Discussion on Development of Gas-fired Heating,Power and Cooling Cogeneration System in ChinaCHAI Qin-hu1, GENG Ke-cheng1,2,FU Lin1,JIANG Yi1 (1.Tsinghua University,Beijing 100084,China;2.China Huadian Engineering Corporation,Beijing 100044,China)Abstract:By analyzing the energy-saving and environmental protection of gas-fired heating and power cogeneration system and gas-fired heating,power and cooling cogeneration system in China,it is pointed out that large-scale combined gas and steam cycle system is even more superior to medium-scale and small-scale gas-fired heating,power and cooling cogeneration system,and the energy-saving of gas-fired heating and power cogeneration system is still better than that of gas-fired cooling and power cogen-eration system.The application scope of medium-scale and small-scale gas-fired heating,power and cooling cogeneration system is discussed.Key words:gas-fired heating and power cogeneration system; gas-fired heating,power and cooling cogeneration system; energy-saving; environmental protection 随着天然气在中国的推广应用,燃气热电冷联产技术开始引起广泛的关注[1 7],这种技术可以充分利用机组的余热,因此系统的综合热效率较高,而且这种技术可以缓解城市用电高峰,实现城市燃气季节性峰谷差和电力负荷峰谷差的互补。对于燃煤热电联产,我国政府一直比较重视和支持的[8],但是对于燃气热电冷联产应该如何看待,目前学术界看法不一。
我们认为由于国情不同,中国的燃气热电冷联产技术只能在适当的场合适度发展,不宜盲目推广。在目前的技术经济条件下,应该优先考虑发展大型燃气热电联产系统,对于中小型燃气热电冷系统,应该持一个相对谨慎的态度。
1 燃气热电联产和热电冷联产的分析1.1 节能的比较 在分析我国燃气热电冷联产系统时,我们将比较的基准确定为热、电、冷全部由燃气分产的模式实现。电力由大型燃气蒸汽联合循环实现;热力由燃气锅炉实现;考虑到电制冷的效率远远高于吸收式制冷机的效率,采用电制冷。
按照这个基准计算后发现,中小型尤其是小型燃气热电联产系统的节能效果并不明显。一般而言,大中型燃气热电联产比燃气热电分产可节约能耗约10% 20%;对于小型燃气热电联产技术而言,由于机组原动装置的发电效率较低,其联产比分产节约能耗仅为3% 5%。
对于燃气冷电联产系统而言,冷既可以由冷电联产的电力
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