• 제목/요약/키워드: Solar chimney

검색결과 9건 처리시간 0.019초

지하공간의 자연환기를 위한 태양 굴뚝 시스템의 응용 (Application of Solar Chimney System for Natural Ventilation in Underground Space)

  • 장향인;서승직
    • 한국태양에너지학회 논문집
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    • 제30권2호
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    • pp.87-95
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    • 2010
  • This study analyzed the performance of solar chimney system for natural ventilation in underground space. A mathematical model of the solar chimney was proposed in order to predict its performance under varying parameters and Korea climatic condition. Steady state heat transfer equations were set up using a energy balanced equations and solved using a inverse matrix method. Numerical simulation program to analyze system was developed by using MATLAB. As the results, the ventilation performance of the solar chimney was determined by the temperature difference of air channel and inlet, and the temperature difference was influenced by insolation, stack height and distance of air gab. Also the solar chimney system can provide $262.9m^3/h$ of annual average ventilation rate. Because seasonal differences of ventilation rate was calculated within 25%, the solar chimney system can be used for every season in Korea climatic condition. Through this study, performance of solar chimney system for natural ventilation was verified by numerical method. Consequently, the solar chimney system is proved to be effective device for natural ventilation utilizing at all times, and the additional studies should be made through the experimental method for imagineering and commercialization.

연돌 효과를 이용한 태양열 굴뚝의 자연환기 성능에 관한 연구 (A Study on the Performance of Natural Ventilation of Solar Chimney Using Stack Effect)

  • 조성우;이재윤
    • 한국태양에너지학회 논문집
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    • 제21권2호
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    • pp.35-43
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    • 2001
  • The results of numerical simulation on the performance of a solar chimney system in building are described. The inside surface temperature of four walls within the solar chimney arc calculated with solar radiation and outdoor temperature in summer. The air within the solar chimney is heated by conduction, convection and radiation. Air temperature distribution from the bottom to the top and outlet air temperature can be obtained by solving energy balance equation. Since the buoyance or stack effect is affected by temperature difference between the bottom and the top within the solar chimney. It is evaluated using inlet and outlet temperatures. It is expected that natural ventilation by the solar chimney of witch the height is 7.8m and the cross sectional area is $4.93m^2$ can provide about $6400m^3/h$ on sunny day.

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단열재의 두께 및 연돌높이에 따른 태양열 굴뚝의 자연환기 성능에 관한 실험적 연구 (The Experimental Study on the Natural Ventilation Performance of Solar Chimney by the variation of Insulation Thickness and Height)

  • 조성우;김동완;임영빈
    • 한국태양에너지학회 논문집
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    • 제22권3호
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    • pp.39-46
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    • 2002
  • The results of experiment on the performance of natural ventilation by insulation thickness and height system of solar chimney are described. The 3-inside wall was made of concrete and 1-wall was made of glass. The two kinds of model experiment were performed. One was the varition of the 60cm, 90cm and 120cm of solar chimney, the other was the variation of the insulation thickness 10mm and 50mm and without insulation of outside wall of solar cimney. As the temperature difference between bottom and top expressed $1.7\sim2.9^{\circ}C$, air velocity measured $0.5\sim0.8m/s$ and ventilation rate was $194.4m^3/h$ in the case of the 120cm height of solar chimney, the respect of natural ventilation performance was superior to others cases in the first model experiment. Though the case of 120cm height of solar chimney was attached 50mm insulation the ventilation rate was not so much as the case of solar chimney was attached 10mm insulation. the temperature difference between bottom and top was the largest in the other cases. From this research, the natural ventilation performance of solar chimney was affected by not only height and insulation thickness of solar chimney but also wind velocity and directon.

Numerical investigation and optimization of the solar chimney performances for natural ventilation using RSM

  • Mohamed Walid Azizi;Moumtez Bensouici;Fatima Zohra Bensouici
    • Structural Engineering and Mechanics
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    • 제88권6호
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    • pp.521-533
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    • 2023
  • In the present study, the finite volume method is applied for the thermal performance prediction of the natural ventilation system using vertical solar chimney whereas, design parameters are optimized through the response surface methodology (RSM). The computational simulations are performed for various parameters of the solar chimney such as absorber temperature (40≤Tabs≤70℃), inlet temperature (20≤T0≤30℃), inlet height of (0.1≤h≤0.2 m) and chimney width (0.1≤d≤0.2 m). Analysis of variance (ANOVA) was carried out to identify the design parameters that influence the average Nusselt number (Nu) and mass flow rate (ṁ). Then, quadratic polynomial regression models were developed to predict of all the response parameters. Consequently, numerical and graphical optimizations were performed to achieve multi-objective optimization for the desired criteria. According to the desirability function approach, it can be seen that the optimum objective functions are Nu=25.67 and ṁ=24.68 kg/h·m, corresponding to design parameters h=0.18 m, d=0.2 m, Tabs=46.81℃ and T0=20℃. The optimal ventilation flow rate is enhanced by about 96.65% compared to the minimum ventilation rate, while solar energy consumption is reduced by 49.54% compared to the maximum ventilation rate.

Fluid Flow and Heat Transfer Inside a Solar Chimney Power Plant

  • Gholamalizadeh, Ehsan;Chung, Jae Dong
    • 플랜트 저널
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    • 제14권1호
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    • pp.42-46
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    • 2018
  • The flow and heat transfer characteristics inside a solar chimney power plant system are analyzed in this article. 3-D model with the $k-{\varepsilon}$ turbulence closure was developed. In this model, to solve the radiative transfer equation the discrete ordinates radiation model was implemented, using a two-band radiation model. To simulate radiation effects from the sun's rays, the solar ray tracing algorithm was coupled to the calculation via a source term in the energy equation. Simulations were carried out for a system with the geometry parameters of the Manzanares power plant. Based on the numerical results, the velocity and temperature distributions were illustrated and the results were validated by comparing with experimental data of the Manzanares prototype power plant. Moreover, temperature profile of the ground surface of the system was illustrated.

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겨울철 건물 열환경 개선을 위한 태양굴뚝 시스템의 응용 (Application of the Solar Chimney System for Improving the Thermal Environment in Winter)

  • 오주홍;김의종;이현수;서승직
    • 한국태양에너지학회 논문집
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    • 제35권5호
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    • pp.39-48
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    • 2015
  • In this study, the solar chimney, one of the passive solar systems, is proposed as a method to improve the thermal environment of northern zones in buildings. As this well-known system has rarely been used in building projects, an adequate application of the system is proposed in this paper: the solar chimney system is designed to meet the required ventilation rate and consequently to reduce the ventilation load in the northern part of a building. To investigate such a possibility, a numerical model for the system is developed, and results of numerical tests are used for energy simulations. The results were taken into account for test simulations in EnergyPlus. As a result, approximately 75% of the volumetric ventilation rate required in the north zone could be supplied with the air volume acquired through the system and the monthly mean load was reduced by 29.5%, from 1.584 kWh to 1.117 kWh. The analyses of hourly mean heating and ventilation load over the heating period indicated that the system was very effective at around 13:00. Results show that 33% reduction in the ventilation load and 17% in the heating load for the north zone could be acquired through this system.

자연형 태양 챔버 시스템의 성능 분석 (Performance Analysis of Passive Solar Chamber System)

  • 장향인;김병구;서승직
    • 한국태양에너지학회 논문집
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    • 제31권4호
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    • pp.57-65
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    • 2011
  • This study proposes a Passive Solar Chamber System (PSCS) as a passive method for reduction of building energy consumption. Through numerical analysis, the study quantitatively analyzes system performance and aims to provide foundational data for system design. For this purpose, the study configures different system operation modes seasonally and also computes thermal and ventilation performance of the system in accordance with design factors(solar radiation, air channel height and distance). System and ventilation efficiency increases along with increase in solar radiation and air channel distance; however, as the air channel height increases, the efficiencies showed a tendency to decrease. Upon installation of PSCS, an average of $98.23W/m^2$ of heat flux was introduced in the daytime for the month of January in comparison to walls with no PSCS installed. For the month of August, natural ventilation of $56.68m^3/h$ was shown to be supplied to the room.

자연형 태양 챔버 시스템의 계절별 성능 및 크기 결정 방법 (Sizing Method and Seasonal Performance of Passive Solar Chamber System)

  • 장향인;김병구;서승직
    • 한국태양에너지학회 논문집
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    • 제31권4호
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    • pp.66-71
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    • 2011
  • This study focused on the application of the Passive Solar Chamber System (PSCS) as proposed by a previous study. The seasonal performance and sizing method for the system were investigated for a feasibility of the PSCS in Korean climate. For seasonal performance, heat and ventilation performances of the PSCS were analyzed for the months of January and August. This study proposed a simple configuration method in which the designer can decide on the system size at the preliminary design stage by using system efficiency, overall heat transfer coefficient transmission, monthly solar radiation, highest and lowest temperatures. During weeks that require heating, the system showed to acquire a daily average heat amount of $860.28Wh/m^2$ day. For cooling periods, the system was computed to supply a daily average natural ventilation of $1,360.2m^3/day$ to the room. Moreover, proposed sizing method and the overall computation results showed a 6.04~7.24% error of assessment.

방적성 Plasma 처리 필름으로 피복된 플라스틱온실의 풋고추 생육 (Growth of Green Pepper(Capsicum annuum L.) in a Plastic Greenhouse Covered with Anti-dropping Plasma Film)

  • 전희;김경제;김진영;김현환;이시영
    • 생물환경조절학회지
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    • 제9권3호
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    • pp.156-160
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    • 2000
  • 플라즈마 필름은 플라스틱 필름 표면의 유적성을 향상시키기 위하여 고전압처리 되었다. 플라즈마 필름과 계면활성제 필름(대조구)를 각각 직경 25mm 두께 1.5mm 골조 파이프 하우스에 피복하였다. 또한 40일 플러그 육묘된 풋고추를 110cmx25cm 간격으로 정식하였다. 피복시 수온을 7$0^{\circ}C$로 처리된 수적발생 장치에서 나온 수증기가 필름 표면에서 응결되어 흘러내려 비이커에 모인 양을 150분 후에 측정한 결과, 플라즈마 필름에서 2.56mL.100$cm^{-2}$ , 계면활성제 필름에서 0.94mL.100$cm^{-2}$ 이 나왔다. 피복 60일 후 오전 8시 20분에 시설내 필름 표면에 부착된 수적량은 플라즈마 필름에서 0.34mL.100$cm^{-2}$ , 계면활성제필름에서 0.32mL.10$cm^{-2}$ 이었다. 광 투과율은 플라즈마 필름 피복시설이 계면활성제 피복시설 보다 2.0% 높았다. 그리고 시설내 기온은 플라즈마 필름 피복시설이 계면활성제 피복시설 보다 0.5$^{\circ}C$ 높았다. 그러나 상대습도는 차이가 없었다. 풋고추 초장, 엽면적, 건물중 및 초기수량 또한 처리간에 차이가 없었다.

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