individual and organizational capacity that have taken place based on WUSC's work with municipal governments, water companies, water user groups, and end users. In doing so, the research reveals that WUSC carries out many effective communication and capacity development activities based on their long-term engagement with their counterparts and their "learning by doing" approach. However, they do not have overall strategies in either of these areas, which has resulted in the exclusion of some stakeholders and difficulty in monitoring and evaluating these areas which may hamper the overall long-term impact of the project. Based on these findings, the paper suggests how Communication for Social Change principles could be applied to help improve other capacity development projects of this type. While this study does not directly address debates about water privatization, it does offer reflections for improving the effectiveness of local level water management.
www.yapame.com
Testing The Validity Of Hydraulic Losses Described In The CIRIA Methodology F...Chiko Tembo
This document presents research testing the validity of hydraulic loss descriptions in the CIRIA guidance methodology against the Hydraulic Design Manual from the Texas Department of Transportation. The research involves hydraulic modelling of a culvert on the River Calder in Todmorden, UK during recent flood events. Model inputs like culvert geometry and roughness coefficients are extracted from the two guidance documents and compared. Preliminary results found that the CIRIA methodology does not overestimate losses as hypothesized, and may outperform the Texas methodology. The full research aims to improve representation of culvert inlet losses in UK hydraulic modelling.
Texas water development board the manual texas on rainwater harvertingPlan Huerta
This chapter discusses the basic components of a rainwater harvesting system, including the catchment surface, gutters and downspouts, leaf screens, first-flush diverters, roof washers, storage tanks, pressure tanks and pumps, and treatment equipment. It focuses on residential or small-scale commercial systems for irrigation and potable water uses. The local health department and building codes should be consulted for system design and construction requirements.
The document discusses AECOM's water management expertise and services. AECOM has over 100 years of experience in planning, designing, and managing water systems. They provide comprehensive solutions for wastewater treatment, drinking water systems, water resources management, community infrastructure, and water design-build projects. AECOM works to develop sustainable solutions to help clients address water issues around the world.
Deltares capabilities & international projectsMarcel Bruggers
This document provides an overview of Deltares, a Dutch independent institute focused on water, soil, and subsurface issues. It describes Deltares' capabilities including its 800+ employees and various research facilities for studies related to coastal safety, flood risk management, river management, water quality, and software projects. The document also briefly mentions some of Deltares' international projects providing consulting services to countries around the world.
This document summarizes the experiences of several recipients of the South Asian Water Fellowship from partner universities in Bangladesh, India, Nepal, and Sri Lanka. It describes how the fellowship helped the students gain interdisciplinary knowledge and skills in water resource management. It provides short profiles of individual fellows, highlighting how the courses transformed their perspectives and expanded their career opportunities in the water sector. The fellowship opened doors for further education and professional growth for the students.
Rain Water Harvesting and Geostatistical Modelling of Ground Water in and aro...DHIRENDRA PRATAP SINGH
Application of Geostatistics for Ground water for estimating the fluctuation of ground water between pre and post monsoon. However Geostatistics can be applied in various field of geology to estimate the most accurate results with minimum deviations as as geostatistics has some best estimator techniques to apply on the field.
This document provides a project report on rainwater harvesting. It includes an abstract that discusses India's increasing population and the need for alternative water sources like rainwater harvesting. It also includes chapters on the components of a rainwater harvesting system, studies carried out globally and in India on rainwater harvesting, collecting rainfall and other data for the project site in Jaipur, designing first flush systems, analyzing the hydrology, methods for storing harvested rainwater in tanks, different tank designs, and the costs and conclusions of the project. The project aims to design and implement a rainwater harvesting system for buildings at Vivekananda Institute of Technology campus in Jaipur, Rajasthan to help address water scarcity issues.
The document discusses the increasing threat of natural disasters like floods due to climate change and the need for disaster resilient architecture. It notes that India is highly vulnerable to floods and has faced some of the worst flooding in recent years. The document argues for the need to develop architectural solutions that allow communities in flood prone areas to safely coexist with water through the use of local, affordable materials and designs.
Identification of Pollution Sources & Water Quality Analysis of Dhanmondi & H...Tariq Mehmood
Pollution Sources of Dhanmondi & Hatirjheel lake were identified. Water samples were taken based on the pollution sources, samples were taken on monthly basis during rainy as well as dry season. Water samples were tested in lab based on various parameter. BOD, COD, pH, Color, Turbidity, DO Phosphate, nitrate and various other tests were performed and results of both lakes were compared.
After the successful completion of all the tests over the period of year results showed that Hatirjheel is much more polluted than Dhanmondi lake.
This document presents a design project for a reverse osmosis water purification system for Tatu City located in Kiambu County, Kenya. The system aims to purify water from an existing borehole to make it suitable for domestic consumption for the city's residents.
The borehole water is hard water and unsuitable for direct use. Various water purification methods were considered and reverse osmosis was selected as it is an economical method for large-scale purification. Membrane elements will be selected based on required permeate flow and raw water characteristics. The design will be modeled using ROSA software.
The proposed system aims to supply an average of 280.84m3/day of purified water to meet the
This document summarizes a newsletter from the PSPD program at Pratt Institute. It discusses several waterfront planning projects led by PSPD faculty and students that focused on creating inclusive, diverse public spaces:
1) A project in Honolulu aimed to make the waterfront accessible to all ages, incomes, and ethnicities through features like a cultural gathering space, educational facilities on cultural history, and a market featuring local farmers.
2) In Cleveland, the goal was to unite the city's neighborhoods through a shared waterfront vision with flexible spaces for different cultures to share food, music and performances.
3) In Yonkers, engaging the diverse community to propose 10 destinations for the waterfront helped
This document summarizes a newsletter from the PSPD program at Pratt Institute. It discusses several waterfront planning projects led by PSPD faculty and students that focused on creating inclusive, diverse public spaces:
1) A project in Honolulu aimed to create a community cultural gathering place on the waterfront that celebrates the diverse cultures of the local community.
2) A project in Cleveland developed a vision for the downtown lakefront with flexible public spaces where residents of the diverse neighborhoods could interact and different cultures could share their traditions.
3) A project in Yonkers used the "Power of Ten" approach of identifying 10 destinations along the waterfront tailored to serve the broadly diverse local population.
The article discusses the latest R&D trends in desalination membrane technologies. It highlights the use of nanomaterials like graphene and carbon nanotubes which improve membrane performance and energy efficiency. Other innovations discussed include sulfonated graphene oxide composite membranes and centrifugal reverse osmosis. Overall the article provides an overview of new materials and designs that aim to advance membrane desalination technologies.
This dissertation examines the effects of population growth, climate change, and increased water reuse on water supply and demand in Utah through 2060. The author creates a model of the current water sources, uses, losses and destinations in the Utah Lake and Jordan River basins. Various future scenarios are analyzed, including the impacts of continued growth trends, climate change, failed conservation efforts, protecting agriculture, additional water imports, and increased wastewater recycling. The results indicate that current policies should maintain a supply-demand balance through 2060 if goals are met. However, this relies on a decline in agriculture. The author discusses policy options like continued conservation, protecting agriculture, trading energy for water imports, and wastewater recycling to maintain balance beyond
This thesis examines the role of geomatics technologies in improving water utility management in northern Jordan. A pilot study was conducted in Al-Mughayyer village to validate spatial data collected by the Northern Governorate Water Administration (NGWA) and identify areas for improvement. Data collection methods included GPS surveying, aerial photogrammetry, and digitizing of existing maps. The data was processed, modeled in a geodatabase using ArcGIS Water Utility data model, and analyzed to develop recommendations for enhancing water network data quality and management. Geomatics technologies were found to be effective tools for building an accurate geospatial framework to support improved water resource planning and operations.
This thesis assesses the spate irrigation potential of the Hargeti River watershed in Ethiopia. It was conducted by Ferid Hussen Harun for a Master's degree in irrigation and drainage engineering from Arba Minch University. The thesis involved analyzing climate, soil, land use, and crop data to model the hydrology of the watershed using the HEC-HMS model. The results will help evaluate suitable land areas for irrigated agriculture using spate irrigation from flood flows in the river. The overall aim is to improve water resource management and irrigation development in the watershed.
This thesis examines approaches to identify small impoundments in Kansas reservoir drainages using digital elevation models (DEMs) derived from LiDAR data. Chapter 2 applies two elevation-based methods to identify additional impoundments beyond those in the National Hydrography Dataset and finds they produce more accurate surface area geometries. Chapter 3 delineates catchment areas for small impoundments within nine eastern Kansas reservoir drainages and compares erosion-related traits between impoundment catchments and direct runoff areas. The distribution and size of impoundments, as well as average catchment size, may influence downstream reservoir sediment yields. This research demonstrates methods for improving water body inventories using LiDAR data and provides insight into the role
This document provides a project report on designing a rainwater harvesting system for Lingaya's University campus in Faridabad, India. It discusses the history and benefits of rainwater harvesting. It also summarizes studies carried out globally on water scarcity issues and the importance of rainwater harvesting given India's decreasing per capita water availability. The project aims to design an optimal system to collect and store rainwater falling on the rooftops and grounds of the university buildings.
Latest of the Ebsford Environmental newsletters, the aim of these is to provide industry and market specific information and advice for any of our clients or peers working on similar projects.
ENVIRONMENTAL IMPACT ASSESSMENT STUDIES OF THE
POLLUTED WATER AT PATANCHERU INDUSTRIAL
AREA, HYDERABAD, A.P., INDIA, 1999
PHD OF DR NAKKA SAI BHASKAR REDDY
This document is a dissertation submitted by Sandhi Priya to Doon University in partial fulfillment of the requirements for a Master of Science degree in Environmental Science specialized in Natural Resource Management. The dissertation investigates productivity variation in the Eastern Arabian Sea during the late Holocene and implications of climate change. Productivity refers to the production of organic matter by phytoplankton in the ocean. It is influenced by availability of nutrients and sunlight. Major factors limiting productivity include nutrients, sunlight, upwelling, turbulence, and grazing intensity. The dissertation will use proxies like calcium carbonate fluctuations, foraminifera, and radiolarians in ocean sediments to reconstruct past productivity variations and understand the impacts of climate change.
Water Works: capacity and communication for social change in peruvian municip...April Pojman
This thesis is an exploratory study of the role that Communication for Social Change principles play in World University Service of Canada's (WUSC) project to strengthen the capacity of Peruvian municipalities in the area of water and sanitation. The research took place in two case study locations, one urban and one rural, and was conducted through stakeholder workshops, semi-structured interviews, participant observation and a review of project documents. The findings describe the communication, collaboration and perceived changes in individual and organizational capacity that have taken place based on WUSC's work with municipal governments, water companies, water user groups, and end users. In doing so, the research reveals that WUSC carries out many effective communication and capacity development activities based on their long-term engagement with their counterparts and their "learning by doing" approach. However, they do not have overall strategies in either of these areas, which has resulted in the exclusion of some stakeholders and difficulty in monitoring and evaluating these areas which may hamper the overall long-term impact of the project. Based on these findings, the paper suggests how Communication for Social Change principles could be applied to help improve other capacity development projects of this type. While this study does not directly address debates about water privatization, it does offer reflections for improving the effectiveness of local level water management.
www.yapame.com
Testing The Validity Of Hydraulic Losses Described In The CIRIA Methodology F...Chiko Tembo
This document presents research testing the validity of hydraulic loss descriptions in the CIRIA guidance methodology against the Hydraulic Design Manual from the Texas Department of Transportation. The research involves hydraulic modelling of a culvert on the River Calder in Todmorden, UK during recent flood events. Model inputs like culvert geometry and roughness coefficients are extracted from the two guidance documents and compared. Preliminary results found that the CIRIA methodology does not overestimate losses as hypothesized, and may outperform the Texas methodology. The full research aims to improve representation of culvert inlet losses in UK hydraulic modelling.
Texas water development board the manual texas on rainwater harvertingPlan Huerta
This chapter discusses the basic components of a rainwater harvesting system, including the catchment surface, gutters and downspouts, leaf screens, first-flush diverters, roof washers, storage tanks, pressure tanks and pumps, and treatment equipment. It focuses on residential or small-scale commercial systems for irrigation and potable water uses. The local health department and building codes should be consulted for system design and construction requirements.
The document discusses AECOM's water management expertise and services. AECOM has over 100 years of experience in planning, designing, and managing water systems. They provide comprehensive solutions for wastewater treatment, drinking water systems, water resources management, community infrastructure, and water design-build projects. AECOM works to develop sustainable solutions to help clients address water issues around the world.
Deltares capabilities & international projectsMarcel Bruggers
This document provides an overview of Deltares, a Dutch independent institute focused on water, soil, and subsurface issues. It describes Deltares' capabilities including its 800+ employees and various research facilities for studies related to coastal safety, flood risk management, river management, water quality, and software projects. The document also briefly mentions some of Deltares' international projects providing consulting services to countries around the world.
This document summarizes the experiences of several recipients of the South Asian Water Fellowship from partner universities in Bangladesh, India, Nepal, and Sri Lanka. It describes how the fellowship helped the students gain interdisciplinary knowledge and skills in water resource management. It provides short profiles of individual fellows, highlighting how the courses transformed their perspectives and expanded their career opportunities in the water sector. The fellowship opened doors for further education and professional growth for the students.
Rain Water Harvesting and Geostatistical Modelling of Ground Water in and aro...DHIRENDRA PRATAP SINGH
Application of Geostatistics for Ground water for estimating the fluctuation of ground water between pre and post monsoon. However Geostatistics can be applied in various field of geology to estimate the most accurate results with minimum deviations as as geostatistics has some best estimator techniques to apply on the field.
This document provides a project report on rainwater harvesting. It includes an abstract that discusses India's increasing population and the need for alternative water sources like rainwater harvesting. It also includes chapters on the components of a rainwater harvesting system, studies carried out globally and in India on rainwater harvesting, collecting rainfall and other data for the project site in Jaipur, designing first flush systems, analyzing the hydrology, methods for storing harvested rainwater in tanks, different tank designs, and the costs and conclusions of the project. The project aims to design and implement a rainwater harvesting system for buildings at Vivekananda Institute of Technology campus in Jaipur, Rajasthan to help address water scarcity issues.
The document discusses the increasing threat of natural disasters like floods due to climate change and the need for disaster resilient architecture. It notes that India is highly vulnerable to floods and has faced some of the worst flooding in recent years. The document argues for the need to develop architectural solutions that allow communities in flood prone areas to safely coexist with water through the use of local, affordable materials and designs.
Identification of Pollution Sources & Water Quality Analysis of Dhanmondi & H...Tariq Mehmood
Pollution Sources of Dhanmondi & Hatirjheel lake were identified. Water samples were taken based on the pollution sources, samples were taken on monthly basis during rainy as well as dry season. Water samples were tested in lab based on various parameter. BOD, COD, pH, Color, Turbidity, DO Phosphate, nitrate and various other tests were performed and results of both lakes were compared.
After the successful completion of all the tests over the period of year results showed that Hatirjheel is much more polluted than Dhanmondi lake.
This document presents a design project for a reverse osmosis water purification system for Tatu City located in Kiambu County, Kenya. The system aims to purify water from an existing borehole to make it suitable for domestic consumption for the city's residents.
The borehole water is hard water and unsuitable for direct use. Various water purification methods were considered and reverse osmosis was selected as it is an economical method for large-scale purification. Membrane elements will be selected based on required permeate flow and raw water characteristics. The design will be modeled using ROSA software.
The proposed system aims to supply an average of 280.84m3/day of purified water to meet the
This document summarizes a newsletter from the PSPD program at Pratt Institute. It discusses several waterfront planning projects led by PSPD faculty and students that focused on creating inclusive, diverse public spaces:
1) A project in Honolulu aimed to make the waterfront accessible to all ages, incomes, and ethnicities through features like a cultural gathering space, educational facilities on cultural history, and a market featuring local farmers.
2) In Cleveland, the goal was to unite the city's neighborhoods through a shared waterfront vision with flexible spaces for different cultures to share food, music and performances.
3) In Yonkers, engaging the diverse community to propose 10 destinations for the waterfront helped
This document summarizes a newsletter from the PSPD program at Pratt Institute. It discusses several waterfront planning projects led by PSPD faculty and students that focused on creating inclusive, diverse public spaces:
1) A project in Honolulu aimed to create a community cultural gathering place on the waterfront that celebrates the diverse cultures of the local community.
2) A project in Cleveland developed a vision for the downtown lakefront with flexible public spaces where residents of the diverse neighborhoods could interact and different cultures could share their traditions.
3) A project in Yonkers used the "Power of Ten" approach of identifying 10 destinations along the waterfront tailored to serve the broadly diverse local population.
The article discusses the latest R&D trends in desalination membrane technologies. It highlights the use of nanomaterials like graphene and carbon nanotubes which improve membrane performance and energy efficiency. Other innovations discussed include sulfonated graphene oxide composite membranes and centrifugal reverse osmosis. Overall the article provides an overview of new materials and designs that aim to advance membrane desalination technologies.
This dissertation examines the effects of population growth, climate change, and increased water reuse on water supply and demand in Utah through 2060. The author creates a model of the current water sources, uses, losses and destinations in the Utah Lake and Jordan River basins. Various future scenarios are analyzed, including the impacts of continued growth trends, climate change, failed conservation efforts, protecting agriculture, additional water imports, and increased wastewater recycling. The results indicate that current policies should maintain a supply-demand balance through 2060 if goals are met. However, this relies on a decline in agriculture. The author discusses policy options like continued conservation, protecting agriculture, trading energy for water imports, and wastewater recycling to maintain balance beyond
This thesis examines the role of geomatics technologies in improving water utility management in northern Jordan. A pilot study was conducted in Al-Mughayyer village to validate spatial data collected by the Northern Governorate Water Administration (NGWA) and identify areas for improvement. Data collection methods included GPS surveying, aerial photogrammetry, and digitizing of existing maps. The data was processed, modeled in a geodatabase using ArcGIS Water Utility data model, and analyzed to develop recommendations for enhancing water network data quality and management. Geomatics technologies were found to be effective tools for building an accurate geospatial framework to support improved water resource planning and operations.
This thesis assesses the spate irrigation potential of the Hargeti River watershed in Ethiopia. It was conducted by Ferid Hussen Harun for a Master's degree in irrigation and drainage engineering from Arba Minch University. The thesis involved analyzing climate, soil, land use, and crop data to model the hydrology of the watershed using the HEC-HMS model. The results will help evaluate suitable land areas for irrigated agriculture using spate irrigation from flood flows in the river. The overall aim is to improve water resource management and irrigation development in the watershed.
This thesis examines approaches to identify small impoundments in Kansas reservoir drainages using digital elevation models (DEMs) derived from LiDAR data. Chapter 2 applies two elevation-based methods to identify additional impoundments beyond those in the National Hydrography Dataset and finds they produce more accurate surface area geometries. Chapter 3 delineates catchment areas for small impoundments within nine eastern Kansas reservoir drainages and compares erosion-related traits between impoundment catchments and direct runoff areas. The distribution and size of impoundments, as well as average catchment size, may influence downstream reservoir sediment yields. This research demonstrates methods for improving water body inventories using LiDAR data and provides insight into the role
This document provides a project report on designing a rainwater harvesting system for Lingaya's University campus in Faridabad, India. It discusses the history and benefits of rainwater harvesting. It also summarizes studies carried out globally on water scarcity issues and the importance of rainwater harvesting given India's decreasing per capita water availability. The project aims to design an optimal system to collect and store rainwater falling on the rooftops and grounds of the university buildings.
Assessment and Analysis of Maximum Precipitation at Bharkawada Village, Palan...RSIS International
Efficient Storm water network is the main tool to prevent the water gatheration and scattering of a city. Selecting the Bharkawada as study area and its problem was identified to be of very less effective drainage system. In this study methods have been adopted to identify the possibilities of completing the research for designing the storm water drainage design. Our main aim is to design a very efficient and rpid drainage system which should drain the water very fastly with less concentration time and less spreading of water with less provision of slope. The present design is based on rainfall data. Past 30 years rainfall data has been taken for study. The system has been designed considering in total of 65% of the impervious area. Estimated rainfall intensity has been calculated as 33.02527 mm/hour with a recurrence interval of 2 years from the detailed analysis of rainfall data of 34 years. Rainfall Intensity is estimated after frequency analysis of the rainfall data. The calculated runoff is 25.056 m3/s, which can be used as a design discharge for network designing. Different methods can be used for runoff estimation. Here, Rational method seems to be best for use in estimation of storm water runoff. The outfalls of system are directed to proposed lakes. Ere at this stage rainfall calculations have been done and in future work complete rainfall and runoff analysis will be carried out for storm water network.
Here are some of the key reasons why solar energy is so important:
- Abundance - Solar energy is practically inexhaustible. The amount of energy that reaches the Earth's surface from the sun in one hour is greater than the world's total annual energy consumption.
- Environmental benefits - Generating electricity from solar energy produces no air or water pollution, noise, radioactive waste. It helps reduce greenhouse gas emissions and dependence on fossil fuels.
- Energy security - Reliance on solar energy reduces dependence on imported fossil fuels. It diversifies the energy supply and makes nations more energy independent.
- Job creation - The solar industry is a fast-growing sector that is creating many new jobs in manufacturing, installation,
Project report on An Energy Efficient Routing Protocol in Wireless Sensor Net...divya_prabha
This document is an M.Tech project report submitted by Divya Prabha to the Department of Computer Science and Engineering at Shaheed Bhagat Singh State Technical Campus in Ferozepur, India in partial fulfillment of the requirements for a Master of Technology degree. The project investigates energy efficient routing protocols in wireless sensor networks. It develops and analyzes the low-energy adaptive clustering hierarchy protocol and proposes a modified version called MODLEACH that introduces an efficient cluster head replacement scheme and dual transmitting power levels. A performance analysis of LEACH and MODLEACH is presented considering metrics like throughput, network lifetime, and cluster head replacements.
The document is a certificate from the Department of Civil Engineering at Government Engineering College, Jamui approving Md Masoom Alam's B.Tech project report on "Roof Top Rainwater Harvesting". It certifies that the project report was accepted by external examiners and that Md Masoom Alam successfully completed the project work to earn a Bachelor of Technology degree. It is signed by the project guide, external examiner, and head of the department.
India; Rainwater Harvesting And Groundwater RechargeD5Z
This document discusses solutions for increasing access to safe drinking water in India through rainwater harvesting and groundwater recharge projects. It proposes that small-scale, community-led projects utilizing traditional knowledge and materials can effectively and inexpensively provide water. Business partnerships supporting training and funding for these projects could help spread their benefits while aligning with social and business priorities. The document concludes by outlining specific roles businesses and donors could play to help scale up these solutions.
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1. SUSTAINABLE WATER SUPPLY: RAINWATER HARVESTING FOR
MULTISTORIED RESIDENTIAL APARTMENTS IN DHAKA, BANGLADESH
A Thesis
by
FARZANA SULTANA
Submitted to the Office of Graduate Studies of
Texas A&M University
in partial fulfillment of the requirements for the degree of
MASTER OF SCIENCE
December 2007
Major Subject: Construction Management
2. SUSTAINABLE WATER SUPPLY: RAINWATER HARVESTING FOR
MULTISTORIED RESIDENTIAL APARTMENTS IN DHAKA, BANGLADESH
A Thesis
by
FARZANA SULTANA
Submitted to the Office of Graduate Studies of
Texas A&M University
in partial fulfillment of the requirements for the degree of
MASTER OF SCIENCE
Approved by:
Co-Chairs of Committee, Ifte Choudhury
Mohammed Haque
Committee Member, Charles Culp
Head of Department, Joe Horlen
December 2007
Major Subject: Construction Management
3. iii
ABSTRACT
Sustainable Water Supply: Rainwater Harvesting for Multistoried Residential
Apartments in Dhaka, Bangladesh.
(December 2007)
Farzana Sultana, B. Arch., Bangladesh University of Engineering and Technology
Co-Chairs of Advisory Committee: Dr. Ifte Choudhury
Dr. Mohammed Haque
Rainwater harvesting is a familiar term for Bangladesh. People in areas that lack drinking
water, particularly the coastal areas and the rural areas in the country, practice rain water
harvesting. The high annual rainfall in the country makes rainwater harvesting a logical
solution for the arsenic contamination of ground water in Bangladesh (Rahman et al.
2003). Also, the increasing population in the urban as well as rural areas is putting
increased load on underground aquifers which is evident in the fact that the piezometric
level in Dhaka has decreased by more than 65 feet in the last decade. The annual rain fall
that the city receives may be an effective answer to the recharge of aquifers. Rain water
harvesting during the rainy season can reduce the increasing load on groundwater levels.
This study aims to provide some guidelines for economic rainwater harvesting system,
especially for urban areas for specific user groups. These guidelines were formulated
through literature review, analysis of some case studies on rainwater harvesting, and, to a
certain extent, practical experience of the researcher. Data from secondary sources have
also been used for the purpose. The guidelines have been formulated using existing data
on rainwater harvesting systems. Based on these guidelines, a mathematical model has
been developed to figure out cistern sizes for collection of rainwater. The solution is
applied to a typical plan of an apartment house in Dhaka (multistoried) using
programming and visualization so as to demonstrate the scope and benefit of integration
of rain water harvesting technique with the architectural design.
4. iv
The harvested rainwater definitely does not meet the basic domestic requirement, but
supplements it during the rainy season which, most importantly, is usable for individual
household use. Large-scale rainwater harvesting also, hopefully, results in a decrease of
seasonal flooding in the urban areas. The products of this research are a) a computer
program for sizing cisterns and b) an animation of the proposed rainwater harvesting
system that may be used as a tool to demonstrate the benefits of the technique.
5. v
DEDICATION
To my parents
Mrs Kamre Jahan
Mohammed Showkat Ali
6. vi
ACKNOWLEDGEMENTS
My first and most earnest gratitude goes to the Almighty Allah for materializing my
dream.
I would like to express my gratitude to my Co-Chair, Dr. Ifte Choudhury, for his
support, patience, and encouragement throughout my graduate studies. It is not often that
one finds an advisor that always finds the time for listening to the little problems that
unavoidably rise in the course of performing research. His technical and editorial advice
was essential to the completion of this dissertation and has taught me innumerable
lessons and insights on the workings of academic research in general. My thanks also go
Dr. Mohammed Haque and Dr. Charles Culp for reading previous drafts of this
dissertation and providing many corrections and valuable comments that improved the
presentation and contents of this dissertation.
The friendship of Mohsin Reza, Bhajan Biswas, Aaron Cooper and Sameh Alathirah is
much appreciated and has led to many interesting and good-spirited discussions relating
to this research. I am also grateful to my colleague Manisha Singh and Lilian Kalyanapu
for helping considerably with realizing the detail procedure of research. In particular,
Lilian trained me for programming with great diligence and ingenuity. My thanks go to
Mahmudur Rahman Masum who helped with collecting data from Bangladesh and to
Architect Nahas Khalil for igniting the interest for rainwater harvesting in me. I also owe
a huge debt of gratitude to Dr. Shahana Rahman and her family who were instrumental
in the development of my professional career.
Last, and most heartfelt acknowledgement must go to my brother Mohiuddin Ahmed for
being a mentor, in all possible ways. His image, support and encouragement were in the
end what made this thesis possible. My parents receive my deepest gratitude and love for
their dedication and the many years of support during my undergraduate studies that
7. vii
provided the foundation for this work. Their support, encouragement, and
companionship have turned my journey through graduate school into a pleasure. And
upon whom lies my everlasting love.
8. viii
NOMENCLATURE
GPPD Gallon Per Persons Per Day
DC Daily Consumption
MC Monthly Consumption
ROF Runoff Factor
CRF Critical Rainfall
ARF Mean Annual Rainfall
MFI Monthly Factor of Insufficiency
YFI Yearly Factor of Insufficiency
TS Total Storage
LF Leakage Factor
9. ix
TABLE OF CONTENTS
Page
ABSTRACT ....................................................................................................................iii
DEDICATION ................................................................................................................. v
ACKNOWLEDGEMENTS ............................................................................................ vi
NOMENCLATURE......................................................................................................viii
TABLE OF CONTENTS ................................................................................................ ix
LIST OF FIGURES......................................................................................................... xi
LIST OF TABLES .........................................................................................................xii
INTRODUCTION AND BACKGROUND..................................................................... 1
THE PROBLEM AND ITS SETTING ............................................................................ 2
Problem Statement ....................................................................................................... 2
Research Objectives ..................................................................................................... 2
Delimitations ................................................................................................................ 2
Assumptions ................................................................................................................. 2
Definitions.................................................................................................................... 3
REVIEW OF RELATED LITERATURE ....................................................................... 6
Historical Background.................................................................................................. 6
Rainwater and Community........................................................................................... 6
Irrigation & RWH ...................................................................................................... 11
Benefits: Poverty Alleviation and Socio Economic Development ............................ 14
Practice in Bangladesh ............................................................................................... 19
Present Situation......................................................................................................... 22
RESEARCH METHODOLOGY ................................................................................... 23
Data Collection Procedure ......................................................................................... 23
Data Analysis ............................................................................................................. 23
10. x
Page
Results ........................................................................................................................ 24
Proposed RWH System.............................................................................................. 30
Sizing of Storage Tank............................................................................................... 37
Development of a Teaching Tool............................................................................... 42
SUMMARY AND CONCLUSION............................................................................... 48
Recommendations ...................................................................................................... 49
REFERENCES............................................................................................................... 52
VITA .............................................................................................................................. 64
11. xi
LIST OF FIGURES
FIGURE Page
1. Flood in Urban Slum ………………………………………………… 9
2. Arsenic in Tube Wells ……………………………………………….. 9
3. Model Design Template………..……………………………….……. 18
4. Annual Rainfall in Bangladesh ….…………………………………… 20
5. Arsenic Situation in Bangladesh ...…………………………………... 21
6. Schedule of a Residential Project ………..………………………….. 31
7. First Flush Device ………..………………………………………….. 34
8. Pump Chlorinator ………..…………………………………………... 36
9. Injector Chlorinator ………..………………………………………… 36
10. Electric Chlorinator………..…………………………………………. 36
11. Dechlorinator ………..……………………………………………….. 36
12. Programming Logic ………..………………………………………… 40
13. Visual Basic Interface ………..……………………………………… 41
14. Rainwater Calculator ………..…………………………………….…. 42
15. Residential Apartment………..…………………………………..…… 43
16. RW Installation………..……………………….……………………… 43
17. Catchment Area………..…………………………….……..……….… 44
18. Filtration Device………..……………………………………………... 46
19. Storage Volume……….………………………………………………. 47
20. Catchment and Storage………..……………………………………… 48
21. Scale of Sustainability ………………………………………………… 51
12. xii
LIST OF TABLES
TABLE Page
Table 1: Ownership of water and its impact .............................................................. 7
Table 2: Strengths and weakness in recycling, rainwater and conservation ............ 18
Table 3: Rainwater chemistry .................................................................................. 26
Table 4: Runoff coefficients..................................................................................... 32
Table 5: Piping dimensions ...................................................................................... 33
Table 6: Chlorine composition................................................................................. 35
13. 1
INTRODUCTION AND BACKGROUND
Fresh water, a renewable but limited resource, is scarce in many areas of the developing
world because of unplanned withdrawal of waters from rivers and underground aquifers
causing severe environmental problems like arsenic contamination (Rahman et al. 2003).
In many countries, the amount of water being consumed has exceeded the annual
amount of renewal creating a nonsustainable situation (Choudhury & Vasudevan, 2003).
In addition to that, rainwater run-off during rainfall from roofs and other sealed surfaces
during heavy rain is leading to accumulated flooding in the urban areas of many
countries like Bangladesh where the drainage system was not designed including the
volume of rainwater runoff. As ancient as the early days of civilization, rainwater
harvesting, the system of collecting and using the precipitation from a catchment area is
considered as an alternative option for water supply in Bangladesh (Yusuf, 1999).
Unless it comes into contact with a surface or collection system, the quality of rainwater
meets Environmental Protection Agency standards(Choudhury & Vasudevan, 2003) and
the independent characteristic of its harvesting system has made it suitable for scattered
settlement and individual operation (Rahman & Yusuf, 2000).
__________________
This thesis follows the style and format of Journal of Construction Education and
Research.
14. 2
THE PROBLEM AND ITS SETTING
Problem Statement
The purpose of this study is to assess a sustainable rainwater harvesting solution for
multistoried residential apartments in Dhaka, Bangladesh using interactive tools like
programming, visualization etc.
Research Objectives
1. To identify and analyze the rainwater harvesting methods of Bangladesh.
2. Analyze the significance of rainwater harvesting in the urban residential areas of
Bangladesh
3. Develop a solution for rainwater harvesting solution for a typical multistoried
residential apartment in Dhaka, Bangladesh.
4. Utilize programming and visualization to assess the efficacy of the solution and
its details.
Delimitations
1. The research will be confined only to the urban area of Dhaka, Bangladesh.
2. The study will be confined to residential apartments of Dhaka, Bangladesh.
3. The study will be confined to six storey apartment buildings of Dhaka,
Bangladesh.
Assumptions
1. No environmental or other contamination other than those from the catchment
area will be present in the harvested rainwater.
15. 3
2. The rainwater harvesting method is socially accepted in the study area.
3. The per capita water consumption is assumed to be 25 gal/day or 94.75 lpcd (MH
and PWD, 2002).
a. 1.5 gal/flush; frequency of use/day=4, total 6 gal
b. 2.5 gal/ shower, duration per shower= 5 minutes, total=12.5 gal
c. Cooking and drinking: 1.5 gal
d. Cleaning and miscellaneous: 5gal. grand Total: 25 gal/person/day
Definitions
Catchment Area
Catchment area is the net roof surface, in square feet/square meters, from which
rainwater is collected (Choudhury & Vasudevan, 2003).
Cistern/Storage Tank
A cistern or a storage tank is a receptacle built to catch and store rainwater. They range
in capacity from a few liters to thousands of cubic meters. Cisterns are usually built
underground (Pacey and Cullis, 1986).
Potable Water
The water of sufficient quality which is fit for human consumption is called potable
water (Choudhury & Vasudevan, 2003).
16. 4
Aquifer
An aquifer is an underground layer of water-bearing permeable rock, or unconsolidated
materials (gravel, sand, silt, or clay) from which groundwater can be usefully extracted
using a water well (Pacey and Cullis, 1986).
Ground Water
Groundwater is the water located beneath the ground surface in soil pore spaces and in
the fractures of geologic formations (Pacey and Cullis, 1986).
Alternative Technology
Alternative technology refers to technologies that are more environmentally friendly
than the functionally equivalent technologies dominant in current practice, aims to
utilize resources sparingly, with minimum damage to the environment, at affordable cost
and with a possible degree of control over the processes.
Filtration
Filtration is the method of separating solid and suspended contaminants in rainwater
achieved by the interaction between the rainwater and a porous interface i.e. the filter
(Pacey and Cullis, 1986).
First Flush
First flush is the first part of the rainwater runoff after a dry period, which contains
higher concentration of contaminants than a subsequent flush (RHPT, 2007).
17. 5
Visualization
Visualization refers to the creation of two and three dimensional graphic of any
architectural/construction design with the aid of digital computers and 3D software.
18. 6
REVIEW OF RELATED LITERATURE
Historical Background
Rainwater harvesting is a common practice in the countries and areas where the annual
precipitation is high and pure drinking and usable water is scarce. All over the world,
economical condition has prompted the low-income groups to harvest the rainwater for
household and essential uses. Several countries of the world in different regions have
showed the popularity of this method. Originated almost 5000 years ago in Iraq,
rainwater harvesting is practiced throughout the Middle East, the Indian subcontinent, in
Mexico, Africa as well as in Australia and United States. As the population of the world
increased, irrigation, the most water consuming human activity, as well as domestic
water usage increased, leading to a consequence of crisis of water supply in different
region. Among other available alternative sources for water supply, rainwater harvesting
has become the most economic solution for the water crisis (Boers and Ben-Asher,
1982).
Rainwater and Community
Domestic Rainwater Harvesting (DRWH) is a sub set of rainwater harvesting whereas
policies and legislation mostly refer to the generality. The popular means of water
harvesting is surface run-off providing water in large quantity, of low quality mainly for
agriculture. In water policies of the African countries, such as Kenya, RWH as a means
of poverty alleviation refers to harnessing water by constructing appropriate dams and
pans for collection of water for small-scale agriculture and livestock. In Kenya, DRWH
can mean both surface run off and roofwater harvesting while in Sri Lanka and Thailand
it means only roofwater harvesting. Due to recent rapid development of roof water
harvesting in some countries, some policy documents now distinguish between roof
water harvesting and rainwater harvesting. Although the one of the largest development
19. 7
of roof water harvesting took place in Thailand in the 1980’s, neither rainwater
harvesting nor roofwater harvesting are mentioned in the local Water Act (Ariyabandu,
2003). Bangladeshi water policy clearly identifies the problems associated with over-use
of surface and ground water, which has been causing depletion and pollution of ground
water resulting in salt-water intrusions and arsenic threats. While the policy recognizes
sustainable development of surface, ground and rainwater as a possible solution, it does
not refer to roofwater harvesting. Therefore, interpretation is crucial for the
implementation of policies, depending on the need of the hour.
As shown in table 1, most countries of the world, state owns the water resources, while
the current debate in the water sector reforms is the Community Verses State Ownership
in Water Resources Development. Although the presumption of most activists is that
water resources development should be transferred to community ownership for it to
serve the communities and attain sustainable development, all water policies
(contributing to this view) are still engrossed in the conventional state ownership of
water resources.
Table 1
Ownership of water and its impact. (Ariyabandu, 2003)
Country Status Description
Sri Lanka Public Ownership No restriction on development of DRWH
India Not specified Water is a state object. No potential threat to
development of DRWH
Bangladesh State ownership No constraints on development of DRWH
Thailand State ownership Storage of water requires a license as decided by the river
including atmospheric basin committees
water
Kenya State ownership Requires a permit to construct water works. Not clear
whether this includes DRWH. No restriction on water for
domestic use.
Uganda State ownership Requires a permit to construct water works. Not clear
whether this includes DRWH. No restriction on water for
domestic use.
Ethiopia Public Ownership No permit is required. But large scale water development is
practiced without permission. Status of DRWH is not clear.
No restriction on water for domestic use.
20. 8
Instead of strong policies, special reasons and circumstances led the success of DWRH
in the past. Still, it is strongly assumed that enabling policies and legislation will be vital
for the sustainability of DRWH in future. At present, the NGOs and special projects are
working to foster DRWH. Without state commitment, this trend can’t continue. Also, the
ownership of water should be handed over to the water user communities, along with
that, demand responsive approaches should be adopted in selecting water supply options.
This will naturally pave the way for development and promotion of DRWH based on
need (Ariyabandu, 2003).
Community operation and maintenance, along with community participation and control,
is essential to the successful implementation, operation and maintenance of any
rainwater project, eventually which encourages demand management. Demand
management strategies are unlikely to succeed without strict individual self-discipline
and community control / recommendations agreed by the community themselves
regarding efforts to promote water conservation. Evidences show that combined public-
private sector approaches for rainwater harvesting initiatives can work effectively in
certain circumstances (Gould, 2007).
In a case study in the semi-arid region of Brazil (an initiative developed by NGOs with
the support of Brazilian Federal Government Institutions and international funding
organizations), instead of focusing on short-term, top-down, palliative measures based
on the construction of dams and wells, it focused on low cost, bottom-up, long-term
measures and, most importantly, it involves an educational component. So, the provision
of water is closely related to the empowerment of the most destitute population which
leads to the sustainability of the actions. This case illustrates the relevance of the
partnership between grassroots organizations and governmental institutions in the
context of mitigation through the combination of educational and technical components.
The educational component of this project is thus the basis for any needed social
21. 9
transformation of the area. It is important, at this stage, to assess the impact of the
project on the quality of life of the beneficiary population. The avoidance of the political
manipulation of the construction of cisterns by local politicians should also be
monitored. Looking at the socio-economic and political implications of the problems, in
order to properly mitigate the scarcity of water, the social implications have to be
addressed and the consciousness-raising of the population is the only way through which
this can be done (Branco et al. 2005).
Figure 1: Flood in Urban Slum Figure 2: Arsenic in Tube Wells
In Bangladesh, in 1989, the Ministry of Environment and Forest was established to
address the emerging environment related issues. In the consecutive years, the National
Environment Policy, 1992 was adopted; a new law called the Bangladesh Environment
Conservation Act, 1995 was enacted repealing the earlier law of 1977 and restructuring
the Department of Environment. The national environment management action plan
(NEMAP) has also been finalized and is being implemented. Eventually, other laws
were framed including the followings:
1. The Environment Court Act, 2000,
22. 10
2. The Environment Conservation Rules, 1997,
3. The Environment Pollution Control Ordinance, 1977,
4. The Water Pollution Control Ordinance, 1970.
And so on. Although all these acts and rules are specific about water pollution and
wetland conservation, little has been done from the part of the government for water
conservation specially relating rainwater groundwater and groundwater recharge. The
Ministry of Housing and Public Works Department, Government of Bangladesh, had
published a rainwater-harvesting manual applicable for the rural and urban areas in
2002. The guidelines were applied in the installation of rain water harvesting system in
one governments housing (Member of Parliament Hostel) as a study. However, after the
change of Government the study was left incomplete as well as the publication of the
manual. To make the rain water harvesting a practice for any target area, examples
should be the first step. With that, Government should frame appropriate policies
regarding tax incentive to individual households for the rain water harvesting practice,
which will encourage the citizens to adopt it. All the existing public buildings and new
building constructions can be a good place to start installing and study the output of rain
water harvesting. Promotional and educational activities from local government will also
be necessary to realize the following issues that could be solved or improved by rain
water harvesting:
• Water shortage, i.e. of safe drinking water
• Seasonal flooding (Figure 1)
• Ground water recharge i.e. water management
• Health and sanitation
• Alternative water supply (Arsenic contamination: Figure 2 & 4)
Bangladesh Water Development Board (BWDB), Water Resources Planning
Organization (WARPO) are institutions under the Ministry of Water Resources, the
23. 11
Government of the People's Republic of Bangladesh. They are among the key
organizations dealing with nation - wide macro level water resources planning and
management. At present, they are helping the government with tasks such as monitoring
implementation of the National Water Management Plan (NWMP) and its impact,
upkeep of water resource assessments, maintenance and updating of the National Water
Resources Database (NWRD) and MIS etc. But these organizations can help the
government in planning large scale rain water harvesting project through local
government and monitor the application and out come. The Bangladesh Environmental
Lawyers Association (BELA), Participatory Review International Network, BRAC are
some private organization and NGO’s that are working hand in hand with the
government with the energy conservation issues. Through the recent activities, BELA
has become a true pressure group against environmental violations, and its research has
played a significant role in popularizing the environment amongst the general public. In
the implementation phase of the government plans, these NGO’s can work directly work
with communities under local government to educate and involve them in water
conservation practices. Including female citizens will definitely improve the outcome
which was successful in similar projects in several parts of India. All these practice has
already started in Bangladesh in different areas starting with small residential
communities and aiming at huge commercial buildings areas where catchment area is
larger (MoEF, 2003).
Irrigation & RWH
In Tanzania, the vast majority of farmers depend on rain-fed agriculture. Therefore,
future food security depends upon developing improved dryland cropping systems. An
important step towards tapping the potential of these systems is be to use the available
rainfall, known as ‘green water’, more efficiently. The challenge is to select and apply
appropriate RWH interventions that capture the unproductive green water flows. In-situ,
microcatchment and macrocatchment rainwater harvesting systems were tested against
24. 12
the local practice of flat cultivation as control. All were managed according to local
extension recommendations, and the benefits were measured in terms of grain yield. In-
situ rainwater harvesting provided no benefit. Microcatchment rainwater harvesting
resulted in increased yield per unit area cultivated. On a total system area basis (i.e.
including the uncropped catchment), however, production decreases were observed. A
cost-benefit analysis does show a benefit in the short rainy season. Macrocatchment
rainwater harvesting provided increases in grain yield in both the short and the long
rainy seasons (Hatibu et al. 2003).
Along with economic justification, the promotion of rainwater harvesting projects
requires an analysis of the eco-hydrogeology and human dynamics. Based on the case
from Tanzania, rainwater harvesting for crop production showed the potential for
poverty reduction which is evident in the results from two-seasons (2002 to 2003) yield
monitoring for maize and lablab. According to the results obtained from the yield
monitoring exercise, Rainwater harvesting for crop production has a great potential of
poverty reduction given impressive returns to land and labor even during b-average
seasons. Interventions to improve productivity of rainwater (more crop out put per drop)
while maintaining the integrity of the eco-hydrology and other natural systems in the
watershed would result in tremendous economic benefits. This would result into
tremendous financial earnings too. Such efforts could be in empirical knowledge of
which best agronomical and runoff management practices could optimize physical yields
for the intercrop (Mutabazi, et al. 2004).
Hatibu et al. (2006) also presents an analysis of economics of rainwater harvesting by
poor farmers in Tanzania. Results show that rainwater harvesting for production of
paddy rice paid most with returns to labor of more than 12 US$ per person-day invested.
These benefits are very high due to the fact that without rainwater harvesting it is not
possible to produce paddy in the study area. The results also show that contrary to
expectations, improving rainwater harvesting systems by adding a storage pond may not
25. 13
lead to increased productivity. Another finding that goes against the widely held belief is
that rainwater harvesting results in more benefits during the above-average seasons
compared to below-average seasons. It is therefore, concluded that there is a potential for
combining rainwater harvesting with improved drainage of roads. The construction of
rural roads in semi-arid areas can beneficially be integrated with efforts to increase water
availability for agricultural needs. (Hatibu et al. 2006).
He et al. (2007) evaluates the determinants of farmers’ decisions, using a binary logistic
regression model, to adopt rainwater harvesting and supplementary irrigation technology
(RHSIT) and its elasticity of adoption in the rain-fed farming systems, based on a survey
of 218 farmers in the semiarid areas of Loess Plateau in 2005. The result shows 12
variables to be significant in explaining farmers’ adoption decisions. Farmers’
educational background, active labor force size, contact with extension, participation in
the Grain-for-Green project, and positive attitudes towards RHSIT are some of the
variables having significantly positive effects on adoption of RHSIT, while farmer’s age
and distance from water storage tanks to farmers’ dwellings have significantly negative
correlation with adoption of the technology. Variables such as family size, off-farm
activity, level of family income, risk preference, and land tenure do not significantly
influence adoption. This information will help prioritize the factors that affect adoption
decisions and provide insight on pathways to increase the adoption of RHSIT.
In Gansu and other provinces in northwest China, the preliminary implementation of
Rainwater Harvesting Agriculture (RHA) suggests that RHA has the potential to
improve performance in rainfed farming systems and to address environmental
problems; example: soil erosion. The small-scale, low cost RHA systems make
application by household farmers simple. Successful RHA needs to be integrated in a
comprehensive agricultural-management system; i.e. with other agricultural technologies
and management practices. Also, the spread of RHA over large areas entails
consideration of a range of technological, agro-hydrological, ecological, social, cultural,
26. 14
economic, and political factors. In particular, training and extension services to farmers
is required to develop and disseminate more effective and affordable types of RHA
technologies as alternatives and to design and develop alternative policy instruments and
social institutions that facilitate adoption of RHA practices (Li et al., 2000). Also in a
time period of 2002 to 2004, the influence of different in situ rainwater harvesting and
moisture conservation methods on soil moisture storage and growth of Tamarix
ramosissima was studied in the semiarid loess region of China. Rainwater harvesting and
moisture conservation treatments increased growth of T. ramosissima, tree height was
significantly higher for the rainwater harvesting and moisture conservation treatments
than the controls. (Li et al., 2005)
Benefits: Poverty Alleviation and Socio Economic Development
Composed in a comprehensive system, the basic three components of rainwater
harvesting; a collection surface, guttering and a water store, yields several benefits.
According to Krishna (2003), the most important benefit of rainwater harvesting is that
the water is totally free; the only cost is for collection and use. Also, the end use of
harvested water is located close to the source, which eliminates the need for complex
and costly distribution systems. When groundwater is unacceptable or unavailable,
rainwater provides a water source, or it can supplement limited groundwater supplies. A
superior solution for landscape irrigation, rainwater harvesting reduces flow to
stormwater drains and also reduces non-point source pollution while reducing the
consumers’ utility bills. Having lower hardness than groundwater, rainwater helps
prevent scale on appliances and extends their use (Li et al., 2005).
Studies carried out on a global basis indicate that in the past fifty years, the world’s
population has doubled, as did the per capita water consumption rate (from about 400
m3/year to about 800 m3/year) having only a small percentage of the available water is
of good enough quality for human use. The countries of Africa have been experiencing
27. 15
an ever-growing pressure on their available water resources, with increasing demand and
costs for agricultural, domestic and industrial consumption. These pressures have caused
both environmental deterioration like pollution of freshwater systems and
overexploitation of important water catchments, resulting in lowered groundwater levels.
Water stress has several consequences including Social, Economical, and Environmental
etc. A large proportion of Africa’s population is affected by water shortages for domestic
use. As a response to the 1971–74 droughts with the introduction of food-for-work
(FFW) programmes, government-initiated soil and water conservation programmes
promoted the application of rainwater-harvesting techniques as alternative interventions
to address water scarcity in Ethiopia. These also intended to generate employment
opportunities to the people affected by the drought. Issues like poverty, drought,
sanitation etc strongly support the need to focus on development and promotion of
rainwater-harvesting technologies as one of the alternatives to enhance water availability
for different uses including domestic water supply, sanitation and food production
(Seyoum, 1994).
Kenya, having a population of about 25 million people, has current water supply
coverage of 42% meaning millions of Kenyans with no access to an adequate and safe
water supply, facing, severe social and economic consequences. The Kenya Rainwater
Association (KRA), founded to bring together individuals and institutions wanting to
face the challenge of low water coverage by utilizing rainwater, used low cost technical
options and built local capacity through community based organizations (CBOs). This
also built the village organization and management capacities. A combination of
improved health awareness and benefits from clean and safe water and income from sale
of surplus farm produce resulted in an increase in willingness to pay for improved
housing and water supply. The lessons learnt in this study includes compulsory
community involvement in RWH, use of motivation, mobilization and participation for
achieving desired goal, observation at commencement, control of Quantity and quality of
the output (Mbugua, 2000).
28. 16
The conclusions from the study of He et al. (2007) indicate that the rainwater harvesting
and supplementary irrigation technology (RHSIT) extension project should incorporate
consideration of farmer age, farmer educational attainment, and active labor force
members. The benefits of RHSIT must be clearly perceived by the users looking at their
own socioeconomic conditions. The results also suggest the need for greater political and
institutional input into RHSIT projects. there is a need to design and develop alternative
policy instruments and institutions for extension, technical assistance, training, credit
services that will facilitate adoption of the farmer participatory practices to better fit the
needs of farmers in particular.
Also in Zimbabwe, the successful adoption of RWH technologies has the potential to
alleviate problems faced by resource-poor ‘subsistence’ farmers. Benefits of RWH
technologies include an increase in agricultural productivity, enhancing household food
security and raising of incomes. The technologies also assisted in improving
environmental management through water conservation, reduction of soil erosion and
resuscitation of wetlands in the study area. The major constraints facing technology
adopters were water distribution problems, labor shortage, and water-logging during
periods of high rainfall and risk of injury to people and livestock as a result of some of
the technologies. However, the farmers who have adopted RWH have devised ways of
dealing with some of the cited problems, for instance, formation of labor groups to
mitigate against labor shortage. It was concluded that RWH technologies are suitable for
smallholder farmers in semi-arid areas provided they properly tailored the conditions of
the locality where they are promoted. Other benefits of adopting RWH include
improvement of people’s standard of living (break out of the cycle of poverty) and
reduction in environmental degradation (Mutekwa & Kusangaya, 2006).
The impacts of rooftop rainwater are greatest where it is implemented as part of wider
strategies that considers people’s overall livelihood strategies. Water should be seen as a
key productive as well as domestic resource, with different uses being made of it by men
29. 17
and women. By taking such an approach, and widening the role of potential benefits to
include economic and health related issues, the overall benefit to households and
communities of rainwater harvesting will be doubled. The most important impact in
terms of women and the poor is the reduction in time spent collecting water, a vital issue
( Ariyabandu, 1991), which can be as much as several hours per day. This time then
becomes available for other purposes, both productive and ‘social’; more time to spend
on education, with children and friends etc. (Smet & Moriarty, 2001).
Research on appropriate technologies and infrastructures to support water reuse has
progressed rapidly over recent decades presenting a wide range of source – treatment –
reuse options for planners to choose from. Although the economics of water reuse
schemes supports application to new developments than retrofit projects (table 2), there
are few studies which seeking to address strategic option selection issues for large
developments. The potential advantages of using treatment and reuse systems in new
developments require an understanding of the relationships between a wide variety of
factors, namely social, environmental, technological, and operational. Using a
commercially available software package, Alegre et al. (2004) reports the design and
implementation of a low resolution simulation tool to explore sustainable water
management options for a live case study site in the south of England (a peri-urban
development of 4,500 new homes) with particular reference to opportunities for
rainwater harvesting, and water reuse.
30. 18
Table 2
Strengths and weakness in recycling, rainwater and conservation. (Alegre et al. 2004)
Strategic option Strength Weakness
Recycling Continuous supply Frequent maintenance of system often required.
available. Variety of Can be expensive to purchase and install
reuse option available. (particularly if dual reticulation is required).
Health impacts uncertain.
Rainwater Lower Treatment Storage tank space requirements. Intermittent and
Requirements. Cost unpredictable supply.
effective Technology.
Conservation Low cost. No technology Sustained Impact often dependent on long term
Dependent. behavioral change. Incorrect installation of
devices is a problem
Climatic data, Building configurations, Water demand profiles
Rainfall, Technology Type, Performance Occupancy patterns,
Temperature etc. profile + reliability, White goods ownership &
Scale of Application use etc.
Reliability, Capex + Opex
SCENARIOS
Water savings efficiency,
Cost saving efficiency
Reduction in sewage volumes
Figure 3: Model Design Template
31. 19
The model in figure 3, proposed by Alegre et al. (2004), described above is capable of
generating a set of data regarding water flows through the proposed development. It can
be used to investigation of water saving and cost implications of supplying non-potable
demand nodes with either recycled greywater or rainwater. It is suggested that:
• Commercially available simulation tools can be used to represent gross
water flows through a new development and to explore different water
management options.
• Future demand profiles will influence the financial and water saving
performance of different management strategies and therefore, micro-
component water demand prediction is a key element of strategic option
assessment (Alegre et al. 2004).
Practice in Bangladesh
Bangladesh used the surface water as the principal source for drinking water up to the
recent past. Although rainwater harvesting is a familiar term for Bangladesh, it is not a
common practice as only 35.5 percent of the households in coastal areas use this method
as source of drinking water due to high salinity problem (Ferdausi & Bolkland, 2000).
Being a tropical country, Bangladesh receives heavy rainfall (figure 3) during the rainy
season with an average annual rainfall of 95 inches (BBS, 1997). This amount makes
rain water harvesting an obvious solution for the arsenic contamination whereas 50%
area of the country is suffering from arsenic contamination making it a nation wide
problem (Rahman et al. 2003). Moreover, the increasing population in the urban as well
as rural areas is putting increased load on underground aquifers, which is evident in the
fact that the piezometric level of Dhaka has decreased by more than 65 feet in the last
decade. Dhaka receives an annual rainfall of 71-80 inches which can easily be an answer
to the vertical recharge for the aquifers (Kabir and Faisal, 1999). Rainwater harvesting
will also facilitate the urban users with some additional benefits: decrease in the street
32. 20
water logging etc. The economical condition as well as absence of water supply facility
has prompted the low income groups to harvest the rain water for household and
essential uses which is evident in the fact that 52 indigenous methods has been practiced
by the tribal people of Bangladesh (Kabir and Faisal, 1999). Although these methods are
small scale, area specific, labor intensive and paced with slow rural life, they involve
significant low cost while maintaining ecological balance and sustainability. Thus these
indigenous methods can facilitate the new harvesting techniques with their strength,
screening them from their inherent limitations (Mbilinyi et al. 2005).
Figure 4: Annual Rainfall in Bangladesh. (Rahman et al. 2003)
33. 21
Figure 5: Arsenic Situation in Bangladesh (Rahman et al. 2003)
In the present context, rainwater harvesting is being seriously considered as an
alternative option for water supply in Bangladesh. Although the cost of this method is
burdensome for low income group, rooftops in buildings can be designed to collect
rainwater solving the challenging issues of minimizing the storage cost and management
and allocation the water use by water quality. In the case of a builder, at an initial stage
of construction, investments in time, design and money are minimal for adopting rooftop
rainwater harvesting (Thomas, 1998).
34. 22
Present Situation
Studies and experiments have been done not only to establish the potablity of rainwater
but also to design buildings installed with rainwater catchment facilities with optimum
treatment facilities. Materials like ceramic tile and galvanized metal roofs has been
recommended by Woods and Choudhury (1992) for quick transportation of precipitation
and minimization of loss through evaporation. Studies on management and treatment of
vegetation, surfaces and chemicals have been done to achieve economic solution for
specific region. Additional attention is given to storage capacity according to duration of
dry periods, affordability, robustness and durability of materials, safety and maintenance
of the filtration system.
Increased awareness on water crisis has led rainwater harvesting to be proposed as a
community facility. As for example, the small and medium residential and commercial
construction of United States has shown increasing interest in rainwater harvesting since
1996 (Choudhury & Vasudevan, 2003). Cities and states around the world are adopting
rules related rainwater harvesting, especially in United States (TWDB, 2005). The most
universal and critical services to a building, water supply reaches building through one
of the following three ways: piped supply, rivers and other water bodies and rainwater. It
is almost the only way to upgrade ones household water supply without waiting for the
development of community system. The acceptance of rainwater harvesting will expand
rapidly if this method is treated like other building services and if designed into the
structure instead of being retro-fitted (Thomas, 1998).
35. 23
RESEARCH METHODOLOGY
Guided by the research objectives, the methodology of this research is divided into three
parts, namely Data Collection Procedure, Data Analysis, Results.
Data Collection Procedure
Data was collected of chemical composition of groundwater and rainwater from
secondary sources. Sources of these secondary data were research papers/govt. water
reports on water chemistry of:
o China (Li et al. 2005 & Hao et al. 2006))
o Brazil (Piranha et al. 2006)
o USA (Kilmas, 2006 & US gov. doc)
o Palestine (Al-Ghuraiza & Enshassi, 2006)
o Portugal (Stigter et al. 2006)
o India (Sarin, 2005)
o Nigeria (Adeniyi & Olabanji, 2005, Yair et al. 1991, Yazlz et al. 1989)
Research reports and studies on water resource management and supply system,
Rainwater chemistry etc. from countries around the world including Bangladesh
provided the necessary qualitative and quantitative data for the rainwater quality analysis
and its prospect for potability.
Data Analysis
Summarizing the rainwater chemistry data and comparing them to EPA standard, one-
sample T-test was conducted having the EPA standard values as test value (except for
two case where the rainwater values are compared with ground water values; because
suitable value was unavailable in the EPA standard)
36. 24
Results
The quality of rainwater does not meet the WHO guidelines for drinking water quality,
particularly for bacteriological quality. Contaminants like bird droppings etc., and air
pollution results in higher levels of chemical constituents. Also, acid rains have a serious
effect on the water quality (sulphuric constituents). However, rainwater is a considerable
improvement over unprotected traditional sources and stored rainwater maintains a good
water quality provided proper maintenance of the tank. The direct/ indirect health
impacts include:
• Water-related illnesses are reduced (although household-based treatment is
recommended), particularly compared to water from surface sources. The
result is less sick days, increased economic activities, and savings in medical
expenses.
• Probable reduction in Malnutrition as rainwater used for vegetable and other
crop growing contributes to an improved diet.
• Improved sanitation and hygiene resulting from increased availability of
water can contribute to improved health.
• Reduced transportation of heavy loads over long distances from an early age
leads to reduced physical problems and growth reduction.
• Increased income streaming from productive uses of additional water that can
lead improved nutritional status, and a reduction in communicable diseases
due to improved home environmental conditions (better housing, ventilation
etc.) (Smet & Moriarty, 2001).
Collection and artificial infiltration of roof runoff water has become very popular in
many countries including Switzerland to prevent overloading of sewer systems and to
ensure sufficient groundwater recharge underneath sealed urban areas. However, lack of
knowledge concerning the quality of roof runoff, with respect to the presence of
37. 25
pesticides is still a concern. Study shows that in rain and roof runoff, maximum pesticide
concentrations originating primarily from agricultural use occurred during and right after
the application periods. Moreover, it is revealed that a major portion of the compounds
washed out from the atmosphere may actually penetrate to the groundwater, particularly
when the roof runoff is infiltrated directly into highly permeable zones of the subsurface.
However, although in some cases rain and roof runoff waters does not meet European
Union and Swiss drinking water standards (100 µg/L), the groundwater contamination
potential of the pesticides originating from the atmosphere can be considered of equal or
even smaller importance as compared to their direct use in agriculture. The
investigations also show that leaching of pesticides used as construction chemicals on
roofs, may be a much more significant source of organic pollutants present in roof
runoff. (Bucheli et al., 1998).
The analysis of the T-test, reported in Table 3, strongly suggests that except for the
amount of Total coliform, chemical composition of rainwater is within the safe range to
be used as potable water. To use it as potable water, the total coliform i.e.
microbiological contaminants has to be purified. Comparing different purification
methods used home and abroad several options were found: Evaporation, Solar
disinfection, Chlorination etc. Considering the cost, availability and effectiveness,
chlorination seems to be the most appropriate one to use for this purpose.
38. Table 3
Rainwater chemistry
Parameter Test type Degree of Mean Test Significance Conclusion
Freedom value (2-tailed)
P<=0.05
pH value One sample T 6 6.4986 6.5 0.996 pH value of rainwater is not significantly different
test than the EPA standard value
Total One sample T 1 0 0.023 Total coliform in rainwater is t significantly higher
805.00
Coliform test than the EPA standard value
Fecal One sample T 1 0 0.197 Fecal coliform in rainwater is not significantly
175
Coliform test different than the EPA standard value
Total One sample T 4 48.656 500 0.00 TDS in rainwater is significantly lower than the
Dissolved test EPA standard value
Solids
Hardness Paired sample 1 10.15500 Compared 0.00 Hardness in rainwater is significantly lower than
T Test with groundwater
Ground
water
Iron One sample T 2 0.1893 0.3 0.362 Iron in rainwater is not significantly different than
test the EPA standard value
Sulphate One sample T 4 19.136 250 0.00 Sulphate in rainwater is significantly lower than
test EPA standard
Sodium One sample T 4 4.05 200 0.00 Sodium in rainwater is significantly lower than EPA
test standard
Chloride One sample T 5 15.1283 250 0.00 Chloride in rainwater is significantly lower than
test EPA standard
Carbonate Paired sample 4 349.384 Compared 0.02 Carbonate in rainwater is significantly lower than
T Test with groundwater
Ground
water
Nitrate One sample T 2 4.6967 10 0.330 Nitrate in rainwater is not significantly different
test than the EPA standard value
26
39. 27
Cost Benefit Analysis
Review of the related literature provided the first step to understand the various methods
or rainwater harvesting practiced all over the world including all indigenous practices of
Bangladesh. Similar cases with sustainable solution from countries with similar context
were the key literatures as well data sources so as to provide better understanding to
project a suitable solution. In addition, these literatures provided the comparative images
of the rainwater harvesting solution practiced in different places so as to choose the user
friendly solution and their detail elements for the urban areas of Bangladesh. Feedback
from the local municipality water supply authority and related government supplied
information about the cost of rainwater harvesting tools, materials and installation for the
residential apartments of Dhaka Bangladesh.
At present the WASA (Water and Sewerage Authority) charges taka 5.25 per 1000 ltr
i.e. 19.89 taka per 1000 gal. For the chosen building the water consumption of the
building is 50% dependent on Rainwater. So the monthly savings in water bill will be:
MC (gal) X Cost (taka/gal) X Dependency (%) X Tax (%).
60880 gal X 19.89 taka/1000 gal X 50% X 15% = 90.85 taka/ month
This number becomes 181.71 taka/month when the building becomes totally dependent
on rainwater. Needless to mention that rainwater will also save the additional taxes and
fees charged by the city authority with the water bill. It becomes economic to install the
system during the construction of the building as it saves material and labor cost. The
total cost of RWH system comprises three major elements be it for a new building or for
an old one:
40. 28
1. Gutters and Downpipes
2. Storage Tank
3. Devices
The construction of an underground cistern is strongly facilitated by the foundation
construction of a multi storied residential building, so it almost adds a minimum amount
of cost for the construction of the storage tank. To be specific, the basement slab and
foundation walls are already there for the building itself; all it needs for the storage tank
is to construct walls to define the volume and boundary of the tank, the cost of which is
very negligible comparing to the total construction cost. Still, to calculate the cost per
gallon of the rainwater, the following detail is done:
Minimum construction Cost/Sqft = Taka 1000.
Volume of the harvestable rainwater = 255,178.52 gal = 34,064.69 cuft
Assuming a ceiling height of 9.33 ft, the minimum floor area for the storage tank is
3651.09 Sqft. So, for 3651.09 Sqft, the construction cost will be Taka 3,651,092 i.e. $
52158.45 ( $1 = Taka 70.00). The unit cost becomes TK 14.28/gallon or US$
0.20/gallon. Also for the gutters and pipes, the quantity of the rainwater gutters and
downpipes are less than 5% of the total plumbing and sanitary pipes. The only cost to
handle is for the devices required for the purification of the water which are: Chlorinator
with price ranging from $1000-$2500 (RHPL, 2007), and De-chlorinator All these
prices are in US dollars which is much less in the local currency of Bangladesh.
Suggested by (MH and PWD (2002), 1% chlorine solution is required to add with
harvested water after each rainfall incidence with an aimed concentration of 50 mg
chlorine per liter of rain water. Since labor cost is cheap in Bangladesh, this method is
more suitable compared to the price of the Chlorinator devices.
41. 29
The integration of the RWH installation task in the construction schedule will take place
in several stages. Figure 7 explains that most of the additional gutter and piping works
will take place in an early and mid stages depending on the type of building and its
construction. For the selected case, the storage tank is located in the semi-basement,
which is involved in the foundation task. The later stages are self explanatory:
1. Foundation: Construction of storage tank in case of underground storage.
2. Plumbing Rough-in: installation of rainwater down pipes and gutters.
3. Roofing: Installing appropriate finish material and down pipes.
4. Plumbing Trim: Connecting the RW supply pipes to appliances and outlets
5. Exterior Landscaping: Connecting catchment area to the gutters and filtration
devices.
42. 30
Proposed RWH System
Guided by the literature review, a rainwater harvesting system in urban environment
consists of:
• Roof Catchment
• Gutters and Downpipes
• First flush device
• Filter chamber
• Chlorination chamber
• Dechlorinator
• Storage tank(underground /overhead)
• Water Pump/Supply system
Roof Catchment
Catchment includes rooftops, compounds, rocky surface or hill slopes or artificially
prepared impervious/semi-pervious land surface. For the selected building, rooftop is
considered as the catchment area as there is no other effective catchment area. Rooftop
of different materials like aluminum sheets, plastic sheets, concrete, shingles etc. can be
used. The runoff coefficient depends on the rooftop material as shown in table 4.
General values are tabulated below in table 4, which may be utilized for assessing the
runoff availability (Pacey & Cullis, 1989).
44. 32
Table 4
Runoff coefficients
Type of catchment Runoff coefficient
Roof Catchments 0.8-0.9
• Tiles 0.7-0.9
• Corrugated Metal Sheets
Ground surface coverings 0.6 - 0.8
• Concrete 0.5 – 0.6
• Brick Pavement
Untreated ground catchments 0.0 - 0.3
• Soil on slopes less than 10 percent 0.2 – 0.5
• Rocky natural catchments 0.05 - 0.10
• Green area
Gutters and Downpipes
Gutters and down pipes of different materials like PVC pipes, G.I pipes, ferocement
pipes, wooden pipes can be used for gutters. Depending on the intensity of the rainfall
(inch/hr), the sizes of the pipes are determined. Table 5 illustrates the dimesions
depending on rainfall intensity. It is recommended to keep the dimension 10-15% more
than the required one (MH and PWD, 2002).
45. 33
Table 5
Piping dimensions (Stein & Reynolds, 2000)
Highest rainfall (inch/hr)
3
Pipe 1 2 4 5 6
diameter Area (sqft)
725
2 2176 1088 544 435 363
2147
3 6440 3220 1610 1288 1073
4613
4 13840 6920 3460 2768 2307
8373
5 25120 12560 6280 5024 4187
6 40800 20400 13600 10200 8160 6800
29333
8 88000 44000 22000 17600 14667
First Flush Device
In a first flush device a separate vertical pipe is fixed to the rainwater down pipe using a
"T" junction or similar as shown in the figure below. The initial flush of rainfall
(containing the majority of the contaminants) running off the roof washes into the ‘first
flush down pipe’ or into lower chamber where it is retained. When this chamber
becomes full, the floating ball seals the chamber and the continuing water flows down
the collection pipe into the storage tank. The water containing contaminants in the first
flush pipe or chamber can be used for other purposes besides drinking (e.g. outdoor
cleaning, washing, gardening etc) depending on its quality.
46. 34
Figure 7: First Flush Device (RHPL, 2007)
Filter Chamber
To get rid of solid particles (leaves etc.), wire mesh filter at down pipes are used. But the
best way to clean the rainwater from solid particles is to use the multilayered filter,
proposed by Dr. Hussam, composed of five layers of aggregates. The detail Components
of the filter is explained in next chapter. The SONO filter, invented by Abul Hussam (an
associate professor in the department of chemistry and biochemistry at George Mason
University, Fairfax, Varginia), is now manufactured and used in Bangladesh. Other than
the filter, locally produced installation materials and equipments are available all over
the country.
Chlorination Chamber
After each consecutive rainfall all the stored rainwater should be chlorinated. But for this
a separate storage tank is required which requires extra cost of construction which can
easily be invested in a pump type chlorinator. Various methods are available for
47. 35
continuous chlorination of a private water supply (Mosely, 2005). Adding small
quantities of chlorine manually to the water tank is the cheapest and most effective
means of disinfection. Chlorine can be added in various forms such as common
household bleach. Different bleaches have different levels of active ingredient. The
amount of bleach to add, based on a 4% active ingredient, is shown in the table 6 relative
to the amount of water in the tank.
Table 6
Chlorine composition
Volume of water in Litres Amount of bleach to add (mL with 4% active ingredient)
1000 125
2000 250
3000 375
4000 500
5000 625
6000 750
71000 875
8000 1000
9000 1125
10000 1250
11000 1375
12000 1500
As shown in the figure 8, the injection device should operate only when water is being
pumped, and the water pump should shut off if the chlorinator fails or if the chlorine
supply is depleted. A brief description of common chlorination devices follows. A
positive displacement or chemical-feed device, it adds small amount, of chlorine to the
water, the dose of which is either fixed or varies with water flow rates. Chlorine is drawn
into device then pumped to water delivery line.
48. 36
Figure 8: Pump Chlorinator Figure 9: Injector Chlorinator
In figure 9, an injector or aspirator chlorinator is shown which is simple and
inexpensive in mechanism. It requires no electricity and it works by the vacuum created
by water flowing through a tube which draws chlorine into a tank where it mixes with
untreated water
Figure 10: Electric Chlorinator Figure 11: Dechlorinator
49. 37
Dechlorinator
This device removes the excess chlorine and improves the taste. It can be installed with
the pipe that goes to apartment from the storage tank. Different varieties are available in
the market.
Storage Tank (underground and overhead)
Both overhead and underground storage tank can be constructed using different
materials. Different types of overhead tanks are available in the market of different
standard sizes. For both the type, most commonly used materials are:
• Cement concrete storage tank
• R.C.C storage tank
• Precast R.C.C storage tank
• Ferocement storage tank
• G.I storage tank etc.
Sizing of Storage Tank
Detail Information of a residential apartment building was collected for the research.
Following are the details of the chosen case:
• Site area: 7331 sqft
• Built area: 5614 sqft
• Total no. of floors: 6
• 1 Semi-basement
• 1 Elevated Groundfloor
• 4 typical Apartment Floor with 4 units/floor.
• Household size: 5 persons/ unit (Ferdausi & Bolkland, 2000).
50. 38
• Parking area 7145 sqft
Sizing Formula
Following the procedure proposed by Choudhury (2007), the size of the storage tank is
determined for the chosen case:
Step 1: Determine monthly water consumption:
Daily requirement in gallons/person, GPPD= 25 gal/ person/day
No. of persons, N = 80
Total daily consumption in gallons, DC = N*GPPD = 2400 gal/day
Total monthly consumption in gallons, MC=DC*30.44= 60880 gal/month
Step 2: Determine critical rainfall
Determine catchment area in sqft., A = 5452.53 +585.74 = 6038.27 sqft
Determine runoff factor, for concrete roof ROF= 0.9 (Pace & Cullis, 1989)
Determine critical rainfall in inches per month,
CRF=MC*12*8.33/ A*ROF*62.4= 17.95 inch
Step 3: Determine total amount of rainwater available in a year
Find out mean annual rainfall, ARF= 7.7 inch
Find out monthly factors of insufficiency for 5 years, MFI
Add the MFI’s to determine yearly factors of insufficiency, YFI= 6.85, 7.42, 8.08, 8.29,
8.30.
Determine maximum factor of insufficiency, YFImax
Determine monthly supply required, TS=YFImax = 8.30
Step 4: Determine storage factor, SF
51. 39
Use 1 if water supply is completely dependent on rainwater. Here the dependency is
assumed to be 50%. There fore, SF = 0.5
Step 5: Determine leakage factor, LF. Use LF = 0.01 if the material used for the
cistern is concrete.
Step 6: Calculate storage volume in gallons, Vgal = MC*TS*(1+LF)*SF
= 60880 gal*8.30*(1+0.01)*0.5 =255178.52 gal
Step 7: Calculate storage volume in cubic feet, Vcft = Vgal*8.33/62.4 =
34064.6967 cft.
So, for an apartment building with a typical floor height of 9’-4”, the dimension of the
underground storage tank would be:
3651.09 sqft (area) X 9.33 ft (height) = 34064.69 cubic feet.
For the chosen building, the available area for the cistern is on the basement floor, which
consists of 4732.62 sqft area with 9.33 ft height, and 868.62 sqft are with 4.33 ft height.
So the maximum storable volume of water:
(4732.62 X 9.33) + (868.62 X 4.33) = (44164.6 + 3761.12) cft = 47925.80 cft
Computer Program
To create an application that can be used by user group for calculation of the RW
volume and water conservation, a program is created using Microsoft Visual Basic. The
detail steps of the RW cistern volume calculation provided the basis of the logic for the
52. 40
calculating controls of the program. Example of logics for a specific control is provided
in figure 12:
Private Sub Button5_Click(ByVal sender As System.Object, ByVal e As System.EventArgs) Handles
Button5.Click
MC = TextBox4.Text
TS = TextBox8.Text
SF = TextBox9.Text
LF = TextBox10.Text
storagevolume = MC * TS * (1 + LF) * SF * 0.01
SV = (storagevolume * 8.33) / 62.4
TextBox11.Text = storagevolume
TextBox12.Text = SV
Figure 12: Programming Logic
Also the cost benefit analysis is used to get the amount of saving per month and per
annum. This programm can be used in any context to assess the pheasibility of RWH,
choose appropiate material etc. using the local monthly rainfall information, User
preferences and water supply cost. Further reasearch will guide to add more controls to
make the program user friendly and educative. The final result is shown in figure 13 and
14.
54. 42
Figure 14: Rainwater Calculator
Development of a Teaching Tool
Visualization
A rainwater harvesting is composed based on the data analysis including the details of
materials, installation techniques and maintenance as described in the texts below. The
plans of the multistoried apartment house was obtained form the responsible
Architectural firm on which the solution was applied and a 3D model of this plan along
with the solution was developed using Sketchup. An animation was also developed using
the same software to show the details of rainwater harvesting process.
56. 44
Figure 17: Catchment Area
Roof Catchment
The roof catchment of the building is 5452.53sqft and the roof top of the staircase is
585.74 sqft which makes it 6038.27 sqft in total. Assuming the concrete rooftop will be
finished by paver block/tiles, the runoff coefficient of 0.9 is used here.
57. 45
Gutters and Downpipes
It is assumed that it rains with an intensity of 4 inch/hr. the rooftop catchment area for
the apartment building is 6038.27 sqft. So following the table 5, pipes with a radius of 5
Inches will be required. Estimating 15% more than the requirement, the dimension
becomes: 5.75 inches i.e. 6 inches.
First Flush Device
For this device, a minimum design criterion is that the device should divert the first 0.5
mm of the rainfall (Mosely, 2005). To calculate the volume of water needed to be
diverted, multiply the length and width of the house or collection surface (in metres) by
0.5 (mm):
Required volume of diverted water (L) = house length (m) * house width (m) * 0.5 (mm)
For the chosen building, (21.9m X 23.77m house size, diverting 0.5 mm rain), a first
flush volume of 0.26 cubic meters i.e. 9.18 cft i.e. 68.70 gal should be diverted.
Filter Chamber
Following the model of Dr. Hussam, in a metal container, five layers are placed on top
one another to form this filter. A metal sheet with holes of 1 cm diameter is placed at the
bottom of the container. The materials that are used in different layers are:
58. 46
Figure 18: Filtration Device
Layer 1: large gravels in 40 mm layer, gravel size ranging from 12mm-14mm. Porous
graves shouldn’t be used
Layer 2: 30 mm thick layer of large strong flakes, dried skin of coconut etc. size ranging
from 6-8 cm.
Layer 3: 80 mm thick layer of precleaned sand (grain size ranging from 1-3 mm).
Layer 4: a second layer of flakes, 30 mm thick.
Layer 5: last layer of large gravels of 80 mm size.
After passing through this filter, the rainwater is ready to be used for gardening, outdoor
cleaning, toilet flushing, house cleaning etc. But to make this water potable, it has to
purified by chlorination
59. 47
Chlorination Chamber and Dechlorinator
Guidelines provided in the proposed RWH system is followed for the Chlorination
chamber and Dechlorinator.
Storage Tank (underground)
Figure 19: Storage Volume
For the selected building the foundation of the building is used for the purpose. The
available storage tank area is 4536.44 sqft. Concrete slab and walls are used for the
construction whereas other necessary elements are:
• Manhole for cleaning and maintenance
• Overflow pipe for the excess water connected to the drainage pipes.
• Should be connected to a power driven pump to supply water to the apartments.
Because of the interrupted municipality water supply, all the apartments in the
study area are facilitated with water pumps as the underground storage tank is
filled when water supply is available and then pumpd into the overhead storage
tank to supply to the individual units. So, the water pump does not add a cost into
the rainwater installation (MH and PWD, 2002).
60. 48
SUMMARY AND CONCLUSION
Figure 20: Catchment and Storage
The solution developed and expressed in programming and visualization can be a
comprehensive and effective tool for learning and designing rainwater harvesting
solution both for the user and for the professionals in the building industry of
Bangladesh. Under the guidelines, using the local water demand and rainfall, a rainwater
water harvesting method can be designed even for a different location. The water
conservation calculation in monetary terms as well as the estimate of the installation cost
will provide the owners, builders as well as the users with the freedom to choose the
option reviewing their own buildings to save more. This will serve more for the
Industrial Projects where the buildings are associated with large tilted roof, which will
harvests the rain water in huge amount. Further research can be done on the creation of
61. 49
animation with more details. Along with that, the City Government can use this research
as a guideline to calculate the possible amount of supply water conserved by the
rainwater harvesting as well as the decrease in load on the ground water to advocate this
method to be included in housing policy. The results can be an effective teaching tool for
the fields like Sustainable Architecture, Water Conservation, Green building etc where
alternative technologies like rainwater harvesting are getting more and more importance.
Recommendations
1. Further Research: Although data from secondary sources were used for this study
to assess the potability of rainwater, physical experiments should be executed for
the rainwater collected from the study area to have the respective chemical
composition, which will feed into the decision making stage. Also, no research
was done on the volume of First Flush with respect to intensity of rainfall,
location and time. Determination of an effective First Flush volume will
definitely increase the credibility of rainwater to be chosen as an alternative
technology
2. Promotion and Education: providing the cost benefit scenario of rainwater
harvesting system comparing the social, economic and environmental gains.
3. Formulation of Government policies such as Tax incentive for energy
conservation (water, electricity etc.) in individual household, etc.
4. Pilot study through community involvement: execution through the local
government and NGO participation.
At national scale, rainwater conservation plans and policies can be formulated to handle
water crisis and flood issues of the nation. Feedback from different region and
communities of the country is essential to make these plans comprehensive and need
based. For an example, making the existing water bodies deeper to increase the storage
62. 50
capacity during the monsoon will not be suitable to areas where the existing water table
is very high or all the water bodies are highly arsenic contaminated. Also application of
local technology and material will be different depending on the regional production. To
implement these policies, water management projects can be formulated (and awarded as
professional assignment) at organizational level including rain water harvesting system.
For implementation, private organizations can be engaged with projects to promote,
educate, and involve communities for rainwater harvesting practice (this will also relieve
the government from taking risk with public funds). Then with the help of these
organizations, local government can develop cooperative system to maintain, monitor
and ensure the aimed benefit of rain water harvesting. However, the achievement of
sustainability starts forms individual household practice that adds up to the national level
contributing the water consumption demand, alternatives to arsenic contamination, flood
control and ground water recharge.
Rainwater harvesting at a household (be in the rural or urban area) improves the
affordability of water consumption, irrigation and drainage facility of the site and
structure. At the community level this practice contributes to the local/regional
geography and water resources developing the socioeconomic condition of the area
(through new job opportunities associated with rainwater harvesting technology, female
citizen involvement etc). At national level, the output is much more visible in poverty
alleviation (rain water harvesting for mass irrigation resulting in better agricultural
production and thus national economy, development of public health and hygiene). The
out come of the policies framed at national level can be compared to similar
international cases for correction, up gradation and development. Also similar cases in
different nation can be collaborated in a combined project where the socioeconomic
development aims at a global perspective; individual economic development of each
nation (through rain water harvesting) contributes to global water crisis, independence
from foreign donations. End results as shown in figure 21 lead to global sustainability.
63. 51
Global
• Underground water
recharge: global • National water
situation management plan
• Poverty alleviation • Public health (arsenic
• Economic National policy contamination):
development alternative solution
• Flood management
• Poverty alleviation
• Savings in water bills Institution/
• Alternative water source Organization
• Urban flood and water
Community logging solution
• Independent water
management
cooperative
• Female participation
• Economic irrigation for Site
individual site
• Lower volume of runoff,
independence from street
water clogging
Structure
• Savings in water bills
• Alternative water source
Individual • Improved Lifestyle
Figure 21: Scales of Sustainability
64. 52
REFERENCES
Adeniyi, I. F. and Olabanji, I. O. (2005). The physio-chemical and bacteriological
quality of rainwater collected over different roofing materials in Ile-Ife, southwestern
Nigeria. Chemistry and Ecology, 21(3), 149–166.
Alegre, N., Jeffrey, P., McIntosh, B., Thomas, J. S., Hardwick, I. and Riley, S. (2004).
Strategic options for sustainable water management at new developments: the
application of a simulation model to explore potential water savings. Water Science and
Technology, 50 (2), 9–15.
Al-Ghuraiza, Y., Enshassi, Adnan. (2006) Customers’ satisfaction with water Supply
Service in the Gaza Strip. Building and Environment 41, 1243–1250.
Appan, A. (2000). A dual-mode system for harnessing roofwater for non-potable uses.
Urban Water, 1(4), 317-321.
Ariyabandu, R. (1991). Rainwater cisterns- a new approach to supplement the rural
water supply system in Sri Lanka. Proceeding of the Conference on RWCS (5th intl.).
[WWW document]. URL
http://www.eng.warwick.ac.uk/ircsa/abs/5th/607ariyabandu.htm.
Ariyabandu, R. De S. (2003). Very-low-cost domestic roofwater harvesting in the humid
tropics: its role in water policy. DFID Kar Contract R783, Report R4, Prepared By,
Lanka Rainwater Harvesting Forum.
Bangladesh Bureau of Statistics (1997). Statistical year book of Bangladesh. Ministry of
Planning, Govt. of People’s Republic of Bangladesh.
65. 53
Boers, Th. M. and Ben-Asher, J. (1982). A review of rainwater harvesting. Agricultural
Water Management, 5 (2), 145-158.
Branco, A. D. M., Suassuna, Joa O and Vainsencher, S. A. (2005). Improving access to
water resources through rainwater harvesting as a mitigation measure: the case of the
Brazilian semi-arid region. Mitigation and Adaptation Strategies for Global Change, 10,
393–409.
Bucheli, TD., Mueller, SR., Heberle, S., & Schwarzenbach, RP. (1998). Occurrence and
behavior of pesticides in rainwater, roof runoff, and artificial stormwater infiltration.
Environmental Science & Technology. 32(22), 3457-3464.
Chilton, J.C., Francis, A., Maidment, G.G., Marriott, D., & Tobias, G. (2000). Case
study of a rainwater recovery system in a commercial building with a large roof. Urban
Water, 1(4), 345-354.
Chlorine Chemistry Council American Chemistry Council (2006). Drinking water
chlorination: a review of disinfection practices and issues [WWW document]. URL
http://www.americanchemistry.com/s_chlorine/doc.asp?CID=1133&DID=4490. Also in
Water Conditioning and Purification International, 2, 68-75. Retrieved on June 15,
2007.
Choudhury, I. (2007). Rainwater harvesting. [WWW document]. URL
http://www.tamu.edu/classes/cosc/choudhury/rain/sld001.htm.
Choudhury, I & Vasudevan, L. (2003). Factors of biological contamination of harvested
rainwater for residential consumption. Hawaii International Conference on Social
Sciences. Honolulu, Hawaii: University of Hawaii. June 2003. [WWW document]. URL
http://www.watercache.com/docs/rwquality1.pdf.
66. 54
Efe, S. I. (2006). Quality of rainwater harvesting for rural communities of Delta State,
Nigeria. Environmentalist 26, 175–181.
Ferdausi, S. A. & Bolkland,M. W., (2000). Rainwater harvesting for application in rural
Bangladesh. 26th WEDC Conference. Dhaka, Bangladesh, 2000. [WWW document].
URL http://www.lboro.ac.uk/wedc/papers/26/A%20-%20Water%20Resources/ferdausi-
1.pdf.
Fewkes, A. (2000). Modeling the performance of rainwater collection systems: towards
a generalized approach. Urban Water, 1(4), 323-333.
Gould, John. (2007). Contributions relating to rainwater harvesting. [WWW document].
URL http://www.dams.org, http://www.wca-
infonet.org/servlet/BinaryDownloaderServlet?filename=1067009195199_harvesting.pdf.
Gumbo, B. (1998). Rain water harvesting in the urban environment. options for water
conservation and environmental protection in Harare. Paper presented at a National
Conference, Masvingo – Zimbabwe, Rainwater Harvesting-: An Alternative Water
Supply Source.
Guoju., Qiang Zhang , Xiong, Youcai., Lin, Miaozi., Wang, Jing. (2007). Integrating
rainwater harvesting with supplemental irrigation into rain-fed spring wheat farming.
Soil & Tillage Research 93, 429–437.
Hager, M. (2005). Low-impact development: lot-level approaches to stormwater
management are gaining ground. [WWW document]. URL
http://utilities.ci.columbus.oh.us/project/docs/LID%20lot%20level%20approaches%20st
ormwater_feb2003.pdf.
67. 55
Hao, R-X., Zhou, Y-W., Liang, P., Wang, M-M., Zhao, S-Q., and Ding, Y-Y. (2006).
Quality and stability analysis for the rainfall water and surface runoff water in southeast
region of Beijing municipality. Journal of Environmental Science and Health Part A, 41,
1293–1302.
Hatibu, N., Mutabazi, K., Senkondo, E.M., Msangi, A.S.K. (2006). Economics of
rainwater harvesting for crop enterprises in semi-arid areas of East Africa. Agricultural
Water Management, 80, 74–86.
Hatibu, N., Young, M.D.B., Gowing,J. W., Mahoo, H. F. and Mzirai, O. B. (2003).
Developing improved dryland cropping systems for maize in semi-arid Tanzania. part 1:
experimental evidence for the benefits of rainwater harvesting. Expl Agric. 39, 279–292.
He, X-F., Cao, H., Li, F-M. (2007). Econometric analysis of the determinants of
adoption of rainwater harvesting and supplementary irrigation technology (RHSIT) in
the semiarid Loess Plateau of China. Agricultural Water Management 89 ( 2007 ) 243 –
250
Hill, J. and Woodland, W. (2003). Contrasting water management techniques in Tunisia:
towards sustainable agricultural use. The Geographical Journal, 169, (4), 342–357.
Intermediate Technology Development Group, The (2000). Rainwater harvesting. KDG
1, 1-24
Jakariya, Md., Chowdhury, A. M. R., Hossain, Z., Rahman, M., Sarker, Q.,
Khan, R. and Rahman, M. (2003). Sustainable community-based safe water options to
mitigate the Bangladesh arsenic catastrophe – an experience from two upazilas. Current
Science, 85( 2), 141-146.
68. 56
Kabir M. R and Faisal I. M (1999) Indigenous practices of water harvesting in
Bangladesh. Proceedings of the regional workshop on traditional water harvesting
systems, organized jointly by ministry of Jahad-E-Sazandegi of Iran and UNESCO, Iran.
[WWW document]. URL http://www.uap-
bd.edu/cee/Bulletin/1.%20No%20Final%20KabirSir-2.pdf.
Kawamura, S. (2000). Integrated design and operation of water treatment facilities, 2nd
Edition. Toronto, ON Canada: John Wiley and Sons Inc.
Klimas, Algirdas and Plankis, Mantas. (2006). Identification of sources of chemical
constituents in groundwater from the Vilnius Wellfields, Ithuania. Hydrogeology
Journal (2006) 14, 785–794.
Konig, K. (2001). The rainwater technology handbook- rainwater harvesting in
building. Dortmund, Germany: Wilo-Brain.
Krishna, H. 2003. An overview of rainwater harvesting systems and guidelines in the
United States. Proceedings of the First American Rainwater Harvesting Conference;
2003 Aug 21-23; Austin (TX), 335-343.
Li, F., Cook, S., Geballe, G T. and Burch Jr., W R. (2000). Rainwater harvesting
agriculture: an integrated system for water management on rainfed land in China’s
semiarid areas. Ambio, 29 (8).
Li, S-L., Liu, C-Q., Tao, F-X., Lang, Y-C., and Han, G-L. (2005). Carbon
biogeochemistry of ground water, guiyang, southwest China. Ground Water, 43(4), 494–
499.