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直膨式太阳能热泵热水器及其热经济性分析 总被引:2,自引:0,他引:2
介绍了直膨式太阳能辅助热泵热水器(DX-SAHPWH)的基本结构和工作原理.计算了直膨式太阳能辅助热泵热水器、空气源热泵热水器、太阳能热水器、电热水器和燃气热水器的运行能耗.分析了直膨式太阳能辅助热泵热水器的市场潜力、经济性以及社会效益.几种热水器比较结果表明,直膨式太阳能辅助热泵热水器能耗最小,运行费仅为电热水器的1/3,燃气热水器的1/2,空气源热泵热水器的415;与电热水器相比,使用直膨式太阳能辅助热泵热水器,户均年运行费可减少约1500元,2年左右即可回收额外的初投资.直膨式太阳能辅助热泵热水器与空气源热泵热水器的市场价格相当.由于其节能、环保、安全等,自身优势明显,预期该热水器应用前景广阔. 相似文献
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介绍了顶板冷辐射与置换通风相结合的空调系统特点,分析了该系统在改善室内空气品质和满足人体的热舒适性方面的特点,评价了该系统的节能效果和经济性。 相似文献
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同传统空调系统相比,辐射供冷空调系统具有舒适、节能的优点。根据辐射板安装位置的不同可分为顶板辐射和地板辐射供冷,按照实验研究和仿真研究方法对其发展现状进行了概述,并对目前存在的问题和今后的发展趋势进行了探讨和展望。 相似文献
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通过分析地埋管直供冷的原理,介绍直供冷的系统特点。结合典型住宅,对其进行能耗模拟计算,与地埋管直供冷的负荷进行分析,结果显示:典型住宅设计冷负荷为4077W,地埋管供冷负荷为4745W,与单体空调对比,地埋管直供冷系统增加投资1227元,每年节省运行费用269.7元,经济回收期为4.5a,节约电量490.32k Wh,减排CO2374 kg、SO21.1kg、NOx5.7kg、粉尘1.02kg,整个系统经济、技术上可行。 相似文献
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M. Khamis Mansour Md Nor Musa Mat Nawi Wan Hassan Khalid M. Saqr 《Energy Conversion and Management》2008,49(6):1455-1468
A novel control strategy to improve energy efficiency and to enhance passengers’ thermal comfort of a new roof top bus multiple circuit air conditioning (AC) system operating on partial load conditions is presented. A novel strategy for automatic control of the AC system was developed based on numerous experimental test runs at various operating conditions, taking into account energy saving and thermal comfort without sacrificing the proper cycling rate of the system compressor. For this task, more than 50 test runs were conducted at different set point temperatures of 21, 22 and 23 °C. Fanger’s method was used to evaluate passenger thermal comfort, and the system energy consumption was also calculated. A performance comparison between that of the conventional AC system and that of the newly developed one has been conducted. The comparison revealed that the adopted control strategy introduces significant improvements in terms of thermal comfort and energy saving on various partial load conditions. Potential energy saving of up to 31.6% could be achieved. This results in a short payback period of 17 months. It was found from the economic analysis that the new system is able to save approximately 20.0% of the life cycle cost. 相似文献
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辐射顶板冬季供暖时,室内会出现较大的垂直温差,且不符合人体“头冷脚暖”的需求。为了提高辐射顶板供暖系统的舒适性,分别对辐射顶板结合侧送风、下送风、上送风三种气流组织形式的供暖系统进行实验测试。结果表明:三种气流组织形式均能提高实验房间的操作温度;其中下送风(450rpm)工况的改善最显著。侧送风和下送风工况能减少室内的垂直温差,降低垂直不满意率,上送风工况增大了垂直温差,垂直不满意率超过20%。三种气流组织形式均能提高辐射顶板的供热能力,其中下送风(450rpm)工况下辐射顶板的供热能力提升最显著。 相似文献
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In this study, the energy saving effect and dehumidification enhancement of the variable speed air conditioner (VSAC) have been analysed theoretically and experimentally. The results indicated that the VSAC in subtropical areas could provide annual energy savings of 20%. Even more important, the 3 RT-unit VSAC successfully lowered its apparatus sensible heat ratio (ASHR) from 0.80 to 0.60, which made it superb for applications in hot and humid areas. The VSAC has a vast application potential in these climates. 相似文献
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通过建立空调系统测试实验台,就直接蒸发式与串联式独立新风空调系统进行性能研究。研究影响系统性能各因素,并分析两种空调系统在各因素下的运行性能,以及室内盘管保持干工况下运行的适用条件。得出当室内负荷显热比低于0.8,或者室外温度升高到35℃、相对湿度增大到65%的工况下,串联式系统比直接蒸发式系统更具结露的风险。且适当增加新风量有利于改善室内温湿度过高的现象,但新风量过大,容易造成室温偏高。 相似文献
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随着冰蓄冷技术在我国的研究与推广,工业领域使用该技术的比例也在逐年上升。在归纳冰蓄冷空调技术应用的基础上,选取了啤酒厂、水果冷藏厂、奶制品厂3个典型的工业冰蓄空调系统,对其生产特点、系统连接形式、工况等方面进行分析,以期进一步指导冰蓄冷技术在工业空调系统的应用。 相似文献
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A direct expansion (DX) air dehumidification system is an efficient way to supply fresh and dry air to a built environment. It plays a key role in preventing the spread of respiratory disease like Swine flu (H1N1). To improve the efficiency of a conventional DX system in hot and humid regions, a new system of DX in combination with a membrane-based total heat exchanger is proposed. Air is supplied with dew points. A detailed mathematical modeling is performed. A cell-by-cell simulation technique is used to simulate its performances. A real prototype is built in our laboratory in South China University of Technology to validate the model. The effects of inlet air humidity and temperature, evaporator and condenser sizes on the system performance are investigated. The results indicate that the model can predict the system accurately. Compared to a conventional DX system, the air dehumidification rate (ADR) of the novel system is 0.5 times higher, and the coefficient of performance (COP) is 1 times higher. Furthermore, the system performs well even under harsh hot and humid weather conditions. 相似文献