实验调查和西奥
A solar adsorption cooling system was constructed in the green building of Shanghai Institute of Building Science. The system consisted
of evacuated tube solar collector arrays of area 150 m2, two adsorption chillers with nominal cooling capacity of 8.5 kW for each
and a hot water storage tank of 2.5 m3 in volume. A mathematical model of the system was established. According to experimental
results under typical weather condition of Shanghai, the average cooling capacity of the system was 15.3 kW during continuous operation
for 8 h.
关于太阳能一体化的经验
The green buildings of Shanghai Research Institute of Building Science include an office building for the demonstration of public
building and two residential buildings, which are for the demonstration of flat and villa, respectively. Here, a solar-powered integrated
energy system including heating, air-conditioning, natural ventilation and hot water supply was designed and constructed for the office
building. However, only solar hot-water systems were installed for the flat and villa.
设计与太阳能磷性能
A solar-powered adsorption air-conditioning system was designed and installed in the green building of Shanghai
Research Institute of Building Science. The system contained 150 m2 solar collectors and two adsorption chillers with nominal
refrigeration capacity of 8.5 kW. Based on performance characteristics of the adsorption chiller, the operation mode of
the solar-powered air-conditioning system was optimized by maintaining a phase shift of 540 s between the two adsorption
chillers. Thereafter, the whole system realized stable operation by the balance of heat consumption and refrigeration output.
采暖和自然通风的比较
In this paper, two kinds of roof solar collectors (RSCs), namely, the single pass RSC, and the double
pass RSC are analyzed and compared. The double pass roof solar collector, which is configured by integrating
a double pass solar air collector with the building roof, can be operated more efficiently for space heating
in winter, and for natural ventilation in other seasons. To evaluate the effects of two RSCs for both
space heating and natural ventilation, a single traditional Chinese style house, on which the two RSCs will
be mounted respectively, is developed.