摘要:Passive systems are becoming increasingly popular among
designers, which is reflected in their frequent use in the construction of
modern buildings. The prevailing material in façade design is glass which
enables i.a. photothermal conversion of solar energy either in the so-called
direct systems or in one of a number of the collector-and-storage Trombe
wall variants. In order to estimate how the aforementioned passive
solutions affect the energy balance of a building, the efficiency of such
solutions needs to be determined first. This paper presents the research
proposal that would use a simple-structure laboratory simulator.
The proposed method is based on the analogy of supplying heat into the
TW itself with an internal heat source. In order to simulate the absorption
of solar radiation that takes place in the absorber, the heat was produced by
the heating cable embedded in such an absorber. The results of tests carried
out according to one of the Design of Experiments (DOE) methods enabled
the development of an empirical model showing the operation efficiency of
the originally modified Trombe wall.
其他摘要:Passive systems are becoming increasingly popular among designers, which is reflected in their frequent use in the construction of modern buildings. The prevailing material in façade design is glass which enables i.a. photothermal conversion of solar energy either in the so-called direct systems or in one of a number of the collector-and-storage Trombe wall variants. In order to estimate how the aforementioned passive solutions affect the energy balance of a building, the efficiency of such solutions needs to be determined first. This paper presents the research proposal that would use a simple-structure laboratory simulator. The proposed method is based on the analogy of supplying heat into the TW itself with an internal heat source. In order to simulate the absorption of solar radiation that takes place in the absorber, the heat was produced by the heating cable embedded in such an absorber. The results of tests carried out according to one of the Design of Experiments (DOE) methods enabled the development of an empirical model showing the operation efficiency of the originally modified Trombe wall.
