Abstract
The global energy sector is aiming to rapidly transform energy systems into those less dependent on fossil fuels to reduce their harmful effects on the climate. Although ground source heat pump (GSHP) systems are more efficient than conventional air-source heat pump (ASHP) systems, the high initial investment cost, particularly for a vertical closed-loop type ground heat exchanger (GHX), makes it difficult to incorporate them into small buildings. This paper proposes a low-depth modular GHX for reducing cost and improving the workability of GSHPs. A modular GHX is a cubical structure comprising tubes and buried using an excavator at a depth 4 m below the ground surface. This GHX is manufactured at a factory, carried by a small truck, and then installed by a small lift or a backhoe such that it can be installed in small buildings or narrow spaces at low depths underground. In this research, the performance and feasibility analyses of modular and vertical GHXs were conducted via a real-scale experiment. The results demonstrate that the modular GHX influences the workability of GSHPs by 91% during the heating period and 70% during the cooling period. In contrast to the conventional HVAC, the modular and vertical GHXs could recover the initial investment costs in 4 years and 10 years, respectively.
Highlights
Global energy demand is gradually increasing owing to technological advances, but, owing to the indiscriminate use of fossil fuels in the past, the Earth is already facing problems such as abnormal weather and global warming
80% are vertical closed-loop type ground heat exchanger (GHX) which have high costs associated with boring and drilling due to the high initial investment costs, limiting research conducted on geothermal systems
Boring and drilling costs account for 35% of the total initial investment costs
Summary
Global energy demand is gradually increasing owing to technological advances, but, owing to the indiscriminate use of fossil fuels in the past, the Earth is already facing problems such as abnormal weather and global warming. Geothermal heat pump systems are gaining attention as they exhibit considerable potential as high-efficiency systems that can utilize the relative constancy of temperature of the earth throughout the year Of these systems, 80% are vertical closed-loop type GHXs which have high costs associated with boring and drilling due to the high initial investment costs, limiting research conducted on geothermal systems. Eswiasi and Mukhopadhyaya proposed an innovative design geothermal of the Uwas analyzed a numerical analysis, and the feasibility of the modular tube pipe to increase the thermal verticalair closed-loop [5].
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