Meteorological and geological considerations for ground sink heat pump application

Abstract

In venture to introduce a technology where giving a security, environmental sustainability, and economic well-being of the nation, a buildings where present one of the best opportunities to economically reduce energy consumption and limit greenhouse gas emissions with using ground-sink heat pumps (GSHP), the important criteria for designing need to be considered. This paper is presenting the considerations toward meteorology and geology properties. This study was taken to address this conundrum because the meteorology and geology properties vary with place. The scope is to determine the effect of meteorology and geology for application of GSHP. The pilot room data was shows both have relationship between meteorological data to the geological properties of pilot room influence the GSHP system. The pilot room soil sample (D) was compared with three types of soil was sand (A), limestone (B) and clay (C) shows granite (D) have the higher thermal conductivity but low porosity and moisture content compare with clay and limestone. Sand shows higher porosity but have low thermal conductivity. With simulation method, clay and limestone was the best to apply GSHP system. Final in this paper will showing pattern of meteorology and geology properties effective to GSHP application.