• 제목/요약/키워드: Borehole effective thermal resistance

검색결과 19건 처리시간 0.027초

지중 유효 열물성 산정 및 지중열교환기 성능에 대한 보어홀 열저항의 영향 (Evaluation of Ground Effective Thermal Properties and Effect of Borehole Thermal Resistance on Performance of Ground Heat Exchanger)

  • 손병후
    • 한국지열·수열에너지학회논문집
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    • 제8권4호
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    • pp.32-40
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    • 2012
  • Geothermal heat pump(GHP) systems use vertical borehole heat exchangers to transfer heat to and from the surrounding ground via a heat carrier fluid that circulates between the borehole and the heat pump. An Important feature associated with design parameters and system performance is the local thermal resistances between the heat carrier flow channels in the borehole and the surrounding ground. This paper deals with the in-situ experimental determination of the effective thermal properties of the ground. The recorded thermal responses together with the line-source theory are used to determine the thermal conductivity and thermal diffusivity, and the steady-state borehole thermal resistance. In addition, this paper compares the experimental borehole resistance with the results from the different empirical and theoretical relations to evaluate this resistance. Further, the performance simulation of a GHP system with vertical borehole heat exchangers was conducted to analyze the effect of the borehole thermal resistance on the system performance.

단순 선형열원 모델을 이용한 지중 유효 열전도도와 보어홀 유효 열저항 산정 (Evaluation of Ground Effective Thermal Conductivity and Borehole Effective Thermal Resistance from Simple Line-Source Model)

  • 손병후
    • 설비공학논문집
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    • 제19권7호
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    • pp.512-520
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    • 2007
  • The design of a ground-source heat pump system includes specifications for a ground loop heat exchanger where the heat transfer rate depends on the effective thermal conductivity of the ground and the effective thermal resistance of the borehole. To evaluate these heat transfer properties, in-situ thermal response tests on four vertical test boreholes with different grouting materials were conducted by adding a monitored amount of heat to circulating water. The line-source method is applied to the temperature rise in an in-situ test and extended to also give an estimate of borehole effective thermal resistance. The effect of increasing thermal conductivity of the grouting materials from 0.818 to $1.104W/m^{\circ}C$ resulted in overall increases in effective thermal conductivity by 15.8 to 56.3% and reductions in effective thermal resistance by 13.0 to 31.1%.

보어홀 전열저항이 보어홀 길이에 미치는 영향에 관한 연구 (A Study of the Effect of Borehole Thermal Resistance on the Borehole Length)

  • 이세균;우정선
    • 한국태양에너지학회 논문집
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    • 제29권5호
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    • pp.20-27
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    • 2009
  • The effect of borehole thermal resistance on the borehole length is studied. In performing this work a new concept BLRR(borehole length reduction rate) is developed based on the line source model. The solution of line source model is shown to be valid through the comparison with the data of thermal response test. It is shown that BLRR is a function of soil thermal conductivity(k) and borehole thermal resistance($R_b$). The value of BLRR increases with increasing k, which means reducing $R_b$ is more effective when k is high. The reduction of borehole length with change of $R_b$ is easily estimated with BLRR. The validity of BLRR is also examined with EED analysis.

지중열교환기 설치 조건이 지중 유효 열전도도와 보어홀 열저항에 미치는 영향 (The Effects of the Installation Conditions of Ground Loop Heat Exchanger to the Thermal Conductivity and Borehole Resistance)

  • 임효재;공형진;강성재;최재호
    • 설비공학논문집
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    • 제23권2호
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    • pp.95-102
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    • 2011
  • A ground loop heat exchanger in a ground source heat pump system is an important unit that determines the thermal performance of a system and its initial cost. A proper design requires certain site specific parameters, most importantly the ground effective thermal conductivity, the borehole thermal resistance and the undisturbed ground temperature. This study was performed to investigate the effect of some parameters such as borehole lengths, various grouting materials and U tube configurations on ground effective thermal conductivity and borehole thermal resistance. In this study, thermal response tests were conducted using a testing device to 9 different ground loop heat exchangers. From the experimental results, the length of ground loop heat exchanger affects to the effective thermal conductivity. The results of this experiment shows that higher thermal conductivity of grouting materials leads to the increase effective thermal conductivity from 22 to 32%. Also, mounting spacers have increased by 14%.

선형열원법에 의한 지중유효열전도도와 보어홀 전열저항 해석 (Analysis of Effective Soil Thermal Conductivities and Borehole Thermal Resistances with a Line Source Method)

  • 이세균;우정선;노정근
    • 한국태양에너지학회 논문집
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    • 제30권4호
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    • pp.71-78
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    • 2010
  • Investigation of the effective soil thermal conductivity(k) is the first step in designing the ground loop heat exchanger(borehole) of a geothermal heat pump system. The line source method is required by New and Renewable Energy Center of Korea Energy Management Corporation in analyzing data obtained from thermal response tests. Another important factor in designing the ground loop heat exchanger is the borehole thermal resistance($R_b$). There are two methods to evaluate $R_b$ : one is to use a line source method, and the other is to use a shape factor of the borehole. In this study, we demonstrated that the line source method produces better results than the shape factor method in evaluating $R_b$. This is because the borehole thermal resistance evaluated with the line source method characteristically reduces the temperature differences between an actual and a theoretical thermal behaviors of the borehole. Evaluation of $R_b$ requires soil volumetric heat capacity. However, the effect of the soil volumetric heat capacity on the borehole thermal resistance is very small. Therefore, it is possible to use a generally accepted average value of soil volumetric heat capacity($=2MJ/m^3{\cdot}K$) in the analysis. In this work, it is also shown that an acceptable range of the initial ignoring time should be in the range of 8~16hrs. Thus, a mean value of 12 hrs is recommended.

3중관용 스페이서를 적용한 대구경 지중열교환기의 성능측정에 관한 연구 (An Experimental Study on the Thermal Performance Measurement of Large Diameter Borehole Heat Exchanger(LD-BHE) for Tripe-U Pipes Spacer Apply)

  • 이상훈;박종우;임경빈
    • 한국신재생에너지학회:학술대회논문집
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    • 한국신재생에너지학회 2009년도 추계학술대회 논문집
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    • pp.581-586
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    • 2009
  • Knowledge of ground thermal properties is most important for the proper design of large scale BHE(borehole heat exchanger) systems. The type, pipe size and thermal performance of the BHE is highly dependent on the ground source heatpump system-efficiency and instruction cost. Thermal response tests with mobile measurement devices were developed primarily for insitu determination of design data for large diameter BHE for triple-U spacer apply. The main purpose has been to determine insitu values of effective ground thermal conductivity and thermal resistance, including the effect of ground-water flow and natural convection in the boreholes. The test rig is set up on a some trailer, and contains a circulation pump, a inline heater, temperature sensors, flow meter, power analysis meter and a data logger for recording the temperature, fluid flow data. A constant heat power is injected into the borehole through the tripl-U pipes system of test rig and the resulting temperature change in the borehole is recorded. The recorded temperature data are analysed with a line-source model, which gives the effective insitu values of rock thermal conductivity and borehole thermal resistance of large diameter BHE for spacer apply.

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현지 측정에 의한 남한지역의 지중유효열전도도, 보어홀 전열저항 및 초기온도 분석 (Analysis of Soil Thermal Conductivities, Borehole Thermal Resistances and Initial Soil Temperature with In-Situ Testing in South Korea)

  • 노정근;연광석;송헌
    • 한국태양에너지학회 논문집
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    • 제32권5호
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    • pp.68-74
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    • 2012
  • Investigation of the effective soil thermal conductivity($k$) is the first step in designing the ground loop heat exchanger(borehole) of a geothermal heat pump system. Another important factor is the borehole thermal resistance($R_b$). Thermal response tests offer a good method to determine the ground thermal properties for the total heat transport in the ground. The first step is measured for initial soil temperature. This is done by supplying a only pump power into a borehole heat exchanger. They need to supply into water unload heat power more than 30 minutes. In this study, the initial soil temperature was found to analysis $14.1{\sim}16.0^{\circ}C$,the ratio was 68.7% represented. In this case of $k$, was 2.1~3.0 $W/m{\cdot}k$, $R_b$ was 0.11~0.20 $m{\cdot}K/W$. In this work, it is also shown that the distribution of a soil thermal conductivity and borehole thermal resistance were on the influence of initial soil temperature. And soil thermal conductivity was related with factors of equation by linear least square method, borehole thermal resistance was on the influence of composite factors.

부하변동에 의한 지중유효열전도도와 보어홀 전열저항 해석 (Analysis of Effective Soil Thermal Conductivities and Borehole Thermal Resistances with a Power Supply Regulation)

  • 노정근;연광석;송헌
    • 한국태양에너지학회 논문집
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    • 제31권4호
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    • pp.80-86
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    • 2011
  • Investigation of the effective soil thermal conductivity(k) is the first step in designing the ground loop heat exchanger(borehole) of a geothermal heat pump system. Another important factor is the borehole thermal resistance($R_b$). Thermal response tests offer a good method to determine the ground thermal properties for the total heat transport in the ground. This is done by supplying a constant heat power into a borehole heat exchanger. There are two methods to supply a constant heat power. One is to employ the electricity provided by Korea Electric Power Corporation(KEPCO). The other is to use electricity generated by a generator. In this study, the power supply regulation was found to reduce when the electricity generated by the generator was used. This is because the generator evaluated with the power supply characteristically reduces the power supply regulation between an overload and a complex using. But it sometimes occurs a power supply regulation in In-situ thermal response test. In this case getting of k,$R_b$ requires delay times and restored normal state. However, the effect of the delay times and restored normal state on the soil thermal conductivity and borehole thermal resistance is very small. Therefore it is possible to use a generally accepted delay times and restored normal state in the analysis. In this work, it is also shown that an acceptable range of ${\Delta}k$, ${\Delta}R_b$ for normal state and regulation state might be approximately 0.01-0.16W/m k, and -0.004-0.007m K/W, respectively. Thus, restored normal state of power supply regulation is valuable to recommend.

수직형 지열 열교환기(BHE)의 열성능 측정에 관한 실험적 연구 (An Experimental Study on the Thermal Performance Measurement of Vertical Borehole Heat Exchanger(BHE))

  • 임경빈;이상훈;성낙원;이창희
    • 대한기계학회논문집B
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    • 제30권8호
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    • pp.764-771
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    • 2006
  • Knowledge of ground thermal properties is most important for the proper design of large BHE(borehole heat exchanger) systems. Thermal response tests with mobile measurement devices were first introduced in Sweden and USA in 1995. Thermal response tests have so far been used primarily for in insitu determination of design data for BHE systems, but also for evaluation of grout material, heat exchanger types and ground water effects. The main purpose has been to determine insitu values of effective ground thermal conductivity, including the effect of ground-water flow and natural convection in the boreholes. Test rig is set up on a small trailer, and contains a circulation pump, a heater, temperature sensors and a data logger for recording the temperature data. A constant heat power is injected into the borehole through the pipe system of test rig and the resulting temperature change in the borehole is recorded. The recorded temperature data are analysed with a line-source model, which gives the effective insitu values of rock thermal conductivity and borehole thermal resistance.

수직밀패형 지중열교환기의 설계인자가 보어홀 전열저항에 미치는 영향에 관한 연구 (A Study on the Effects of Design Parameters of Vertical Ground Heat Exchanger on the Borehole Thermal Resistance)

  • 장근선;김민준
    • 한국산학기술학회논문지
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    • 제19권10호
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    • pp.128-135
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    • 2018
  • 현재 지열 열펌프 시스템에 수직밀폐형 지중열교환기가 가장 많이 적용되고 있으며, 수직밀폐형 지중열교환기의 성능에 영향을 미치는 주요 인자로는 지중 열전도율(k)과 보어홀 전열저항($R_b$)이 있다. 본 연구에서는 현장에서 측정된 열응답시험 데이터를 이용하여 보어홀 전열저항을 계산하였으며 지중열교환기 개별 설계인자들(순환수유량, 파이프 수, 그라우팅재)이 보어홀 전열저항에 미치는 영향을 분석하였다. 또한 도출된 그라우팅 열저항은 문헌에 제시된 다양한 상관식과 비교 분석하였다. 시험데이터를 통해 본 시험에서의 지중열교환기 보어홀 전열저항은 0.1303 W/m.K로 나타났으며, 보어홀 전열저항에서 그라우트 열저항이 66.6 %, 파이프 열저항이 31.5 %, 순환수 대류열저항이 1.9 %를 차지하여 그라우트가 보어홀 열전달에 가장 큰 영향을 미치는 인자임을 확인하였다. 또한 각 설계인자의 설계변수가 보어홀 전열저항에 미치는 영향을 분석한 결과 실리카샌드를 혼합하여 그라우트 열전도율를 높이는 방법이 파이프 수 증가나 순환수 유량증가보다 열전달 증진에 더 효과적임을 알 수 있었다.