13 Items

The diversion of the Ganga into the artificial Upper Ganga Canal.

Wikimedia CC/Neerajpandeyin

Journal Article - Renewable and Sustainable Energy Reviews

Energy Generation in the Canal Irrigation Network in India: Integrated Spatial Planning Framework on the Upper Ganga Canal Corridor

| December 2021

An extensive canal irrigation network in South Asia has developed over the past 170 years that consists of thousands of kilometers of constructed channels and distributaries. These canals cut across many energy-poor regions along their paths. In India, this canal network provides a unique opportunity for renewable energy generation that is yet to be realized.

London Skyline and the Thames

Wikimedia CC/DAVID ILIFF

Journal Article - Water Science and Technology

Multi-objective Optimization of Energy and Greenhouse Gas Emissions in Water Pumping and Treatment

    Authors:
  • Iliana Cardenes
  • Mohammad Mortazavi Naeini
  • Jim W. Hall
| 2020

A large part of operating costs in urban water supply networks is usually due to energy use, mostly in the form of electricity consumption. There is growing pressure to reduce energy use to help save operational costs and reduce carbon emissions. This study shows how a hybrid linear and multi-objective optimization approach can be used to identify key energy consumption elements in a water supply system, and then evaluate the amount of investment needed to achieve significant operational gains at those points in the supply network.

irrigation canal

Wikimedia CC/Torbenbrinker

Journal Article - Nature Sustainability

Transboundary Cooperation A Potential Route to Sustainable Development in the Indus Basin

    Authors:
  • Adriano Vinca
  • Simon Parkinson
  • Keyhan Riahi
  • Edward Byers
  • Abubakr Muhammad
  • Ansir Ilyas
  • Nithiyanandam Yogeswaran
  • Barbara Willaarts
  • Piotr Magnuszewski
  • Muhammad Awais
  • Andrew Rowe
  • Ned Djilali
| 2020

With a rapidly growing population of 250 million, the Indus river basin in South Asia is one of the most intensively cultivated regions on Earth, highly water stressed and lacking energy security. Yet, most studies advising sustainable development policy have lacked multi-sectoral and cross-country perspectives. In this article, the authors show how the countries in the Indus basin could lower costs for development and reduce soil pollution and water stress by cooperating on water resources and electricity and food production.

The Minister of State (I/C) for Power and New and Renewable Energy, Shri Raj Kumar Singh

Ministry of New and Renewable Energy (GODL-India)

Journal Article - World Development

Urban Waste to Energy Recovery Assessment Simulations for Developing Countries

In this paper, a quantitative Waste to Energy Recovery Assessment (WERA) framework is used to stochastically analyze the feasibility of waste-to-energy systems in selected cities in Asia.

Stan Osserman, director of the Hawaii Center for Advanced Transportation Technologies, speaks in front of a new waste to energy facility at Joint Base Pearl Harbor-Hickam, Hawaii.

AP/Audrey McAvoy

Journal Article - Journal of Cleaner Production

Stochastic Cost-benefit Analysis of Urban Waste-to-Energy Systems

Municipal solid waste generation is a rapidly increasing challenge that is leading to severe pollution and environmental degradation in many urban areas of developing countries. This study presents the Waste to Energy Recovery Assessment (WERA) framework, a new quantitative decision support model for initial evaluation and alternative comparisons of different thermochemical treatments of municipal wastes. The framework is used to study waste-to-energy (WtE) systems for Abu Dhabi, Riyadh, Tokyo, and New York. The results show that WtE systems can fulfill only 1.4–3.6% of 2014 electricity demand in the analyzed cases.

Floating desalination unit "Hydriada" powered by wind and solar energy

Creative Commons

Journal Article - Renewable and Sustainable Energy Reviews

Towards Sustainability in Water-energy Nexus: Ocean Energy for Seawater Desalination

In this article, the authors review the state of the art of ocean energy in desalination. It explores different sources of energy from the ocean that include electricity generation, as well as mechanical force and thermal energy and salinity gradients that can also be directly harnessed for powering the desalination processes. They also examine recent advances in scaling up for commercial deployment and discuss relevant cost, environmental, and social concerns.

The agricultural fields in active use (dark green) or fallow (brown to tan), are approximately 1 km in diameter. Much of the Saudi Arabia's Wadi As-Sirhan Basin shown here is sandy (light tan to brown surfaces).

Wikimedia CC 2.0

Journal Article - Sustainable Production and Consumption

Food Security Amidst Water Scarcity: Insights on Sustainable Food Production from Saudi Arabia

Water, energy, and food security are of critical concern as rising population growth and rapid urbanization place greater pressure on our natural resources. This study evaluates the growing internationalization of food production in water-scarce countries using the case of Saudi Arabia as a microcosm to illustrate the tradeoffs in resource consumption associated with crop selection and farming practices.

Drain for irrigation by tube wells, Pakistan, Dec. 24, 2007.

Syed Usman Ali Photo

Analysis & Opinions - Express Tribune

The Water-Energy-Food Nexus of Pakistan

| February 13, 2014

"Crop production in the heartlands of Pakistan — served by a massive network of canals — now increasingly relies on energy consuming groundwater pumps to meet irrigation needs. A million tube wells are reportedly installed in Punjab alone, and energy use in pumping and farm operations may account for up to one-fifth of the province's energy consumption."

Journal Article - Energy Strategy Reviews

Bridging Decision Networks for Integrated Water and Energy Planning

Integrated policy and planning is needed to effectively meet the challenges of growing water and energy inter-dependencies in many regions. Joint consideration of both water and energy domains can identify new options for increasing overall resource use efficiencies. In order to identify and realize such opportunities, however, detailed knowledge of current and emerging water–energy couplings is needed along with a nuanced understanding of key actors and agencies engaged in decision-making. In this paper we develop a systematic, analytical approach based on quantitative analysis of water and energy couplings, identification and characterization of key actors and groups using concepts from stakeholders theory, and employing notions from organization theory of boundary-spanning agents that can serve to bridge inter-organizational networks for water and energy planning. We apply this approach to conduct an in-depth investigation of water and energy resources in Jordan.