集热板

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集热板集热板
  1. 然后,利用数学模型对储水箱与集热板之间高差、系统储水量和循环管径等因素对系统性能的影响进行了预测分析。

    Then , the effects of height difference between storage tank and collector , mass of storage water and cycle pipe diameter on system performance were analyzed .

  2. 通过正交试验方法,验证数值模拟结论,进一步表明,集热板高度是整个系统中最为关键的因素,它对系统通风量、系统最大功率、系统最大能量转换效率影响都比较明显。

    The result shows that the heat collector height is the most critical factor to influence the ventilation , the maximum power and the maximum energy conversion efficiency of the system .

  3. 本论文利用CFD技术,从多孔集热板的局部换热和太阳墙的整体流动两个方面进行数值研究,并对局部的流动换热进行了场协同分析。

    By the CFD technology , this paper studied numerically this solar air heating device in two perspectives : the local convection of plate and the flow of the whole solar wall .

  4. 在铜片-铜管太阳能集热板超声波焊接试验基础上研究了其焊接机理,通过分析焊接接头的SEM图及从能量角度估算焊接过程的摩擦做功,研究了铜片-铜管超声波焊接的形成机理。

    In this paper , the mechanism of ultrasonic welding is studied based on the copper fin to copper tube experiment . By analyzing the heat produced during the weld process and the SEM metallograph , the mechanism of ultrasonic welding is studied .

  5. 不同结构平板型太阳能空气集热板集热效率研究

    Study on Collecting Efficiency of Different Structural Flat-plate Solar Air Collector

  6. 设计了新型多孔太阳能集热板。

    The new type solar collector heat plate with multi-pores was designed .

  7. 黑色不锈钢太阳能集热板的研究

    A Study on the Solar Energy Heat-Collection Plates Made of Black-colored Stainless Steels

  8. 太阳能强化集热板三维翅表面采光分析模型及其结构优化

    Day-Lighting Analyzing Model and Structural Optimization for the 3D-Fined Plate of Solar Collector

  9. 太阳能集热板镀膜及其设备

    Film-coating equipment and technology for flat-plate solar collectors

  10. 太阳能热水器工业纯铝集热板耐蚀性能的研究

    A study on the corrosion behavior of industry pure aluminum under solar collector conditions

  11. 铜片-铜管太阳能集热板超声波焊接实验研究

    Experimental research on ultrasonic welding of copper sheet to copper tube for collecting solar energy

  12. 本文通过实验对竖直集热板屋顶式太阳能烟囱模型进行了研究。

    A vertical roof solar chimney model for natural ventilation in buildings were experimentally studied .

  13. 太阳能干燥牧草空气集热板涂层试验研究

    The Experimentation on Surface Dope of Heat Collection board of Solar Energy of the drying pasture

  14. 平板式太阳能收集器集热板的热应力分析

    Thermal Stress Analysis of the Solar Flat Collectors OPTIMAL INSULATION FOR FLAT - PLATE SOLAR COLLECTOR

  15. 它由集热板、隔热层、散热装置以及相应的电源管理电路组成。

    It makes up of heat energy collected board , heat insulation , radiator and power management circuitry .

  16. 其中,集热板表面涂层也是其的一个重要影响因素。

    In addition , the surface dope of collecting heat board is also a important parts to make up it .

  17. 将单晶硅光伏电池与全铝扁盒式太阳能热水器集热板通过特殊工艺粘结起来,制成了一套自然循环式光伏光热一体化(PV/T)系统,在利用太阳能发电的同时提供热水。

    A novel hybrid photovoltaic / thermal solar system ( PV / T ) was designed with flat aluminous box as solar heat collector combined with single-crystal silicon PV cells .

  18. 研究了Cl~-、Gu~(++)、Fe~(+++)浓度和温度对太阳能热水器工业纯铝集热板小孔腐蚀性能的影响。

    The Cl - , Cu + + and Fe + + + ions and temperature effect on the pitting corrosion behavior in solar absorbers made of industry pure aluminum was studied under the flowing water condition .

  19. 本文分析了在焖晒情况下平板式太阳能收集器集热板的温度分布及相应的热应力分布,提出了为防止热应力的破坏应采取的措施。

    With respect to a solar Flat collector , both temperature distribution and thermal stress-distribution are discussed in this paper , while the panel is heated by the sunlight without any liquid circulation . The precautions to prevent thermal stress from being destroyed are presented here also .

  20. 从提高技术经济效果出发,本文讨论了中、低温集热器板&罩间热损失的组成。文中把热水流体划分为中高温热水流体与中低温热水流体。

    In view of the technical economy , this paper made an analysis of the heat loss component between the plate and covers of the medium and low temperature type collectors . This paper classifies the hydrothermal solutions into the middle high temperature type and the middle low temperature type .

  21. 蜂窝结构太阳能集热器吸收板长波辐射损失的数值计算方法

    A Computational Method of the Infrared Radiative Loss of the Absorber Plate in Solar Honeycomb Collectors

  22. 本文对管板式平板集热器集热板最优结构作了传热分析。

    This paper analysed the optimal absorber plate structure from the heat transfer point of view .

  23. 空晒实验是在晴朗天气、全天累计日辐照量为25629KJ/m2的条件下进行的,1号平板集热器的吸热板温度最高能达到170.2℃。

    This experiment carried out in a sunny day , the irradiation quantity is 25629 KJ / m2 at that day . The maximum temperature of NO.1 flat-plate solar collector can achieve 170.2 ℃ .

  24. 通过工厂处的实验台,我们测试了透明玻璃盖板对渗透型太阳能空气集热器系统集热板表面温度的影响。

    Through the experimental stage in the factory , we tested transparent glass plate had influence on the surface temperature of the solar wall system .