共查询到20条相似文献,搜索用时 49 毫秒
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本文对稠油油田注汽锅炉余热利用潜能进行了分析,探讨了回收烟气余热的必要性。对注汽锅炉烟气余热回收方式进行了研究,提出了注汽锅炉烟气余热回收的方案。经现场实施和测试,分析证实了注汽锅炉烟气余热回收的效果。 相似文献
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传统热力供热行业是CO2排放的大户,能源的深度利用是实现"双碳"目标的有效途径之一.着重从低温烟气余热回收的角度出发,分析了低温烟气余热回收的现状,介绍了现状下不同技术路线烟气余热回收的原理.以喷淋换热低温烟气余热回收供热技术为例,结合实际工程案例,分析了实际运行数据.结果表明,采用喷淋换热进行烟气余热回收供热的技术可... 相似文献
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探讨烟气余热回收设计的几个关键问题,包括余热资源调研、余热资源分析、余热利用原则、余热利用方案、方案评价等。在烟气余热回收设计中落实好上述关键问题,烟气余热能得到更合理的有效利用,避免热能的贬值、无效利用。 相似文献
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以热力学为指导,通过利用高效的传热技术与吸收式热泵技术的耦合,对低位烟气余热“质”和“量”分控回收,可实现低位烟气余热的深度回收与梯级利用.应用于高水蒸气含量的燃油、燃气设备的烟气余热回收,不仅回收显热,还深度回收其潜热,综合效益最佳.高效的传热技术可减小余热与利用介质间的传热温差而减少传热过程的不可逆损失是最为核心的技术问题,对其进行分析探讨,有利于高效、节能、环保的低位烟气余热深度回收与利用技术的发展. 相似文献
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本文介绍了热管的基本原理,对锅炉烟气余热回收系统进行了设计与实施,对余热理论回收效果进行了分析并与实际效果进行了对比。结果表明:热管换热器在锅炉烟气余热综合回收利用效果好,降低了燃料消耗,具有较好的经济效益与环保效益。 相似文献
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A heat pipe heat exchanger (HPHE) was used to investigate the heat transfer performance of steam-air mixture condensation, analogous to the dew condensation of flue gas, when the steam volume fraction ranged from 0 to 20%, and the inlet temperature of steam-air mixture varied from 70 to 120°C. Self-assembled monolayers (SAMs) treatment with n-octadecyl mercaptan was adopted to modify the condensation surface of the heat pipe. The comparisons were conducted to examine the influence of SAMs on condensation heat transfer of steam-air mixture vapor. The results indicate that the convection condensation heat transfer coefficient increases with the increase of steam volume fraction and Re number of the steam-air mixture. As the inlet temperature increases, the heat transfer coefficient decreases accordingly. The heat transfer performance can be improved by the SAMs surface, with a heat transfer enhancement ratio up to 1.6 at a condition of 20% of the steam volume fraction and 1500 Re number. 相似文献
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介绍了管壳式换热器的换热管强化传热技术,分析了各自的原理、优缺点及推荐的使用场合。采用节能技术的换热器不仅提高了能源的利用率,而且减少了金属材料的消耗,对化工行业提高经济效益具有重要意义。 相似文献
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利用工业低品位余热的高温热泵供暖系统 总被引:1,自引:0,他引:1
实现建筑节能目标任重道远,传统的燃烧矿物质燃料的锅炉供暖方式不仅浪费能源,而且严重污染环境.这里介绍一种全新的利用工业低温余热的高温热泵供暖方案.它不仅使供暖环境实现零污染,而且运行费用是目前各供暖费用中最低的.这种方式必将是我国北方城市热网的最有效的补充. 相似文献
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The present investigation reports a theoretical and experimental study of a wire screen heat pipe, the evaporator section of which is subjected to forced convective heating and the condenser section to natural convective cooling in air. The theoretical study deals with the development of an analytical model based on thermal resistance network approach. The model computes thermal resistances at the external surface of the evaporator and condenser as well as inside the heat pipe. A test rig has been developed to evaluate the thermal performance of the heat pipe. The effects of operating parameters (i.e., tilt angle of the heat pipe and heating fluid inlet temperature at the evaporator) have been experimentally studied. Experimental results have been used to compare the analytical model. The heat transfer coefficients predicted by the model at the external surface of the evaporator and condenser are reasonably in agreement with experimental results. 相似文献
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This paper presents an experimental and theoretical analysis of a 6-row horizontal microfin Heat Pipe Finned Heat Exchanger (HPFHE) used for energy recovery purposes inside an air conditioning unit. The experimental campaign investigated both the summer and the winter conditions for European countries by varying the operating conditions at the inlet of the HPFHE. New experimental tests are presented for the identification of low – global warming potential refrigerants, environmental friendly substitutes of the more traditional HFC134a. The results showed the interesting heat transfer capabilities of HFC152a as an alternative HPFHE working fluid. A simulation model previously developed by present authors was validated against the new experimental data collected and then used to simulate the thermal performance of the HPFHE under different operating test conditions, in order to assess the potentiality of seasonal energy savings with HFC152a. 相似文献
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针对冬季太阳能辐射弱且不稳定的特点,提出一种应用于太阳能热泵的分区蓄热水箱,以水泵驱动蓄热水箱循环区与蓄热区的热量传递,并运用热力学原理对水箱循环区与蓄热区的运行状况进行模拟,分析了水箱两区在不同水泵体积流量下的逐时温度变化并与整体式水箱进行对比。结果表明,分区蓄热水箱克服了整体式水箱的热惰性,启动灵活,能在较短时间内达到热泵运行的理想温度,显著提高了系统的性能。 相似文献