Integrated Renewable Energy Solutions for Aquaculture Processing Enerfish
Integrated Renewable Energy Solutions for Aquaculture Processing Enerfish
摘要
The European Union Framework Programme 71 Enerfish project aims to demonstrate a new poly-generation application with renewable energy sources for the fishery industry in Vietnam. The fish processing plant under consideration can be made by energy self-sufficient when all fish waste oil is processed into biodiesel and further converted to electricity and heat (for cooling) in a CHP (combined heat and power) unit. The purpose of the present paper is to discuss the profitability of such plants in southeast Asia. The economic model shows that electricity production is, due to the low electricity tariff, uneconomical (except during electricity blackout), even if cogeneration heat can be utilized. This prompt a design of the plant whereby the necessary heat for the biodiesel process is taken from the waste heat produced by the compressors of a CO2 cooling system. According to the calculations and assumptions of the present study, the profitability of biodiesel production from fish cleaning wastes in Vietnam depends strongly on the market prices for fish waste and fish oil. Different business case scenarios are described.
参考文献15
-
1The production of fish meal and fish oil, FAO Fisheries Technical Paper- 142 [Online], 1986, http://www.fao.org/docrep/003/x6899e/X6899E00.HTM.
-
2Deliverable 3 of Enerfish project: Solution for energy integration/poly-generation for the integrated plant, Enerfish project [Online], FP7-ENERGY-2007-2-TREN, 2009, http://www.enerfish.eu.
-
3P.T, Vasudevan, M. Briggs, Biodiesel production-current state of the art and challenges, J. Ind. Microbiol Biotechnol 35 (5) (2008) 421-430.
-
4P. Jayasinghe, K. Hawboldt, A review of bio-oils from waste biomass: Focus on fish processing waste, Renewable and Sustainable Energy Reviews 16 (2012) 798-821.
-
5R. Behqet, Performance and emission study of waste anchovy fish biodiesel in a diesel engine, Fuel Processing Technology 92 (6) (2011) 1187-1194.
-
6C.Y. Lin, R.J. Li, Fuel properties of biodiesel produced from the crude fish oil from the soap stock of marine fish, Fuel Processing Technology 90 (1) (2009) 130-136.
-
7Deliverable 1 of Enerfish project: Optimization of energy systems in an integrated fish-processing plant, Enerfish project [Online], FP7-ENERGY-2007-2-TREN, 2009, http://www.enerfish.eu.
-
8The State of World Fisheries and Aquaculture, FAO, Rome, Italy, 2008.
-
9Fish meal and fish oil figures, SEAFISH Web site, 2010, http://www.seafish.org/.
-
10D.D. Guzman, Omega-3 fattens up, ICIS Chemical Business, 2009, Vol. 276, Issue 17.
-
1冉丽萍.热电联产国内外研究综述[J].科技信息,2009(18):327-327.
-
2李.欧盟研制更廉价快速的食品毒素检测技术[J].化学分析计量,2014,23(1):30-30.
-
3欧盟利用果汁饮料加工废弃物生产可降解塑料[J].中国包装,2015,35(3):91-91.
-
4欧盟利用果汁饮料加工业废弃物生产可降解塑料[J].发酵科技通讯,2014,43(2):26-26.
-
5欧盟研发出可降解塑料技术及生产工艺[J].中国食品工业,2014(3):9-9.
-
6欧盟埃及加强太阳能技术领域的科技合作[J].创新科技,2012(10):43-43.
-
7解菲.欧盟利用果汁饮料加工废弃物生产可降解塑料[J].食品开发,2014(2):76-76.
-
8欧瑞康太阳能牵头欧洲能源委员会基金研究项目[J].电子与电脑,2010(12):104-105.
-
9张铛锋,杨雕.发展高参数大容量发电机组和糖厂热电联产分析[J].甘蔗糖业,2007,36(2):53-54.
-
10到2040年世界上一半的能源可再生[J].国际水力发电,2004(3):50-51.
