Assessment of Energy Efficiency in Pump Stations of Pressurized Irrigation Systems (Case Study: Qazvin and Kermanshah Provinces)
Subject Areas : Farm Managementحسن براتی 1 , محمدرضا خالدیان 2 , محمدحسن بیگلویی 3 , عاطفه پرورش ریزی 4
1 - دانشجوی آبیاری و زهکشی گروه مهندسی آب دانشگاه گیلان
2 - دانشیار گروه مهندسی آب دانشکده علوم کشاورزی دانشگاه گیلان و گروه پژوهشی مهندسی آب و محیط زیست پژوهشکده حوضه آبی خزر، رشت
3 - دانشیار گروه مهندسی آب دانشکده علوم کشاورزی دانشگاه گیلان
4 - استادیار، گروه آبیاری و آبادانی، پردیس کشاورزی و منابع طبیعی، دانشگاه تهران، کرج، ایران
Keywords: energy productivity, hydraulic efficiency, Electro-pump efficiency, mechanical efficiency, PSAT,
Abstract :
About 20% of the electricity produced in the world is consumed in rotary equipment for conveying fluids such as water, gas, air, and other liquids, while the loss of energy consumption in this sector is more than 60%. The aim of this study is to evaluate different efficiencies in the pumping stations in the pressurized irrigation systems to address low energy efficiency issues in the pump stations, and then finding proper solutions to increase it. In this regard, the electrical efficiency, hydraulic efficiency, and mechanical efficiency were determined in the studied pump stations. The total efficiency of each pump station was determined using those efficiencies. Pump station assessment tool (PSAT) software was used for modeling each station and predicting annual energy consumption costs; furthermore, the potential of increasing the efficiency was calculated. Results showed that the total efficiency of the studied pump stations ranged from 13 to 32% and averaged 24%. Factors, such as improper design, disproportion in terms of the operation conditions, and the design and improper operation caused a drop in efficiency of pump stations, and addressing these issues can improve the productivity of the energy consumption in the pump stations from 24 to 49%.
Amanlou, A., Akram, A., & Afsahi, K. (2011). Evaluation of pump stations efficiencies in solid-set sprinkle irrigation, case study: Zanjan Province. The first national congress on sciences and modern technologies in agriculture, 9-11 September. Faculty of Agricultural Sciences, University of Zanjan,Iran.
Amin, S., & Sepaskhah, R. (1996). Evaluation of energy loss in irrigation water pump station nearby Shiraz city. Final research report, Faculty of Agricultural Sciences, University of Shiraz, Iran.P. 40
Bohórquez, J., Saldarriaga, J., & Vallejo, D. (2015). Pumping pattern optimization in order to reduce WDS operation costs, 13th Computer Control for Water Industry Conference, CCWI, 2-4 September, De Montfort University, Colombia.
Fippes, G., & Neal, B. (1995). Texas Irrigation Pumping Plant Efficiency Testing Program, Department of Agricultural Engineering, Texas Agricultural Extension Service, Texas A &M University System, College Station, TX78843-2121, April, 122 pages.
Hill, R. (1999). Energy Conservation with Irrigation Water Management, Utah State University Extension, Paper 147, January, 9 pages.
Liu, X., & Xi., J. (2012). The method of energy saving in beam pumping unit based on genetic algorithm.AASRI Conference on Computational Intelligence and Bioinformatics, 1-2 July (PP. 441-447), Changsha, China.
New, LL. (1986). Pumping plant efficiency and irrigation costs, Department of Agricultural Engineering, Texas Agricultural Extension Service, College Station. TX. Pub No. L-2218, 122 pages.
Pumping System Assessment Tool)PSAT( (2000). Pumping System Assessment Tool user manual, Office of industrial technologies, U.S. Department of Energy, February, 24 pages.
Reynolds, LK., & Bunn, S. (2010). Improving energy efficiency of pumping systems through real-time scheduling systems, Integrating Water Systems. Taylor & Francis Group, London.
Rezvani, S., Jafari, A., & Amin, S. (2010). Efficiency and energy consumption in sprinkler irrigation pumping plants in some fields in Hamadan province. Journal of Agricultural Engineering Research, 11(4), 19-34.
Richards, A., & Smith, P. (2003). How much does it cost to pump? AGFACT NSW agriculture, E5.10, First edition, January, 6 pages.
Rogers, DH., & Black, RD. (1993). Evaluating pumping plant efficiency using on-farm fuel bills, Kansas State University, Irrigation Management Series, No. L-885, 9 pages.
Shayesteh, R. (2010). High potential for reducing energy consumption in pump systems. Tajhizat-Dawar-Parsi Consultation. 9 pages.
Weisser, D. (2007). A guide to life cycle Greenhouse Gas (GHG) emissions from electric supply technologies, PESS/IAEA, Austria.
Yates, A., & Maurice. (2006). Improving energy efficiency of pumping stations by sub-metering, Advanced Energy Monitoring Systems Ltd, United Kingdom, 7 pages.
Yiasoumi, B. (2003). Selecting an irrigation pump, AGFACT NSW agriculture, E5.8, 3rd edn, November, 6 pages.
Zabihian, J., & Amanlou, A. (2013). Evaluation of energy efficiency of water pumps in Zanjan Province of Iran. Agricultural Mechanization, 1(1), 1-9.