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锅炉排烟余热深度回收利用节能改造工程实测分析 被引量:12

Measurement and analysis of boiler flue gas heat deep recovery in an energy efficiency reformation project
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摘要 应用防腐型烟气冷凝热回收装置对北京某供暖锅炉房进行了排烟余热深度回收利用节能改造,将烟气作为吸收式热泵的低温热源用于供热。工程跟踪实测表明,采用烟气冷凝热回收装置可将锅炉排烟温度从84~114℃降到27~43℃,提高燃气利用效率(单项节能率)7.2%~13.6%;回收的烟气余热中水蒸气凝结潜热占68%~84%;排烟温度平均每降低10℃,锅炉系统总热效率提高约1.0%~2.3%;单位容量(1t/h)锅炉每天产生0.8~3.0t/d的烟气冷凝水,可回收利用;烟气冷凝水对烟气有显著的净化作用。因此,锅炉低温烟气余热深度利用有较大的节能、节水、减排潜力。 Taking the flue gas as low temperature heat source of absorption heat pumps for heating, performs the energy efficiency reformation using the anti-corrosion type flue gas condensing heat recovery unit in a heating boiler room in Beijing. The field measurement results show that the exhaust gas temperature can be reduced from 84 - 114 ℃ to 27 - 43 ℃ with the efficiency of gas utilization (energy saving) increasing by 7%- 14% ; the latent heat of condensation of water vapor accounts for 68%- 84% of the recovered total heat; the energy saving rate is 1.4% -3.2% for each 10 ℃ dropping of smoke temperature; flue gas condensate water of 0.8 - 3.0 tons for recycling use is produced for 1 t/h of boiler capacity per day; moreover, the condensate water has a significant effect of flue gas purification. Concludes that, there is a huge potential for energy saving, water saving and emission reduction by reusing the waste heat of the low temperature flue gas.
作者 魏亦强 王随林 陈康 国玉山 侯那 潘树源 陈红兵 史永征
机构地区 北京建筑工程学院
出处 《暖通空调》 北大核心 2013年第4期59-63,99,共6页 Heating Ventilating & Air Conditioning
基金 北京市教育委员会科技成果转化与产业化项目(2012) 欧盟第七框架计划项目PEOPLE-2010-IRSES-R-D-SBES-R 北京市"供热 供燃气 通风及空调工程"重点实验室支持
关键词 烟气冷凝热 热回收 余热深度利用 节能减排 节水 flue gas condensing heat heat recovery waste heat deep utilization energy saving and emission reduction water saving
分类号 TU995 [建筑科学—供热、供燃气、通风及空调工程]
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2013年 第4期

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