太阳能辅助地源热泵供热的可行性研究

通过对邯郸地区太阳能资源分布规律的分析,从技术性、经济性方面对太阳能辅助地源热泵供热与单纯的地源热泵供热进行比较。结果表明:太阳能辅助地源热泵供热的综合性能优于单纯地源热泵供热。因此,在邯郸地区,太阳能辅助地源热泵供热是完全可行的。     

太阳能蓄热式供暖系统的实验研究

结合淮河流域、黄淮以及长江以北地区的气候特征,设计了单纯依靠太阳能进行供热的系统,并在徐州冬季12月和1月进行了实验研究。研究表明:采用无辅助热源的蓄热式太阳能供暖系统完全可以满足该地区的供暖要求,技术上可行。该研究为上述地区太阳能单独供热提供了参考和依据,同时对太阳能供热和常规供热进行了经济性比较,分析了太阳能供热高成本的原因。     

新型的太阳能与地源热泵联合供热制冷系统

研究设计了一种新型的太阳能与地源热泵联合供热制冷系统,不仅能够提供冬季热负荷,而且还能够提供夏季冷负荷.经过对新系统的技术经济性分析,证明了该系统是可行的,能够弥补常规太阳能与地源热泵联合运行的缺陷,分析了存在的问题。     

严寒地区多源互补清洁供热系统研究现状及展望

为了解决严寒地区供热结构单一及远离城市集中供热的建筑供暖问题,实现热泵及太阳能清洁能源的推广应用,对近年来严寒地区清洁供热系统的研究与应用进行总结,分析目前存在的主要问题。在研究总结空气源热泵、土壤源热泵、太阳能集热器及多热源联合运行方案及节能效益的基础上,探讨严寒地区多源互补供热系统的构建基本思想,为今后该地区热泵与太阳能供热系统设计和应用提供参考。     

太阳能辅助三套管蓄能器的供热实验

为改善空气源热泵及三套管蓄能换热器的低温适应性,对太阳能辅助三套管蓄能器供热模式进行实验研究。结果表明,升高太阳能热水温度或增大热水流量皆可提升系统的供热能效,在相同供热水流量和供热水温度条件下,相比空气源热泵或三套管蓄能器供热,新模式的制热功率可分别提高57%和13%,功耗可分别降低42%和41%。太阳能辅助三套管蓄能器供热模式可有效改善空气源热泵及三套管蓄能换热器的低温适应性,且运行过程稳定,能效较高。     

复合地源热泵系统冬季供暖运行实验研究

介绍了地源热泵在冬季运行供暖的实验研究,具体分析了长期连续运行时土壤温度的变化规律,热泵机组系统的COP变化情况,以及太阳能辅助系统与地源热泵系统联合运行时土壤温度的变化规律,热泵机组系统的COP变化情况.试验数据表明了增加太阳能辅助地源热泵系统后,显著地提高了冷凝器出口温度和室内温度,有效地提高了热负荷,增加了供热面积.总结出了本地区地源热泵系统的一般运行规律.     

太阳能与复叠式高温空气源热泵联合供热系统应用

设计一套太阳能与空气源热泵联合供热系统，出水温度为80～90℃。通过对太阳能集热器和空气源热泵产品性能进行比较，选择集热效率高的中温型太阳能集热器和双级压缩复叠式空气源热泵，并对两种热源并联的供热系统进行详细的控制逻辑设计。以泰国CPC太阳能热水项目为例，对供热系统的稳定运行情况和节能效果进行验证。项目地辐照资源好，联合供热系统运行稳定、效果良好。     

光伏/光热-地源热泵联合供热系统运行性能研究

为解决太阳电池的发电效率随温度升高而下降以及地源热泵系统供热引起的土壤热失衡问题,以典型居住建筑的光伏/光热-地源热泵（PV/T-GSHP）联合供热系统为研究对象,基于TRNSYS软件,采用土壤温度、地源热泵机组季节能效比、光伏发电效率和太阳能保证率为评价指标,对该联合供热系统进行运行性能分析。研究结果表明：夏热冬冷地区（以长沙为例）太阳能保证率相对较高,PV/T组件面积为满屋顶最大化安装（900 m²）时,第20年末土壤温度相比初始地温仅升高0.8 ℃,热泵机组季节能效比约为5.1,太阳能保证率为97.0%~98.7%;不同气候地区的太阳能保证率与PV/T组件面积和建筑全年累计供热量有关,通过定义单位建筑全年累计供热量PV/T组件面积指标,得到中国不同气候地区的太阳能保证率与该指标的耦合关系,回归方程的决定系数R²为0.983,得出在已知建筑全年累计供热量和太阳保证率设计目标值的条件下所需PV/T组件面积的计算方法。PV/T-GSHP联合供热系统的全年运行能耗显著小于平板太阳能集热器-地源热泵联合系统（最小降幅为沈阳,49.7%）,远小于空气源热泵（最小降幅为石家庄,79.8%）和燃气壁挂炉（最小降幅为沈阳,65.1%）。     

太阳能联合空气源热泵系统温室供热实验研究

在西安地区一座日光温室中采用太阳能联合空气源热泵供热系统进行对比实验研究,比较太阳能联合空气源热泵系统改善温室内的温度、湿度及土壤温度等环境因素,分析评价太阳能联合空气源热泵系统在日光温室冬季应用的效果。实验结果表明:太阳能联合空气源热泵供热系统不仅可明显提高温室内的空气温度和土壤温度,还可有效降低温室内的湿度;在实验天气条件下,热泵单独供热时,系统的COP为2.2~3.5;太阳能联合空气源热泵供热时,系统的COP为2.9~6.0;相比于阴天工况,晴天条件下,太阳能蓄热供热时间较长,热泵补充供热时间缩短,系统COP较高。     

如何保证地源热泵式沼气池加温系统长期稳定运行

针对地源热泵式沼气池加温系统中出现的冬夏季取排热不平衡从而影响其长期稳定运行的问题,本文在采取控制运行方式、增加辅助热源和蓄热系统解决方法的分析基础上,从充分利用可再生能源和地源热泵设备的角度出发,提出热泵供热和制冷互补模式与太阳能-地源热泵多功能互补模式,并对其可行性进行分析。     

太阳能辅助供暖的地源热泵经济性分析

在冬季土壤温度较低，而且以热负荷为主的北方地区，若完全采用地源热泵来供暖，则地热换热器和机组的初投资均比较高，连续运行的效率也较低，因此，可利用太阳能集热器作为辅助能源。白天完全依靠地源热泵供暖，夜间利用太阳能集热器蓄存的热量，使地热换热器与太阳能集热器串联运行，通过分析比较，该方案比完全用地源热泵供暖更经济。     

Review of solar assisted heat pump drying systems for agricultural and marine products

Combining solar energy and heat pump technology is a very attractive concept. It is able to eliminate some difficulties and disadvantages of using solar dryer systems or solely using heat pump drying separately. Solar assisted heat pump drying systems have been studied and applied since the last decades in order to increase the quality of products where low temperature and well-controlled drying conditions are needed. This paper reviewed studies on the advances in solar heat pump drying systems. Results and observation from the studies of solar assisted heat pump dryer systems indicated that for heat sensitive materials; improved quality control, reduced energy consumption, high coefficient of performance and high thermal efficiency of the dryer were achieved. The way forward and future directions in R&D in this field are further research regarding theoretical and experimental analysis as well as for the replacement of conventional solar dryer or heat pump dryer with solar assisted heat pump drying systems and solar assisted chemical and ground source heat pump dryers which should present energy efficient applications of the technologies.     

太阳能辅助地源热泵联合供暖(制冷)运行模式分析

太阳能和地源热泵联合供暖系统以其良好的节能和环保特性,近年来得到国内外众多学者和研究机构的广泛关注。总结了国内外地源热泵和太阳能集热器联合供暖（制冷）技术的发展现状和最新研究动态,介绍了太阳能辅助地源热泵联合供暖（制冷）的技术和特点,指出太阳能辅助地源热泵供暖（制冷）技术具有较好的发展前景。     

风能辅助供暖的地源热泵系统经济性分析

以热负荷为主的北方地区,冬季土壤温度较低,若完全采用地源热泵来供暖,则地热换热器和机组的初投资均比较高,连续运行的效率也较低.提出利用风力发电机产生的电能构成风能集热器作为地源热泵供暖的辅助能源的构想.白天完全依靠地源热泵供暖,夜间利用风能集热器辅助加热,使地热换热器与风能集热器串联运行.通过分析比较,该方案比完全用地...     

A comparative study of solar assisted heat pump systems for canadian locations

The feasibility of solar assisted heat pump systems for space heating and domestic hot water preheating in Canada is examined by simulating the performance of these systems on a computer using the program WATSUN. Simulations are carried out using meteorological data for seven representative Canadian cities, two different building types, and six types of system configurations. For the solar assisted heat pump system, twenty year life cycle cost comparisons are made with two reference systems, namely a conventional resistance heating system and an air-to-air heat pump system, based on current economic parameters and projected escalation scenarios for electricity rates.Results of the study show that the solar assisted heat pump systems conserve significant amounts of energy over resistance heating and heat pump systems. On the life cycle unit cost basis, solar assisted heat pump systems costs are relatively insensitive to location, but the dependence on building types is substantial with multiplex dwellings showing the least cost. Liquid based dual source solar assisted heat pump systems are found to be cost effective over resistance heating (but not over an air-to-air heat pump system) at some of the locations for multiplex units. They are not cost effective for single family dwellings at the present time.     

Exergetic performance evaluation of heat pump systems having various heat sources

In this study heat pump systems having different heat sources were investigated experimentally. Solar‐assisted heat pump (SAHP), ground source heat pump (GSHP) and air source heat pump (ASHP) systems for domestic heating were tested. Additionally, their combination systems, such as solar‐assisted‐ground source heat pump (SAGSHP), solar‐assisted‐air source heat pump (SAASHP) and ground–air source heat pump (GSASHP) were tested. All the heat pump systems were designed and constructed in a test room with 60 m² floor area in Firat University, Elazig (38.41°N, 39.14°E), Turkey. In evaluating the efficiency of heat pump systems, the most commonly used measure is the energy or the first law efficiency, which is modified to a coefficient of performance for heat pump systems. However, for indicating the possibilities for thermodynamic improvement, inadequate energy analysis and exergy analysis are needed. This study presents an exergetic evaluation of SAHP, GSHP and ASHP and their combination systems. The exergy losses in each of the components of the heat pump systems are determined for average values of experimentally measured parameters. Exergy efficiency in each of the components of the heat pump systems is also determined to assess their performances. The coefficient of performance (COP) of the SAHP, GSHP and ASHP were obtained as 2.95, 2.44 and 2.33, whereas the exergy losses of the refrigerant subsystems were found to be 1.342, 1.705 and 1.942 kW, respectively. The COP of SAGSHP, SAASHP and GSASHP as multiple source heat pump systems were also determined to be 3.36, 2.90 and 2.14, whereas the exergy losses of the refrigerant subsystems were approximately 2.13, 2.996 and 3.113 kW, respectively. In addition, multiple source heat pump systems were compared with single source heat pump systems on the basis of the COP. Exergetic performance coefficient (EPC) is introduced and is applied to the heat pump systems having various heat sources. The results imply that the functional forms of the EPC and first law efficiency are different. Results show that Ex_loss,total becomes a minimum value when EPC has a maximum value. Copyright © 2008 John Wiley & Sons, Ltd.     

太阳能-土壤源热泵联合供暖系统优化研究

针对严寒地区的气候条件,选取哈尔滨地区某居民住宅小区作为研究对象,利用TRNSYS软件对太阳能-土壤源热泵联合供暖系统(SGCHP)进行计算分析。结果表明:太阳能-土壤源热泵联合供暖系统中太阳能集热器对热泵机组的进水温度和COP以及节电量等方面有改善作用;对太阳能-土壤源热泵联合供暖系统中太阳能集热器面积与地埋管管长的最佳配比的优化结果表明,1 m~2太阳能集热器可保证17～27 m长的地埋管取热平衡。并继续模拟了沈阳地区,并以哈尔滨地区为基准,给出严寒地区该参数的推荐值。     

太阳能热泵低温地板辐射供暖系统的研究与展望

太阳能热泵低温地板辐射采暖系统是以太阳能热泵为热源,以地板辐射采暖系统为末端装置的新型供暖系统.本文综述了太阳能热泵在国内外的研究与应用,并阐述了太阳能热泵低温地板辐射供暖系统的工作原理及在国内的研究现状.分析了该系统的特点,结果表明该系统是一种舒适、经济和节能的理想供热系统.本文还探讨了该系统在当前的应用中尚待解决的问题.