Abstract
In recent decades, the fast-growing economies of Southeast Asian countries have increased the regional energy demand per capita. The statistic indicates Southeast Asian electricity consumption grows for almost 6% annually, with space cooling becoming the fastest-growing share of electricity use. The ground source heat pump technology could be one of the solutions to improve energy efficiency. However, currently, there are limited data on how a ground source heat pump could perform in such a climate. The thermal response test is widely used to evaluate the apparent thermal conductivity of the soil surrounding the ground heat exchanger. In common practice, the apparent thermal conductivity can be calculated from the test result using an analytical solution of the infinite line source method. The main limitation of this method is the negligence of the physical effect of convective heat transfer due to groundwater flow. While convection and dispersion of heat are two distinctive phenomena, failure to account for both effects separately could lead to an error, especially in high groundwater flow. This chapter discusses the numerical evaluation of thermal response test results in Bangkok, Thailand, and Hanoi, Vietnam. We applied a moving infinite line source analytical model to evaluate the value of thermal conductivity and groundwater flow velocity. While determining the ground thermal properties in a high accuracy is difficult, the moving infinite line source method fulfills the limitation of the infinite line source method. Further, we evaluated the five-year performance of the ground source heat pump system coupled with two vertical ground heat exchangers in Bangkok and Hanoi. The results suggest the importance of groundwater flow to enhance the thermal performance of the system.
Highlights
The population of Southeast Asia was almost 640 million in 2016 and is expected to increase to 760 million by 2040, assuming 0.7% annual population growth.Geothermal EnergyUrbanization is an essential factor that affects total energy consumption [1–3]
We carried out the numerical analysis of the Thermal Response Test (TRT) measurement results conducted in Bangkok, Thailand and Hanoi, Vietnam
The Moving Infinite Line Source (MILS) analytical method provides a better numerical analysis to evaluate the TRT result than the commonly used Infinite Line Source (ILS) method
Summary
The population of Southeast Asia was almost 640 million in 2016 and is expected to increase to 760 million by 2040, assuming 0.7% annual population growth. The Japan Refrigeration and Air Conditioning Industry Association (JRAIA) reported that in 2016, Vietnam and Thailand were the second and third countries with the highest air conditioner demand in Southeast Asia, with 1.98 million and 1.56 million units per year, respectively. Yasukawa et al conducted underground temperature surveys by measuring vertical groundwater temperature from several monitoring wells in Thailand and Vietnam [5] They concluded that despite the differences between ground temperature and air temperature were low. They remarked that space heating might be possible for a short winter period in Hanoi, Vietnam In their subsequent study, Yasukawa et al presented the pilot study of GSHP at Kamphaengphet province, Thailand. Widiatmojo et al evaluated the performance of GSHP systems coupled with horizontal/shallow Ground Heat Exchanger (GHE) They performed cost analysis to estimate the payback time against Air Source Heat Pump (ASHP). We extend the simulation to estimate the GSHP performance for five years of operation considering different parameters obtained using the Infinite Line Source (ILS) and the MILS methods
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