Iraq, home of the Tigris and Euphrates rivers, has survived an extreme deficiency of surface water assets over the years. The gap is due to the decline of the Iraqi water share every year, as well as a high demand for water use from different sectors, particularly agriculture.Dam development has long given significant economic benefits to Iraq in circulating low‐priced electricity and supporting low‐income farmers by supplying them with a free irrigation system (Zakaria et al, 2012). This encouraged domestic consumption and investment.Despite the fact that numerous advantages are expected from dam construction, it should be painstakingly assessed, utilizing cost–benefit analysis before endorsement.This study aims to evaluate the capability of the Duyridge Dam in Maysan Governorate to harvest rainwater in Iraq and meet the local populations' needs as well as the geological, topographic, hydrological and economic requisites of water.The result indicates that the net present costs and net present benefits at a 10% discount rate are equal to US$18.8 million and US$20.2 million respectively, while the net present value is equal to US$179 000 and the benefit–cost ratio is equal to 1.08.Likewise, the results show that the internal rate of return is 11% and the payback of the project period is 5 years. The sensitivity analysis of the dam was estimated as well. © 2020 John Wiley & Sons, Ltd.
While traditional energy sources such as oil, coal, and natural gas drive economic growth, they also seriously affect people’s health and the environment. Renewable energies (RE) are presently seen as an efficient choice for attaining long-term sustainability in development. They provide an adequate response to climate change and supply sufficient electricity. The current situation in Iraq results from a decades-long scarcity of proper electricity, which has impacted various industries, including agriculture. There are diverse prospects for using renewable energy sources to address the present power crisis. The economic and environmental impacts of renewable energy systems were investigated in this study by using the solar pumping irrigation system and nanoparticle fertilizers on agri-food productions with the Farm Simulation FARMSIM model. The results show that using all REs with Carefree Water Conditioner for water treatment resulted in the highest net present value and profit compared to other scenarios. The findings, however, indicate that the All RE scenario (using a solar irrigation system with a nanoparticle fertilizer system, a low-cost technology) is the most feasible and has the highest benefit–cost ratio. Due to high initial investment costs, all traditional approaches (using traditional irrigation and fertilizer systems) had a lower benefit–cost ratio than the other scenarios. According to simulation results, all four scenarios are profitable and feasible for implementation.
Water pricing and substitution of the costs of irrigation investment operation and maintenance have been controversial issues for a long time. The small charges for irrigation water are addressed, and additionally, the low level of farmers who pay the costs. In a few schemes, expense accumulation rates are close to zero, notwithstanding when water charges are well beneath the cost of operation and maintenance. Water prices are charged to farmers for two essential objectives. The first is to cover the operation and maintenance estimation with the goal that the investment is fiscally practical. Much of the time, costs will likewise need to incorporate a price for the cost of capital required to develop the scheme. This charge for capital is fundamental for future irrigation system investment. The second reason involves estimation to help farmers utilize less water per unit of yield or to deliver more prominent net economic returns per unit of water, or both. This paper summarizes irrigation water pricing methodologies and the related academic literature. Three water pricing methods are presented: volumetric, non‐volumetric and water market. For each methodology, potential impacts on water usage are postulated and supported by a summary of the academic literature. In addition, a summarized case study of irrigation water‐pricing practices and effects in Iraq is presented. © 2018 John Wiley & Sons, Ltd.
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