| 1. | Analysis about eer and seer of air conditioner
空调能效比和季节能效比的分析 |
| 2. | Seer calculation based on database for room air - conditioner
基于数据库的房间空调器季节能效比计算 |
| 3. | The way of optimization design to raise eer of domestic air conditioner
提高家用空调器能效比优化设计方案 |
| 4. | The cost - effectiveness of heat pumps for reducing co2 emissions compared with other heating technologies is discussed
还讨论了与其他供热技术相比的情况下,热泵系统在降低二氧化碳排放方面的能效比。 |
| 5. | Compares the eer and other parameters of this system with a typical variable air volume all - air system and analyses each application scope for different systems
与一典型全空气变风量系统的能效比等参数进行了对比,简要分析了不同种类系统的适用范围。 |
| 6. | When the underground water is used , its energy - efficiency ratio can reach higher than 5 , which will save 40 70 operational cost compared with a common wind cooling combination
采用地下水时,能效比达到5以上,比普通风冷机组节省运行费用40 70 。 |
| 7. | Not only including the heat transfer of envelop , it is also considered air infiltration inner heat gain lighting energy efficiency ratio for energy consume calculation
建筑能耗计算不仅考虑围护结构的传热,而且要包括空气渗透传热、内部得热、室内照明、空调采暖设备的能效比等因素。 |
| 8. | Among various heat pumps , the ground - water source heat pump ( gwshp ) system has the highest energy efficiency . just because of this , in recent years , gwshp system has become more popular in our country
在诸多热源的热泵中,以地下水源热泵系统的能效比很高,这就使得近年来地下水源热泵在我国得到了日益广泛的应用。 |
| 9. | In order to establish own core technology of refrigeration , our company decides to explore the best method of increasing the energy efficiency of air - conditioner through the way of developing model kfr - 26gw / sf and kfr - 35 / sf
本公司为了树立制冷的核心技术,决定以开发kfr - 26gw sf 、 kfr35 sf两产品来探索研究提高空调器能效比的途径。 |
| 10. | This experiment include many contents , in a word , that is summer condition experiment , winter condition experiment > summer - winter transition condition experiment and winter - summer transition condition experiment , furthermore summer condition experiment still include flux changing experiment and winter condition experiment still include thermal balance experiment this article dealt with the data of the test , calculating out energy absorbing ( energy discharging ) of buried pipe in winter condition ( summer condition ) , input power of heat pump x heat exchanging of piece buried pipe length x co - efficiency performance ? op ( energy efficiency rate ? er ) and average heat exchanging coefficient ; in additiont this article compares the inlet water temperature and outlet water temperature of underground the first layer and the second layer buried pipe when heat pump was running , the results are that the heat exchanging ability of the second layer buried pipe outgos the first layer buried pipe , and heat exchanging is more stable ; and still analyse earth temperature resuming in the transition season . the results are earth temperature resume fast in the first week when the heat pump runs off
本文测试内容相当多,概括地说就是四个工况的测试,即夏季制冷工况的测试、冬季供热工况的测试、夏?冬过渡季测试和冬?夏过渡季测试;另外在夏季工况的测试中还进行了变流量测试,在冬季工况的测试中还进行了热平衡测试。本文对测试数据进行了处理,计算出了冬(夏)季工况埋管吸(放)热量、热泵空调器供热量(制冷量) 、热泵空调器输入功率、埋管单位管长换热量、供热性能系数(制冷能效比)和平均传热系数等;另外,还比较了热泵运行时地下一二层埋管进出水温度变化情形,得出地下二层埋管换热能力优于地下一层埋管,且换热很稳定;并分析了过渡季地下一二层埋管温度恢复情形,得出热泵系统停机一周内地温恢复特别快。 |
