太阳能制冷

  • 网络solar refrigeration;SolarChill
太阳能制冷太阳能制冷
  1. 无泵循环氨水吸收式太阳能制冷系统的研究

    A study on pumpless circulating ammonia water absorption solar refrigeration system

  2. 基于储氢合金的太阳能制冷系统理论研究

    Theoretic investigation of the solar refrigeration system based on metal hydrides

  3. 热虹吸泵绝热弹状流的热虹吸特性研究&无泵LiBr吸收式太阳能制冷机机理研究之二

    Study on thermal siphon characteristics of slug flow with heat insulation in thermal siphon pump & the second mechanism studies on pumpless LiBr absorption solar refrigerating machine

  4. 模拟了太阳能制冷及供暖综合系统热水系统一天的水温变化、辅助热源逐时变化,并在此基础上给出了太阳能空调系统制冷性能系数COP和供暖性能系数FNP值。

    This paper simulates the change of the hot water temperature and the instantaneous power of the assistant heater of the solar air-conditioning system in a day and after that the COP and FNP of the solar air-conditioning system are also achieved .

  5. 建筑节能技术之太阳能制冷技术

    One energy saving technology in construction & refrigeration by solar energy

  6. 两级喷射式太阳能制冷系统的压缩比研究

    Research on compression ratio of solar energy two-level ejection refrigeration system

  7. 太阳能制冷空气隔离层环流通风储粮试验研究

    Study on solar energy cooling for recirculation ventilation in grain storage

  8. 太阳能制冷空调的节能潜力及其性能比较

    Energy-saving potential and performance comparing of different air-condition system utilizing solar energy

  9. 一种新颖的太阳能制冷管及其性能实验研究

    A novel solar cooling tube and its performance experimental study

  10. 太阳能制冷技术的现状与新构想

    Status and the New Prototype of Solar Driven Refrigeration Technology

  11. 两种太阳能制冷装置性能分析与比较

    Performance analysis and comparison of two solar-driven refrigeration devices

  12. 太阳能制冷系统的研究

    Analysis of the solar - powered systems for cooling

  13. 冷管型太阳能制冷系统

    A Solar Energy-based Refrigeration System Composed of Cooling Tubes

  14. 太阳能制冷低温储粮应用效果初探

    Application Study of Solar Refrigeration for Grain Cooling Storage

  15. 太阳能制冷用小型喷射器的性能及其优化研究

    The Study of Characteristics and Optimization of Small-scale Ejector for Solar Jet Refrigeration

  16. 增大热源温差型太阳能制冷系统的优化

    Optimal Design of Solar Energy Refrigeration System with Larger Heat Source Temperature Difference

  17. 新型太阳能制冷与供热联合循环方式的研究

    The study of the solid adsorption refrigeration combined cycle driven by solar energy

  18. 可使用太阳能制冷(热)和发电的热力循环技术&气压-热力膨胀式循环

    A Pneumatic-Thermal Expansion Type Cycling Method for Solar Cooling & Heating and Power Generating

  19. 太阳能制冷降温技术在我区开发利用的前景

    The Prospects of Utilizing Solar Cooling in Guangxi

  20. 太阳能制冷系统的优化分析

    Optimal analysis on a solar refrigeration system

  21. 建立了吸附式太阳能制冷装置的吸附床热力计算模型。

    Thermodynamic calculating model of adsorption bed in the adsorption solar refrigeration equipment was established .

  22. 夏天时,利用太阳能制冷,或者反射太阳能。

    In summer , it can use solar energy to refrigerating the room or reflect the strong sunshine .

  23. 吸附床内部特性对固体吸附式转轮太阳能制冷系统的影响

    Effect of Adsorption Bed Inner Characteristic on Solid Adsorption Refrigeration System with Rotating Wheel Driven by Solar Energy

  24. 太原地区用太阳能制冷及供暖综合系统的探讨

    Study on the feasibility of the application of integrated air-conditioning system with solar absorption cooling and solar floor radiant heating in Taiyuan

  25. 本文所考虑的三源热力循环设备包括:吸收式制冷机、太阳能制冷机和两类三源化学泵等。(三)T。

    The thermodynamic cycle equipments considered in this dissertation include absorption refrigerators , solar refrigerators , two classes of three-source chemical pumps and so on .

  26. 槽型抛物面太阳能制冷系统的发展现状及应用中的若干关键问题槽型抛物面太阳能电站的前景和不同冷却系统的比较分析

    INTRODUCTION TO PARABOLIC TROUGH SOLAR COOLING SYSTEM AND CRITICAL ISSUES IN ITS APPLICATION Simulation of parabolic trough solar power generating system for typical Chinese sites

  27. 目前太阳能制冷技术研究的热点是太阳能吸收式制冷、太阳能喷射式制冷和太阳能吸附式制冷。

    Now the hot topic of the solar refrigeration is about the solar absorption refrigeration and the solar adsorption refrigeration as well as the eject refrigeration .

  28. 提出了太阳辐射频率法来计算太阳能制冷系统长期制冷量及能耗。

    A new method , solar radiation frequency method , is given to calculate the long term cooling capacity and energy consumption of solar refrigeration systems .

  29. 实验结果表明:系统的太阳能制冷系数约为0.1~0.13,电制冷系数约为2.0~2.77。

    Test results show that the solar cooling and electric COP ( coefficient of performance ) of the system are about 0.1 ~ 0.13 and 2.0 ~ 2.77 , respectively .

  30. 在回顾现有太阳能制冷技术的基础上,指出了目前在太阳能制冷技术上存在的问题,并提出了一个切实可行的新技术方案,对于促进太阳能制冷技术的产业化具有参考价值。

    After reviewing nowadays status , the shortcomings and a feasible prototype is pointed out , which perhaps has high reference value in promoting the industrialization of solar energy refrigeration technology .