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진태환(Tae-Hwan Jin),유걸(Jie Liu),정모(Mo Chung),신기열(Ki-Yeol Shin) 대한기계학회 2020 大韓機械學會論文集B Vol.44 No.12
본 연구에서는 당진시 스마트팜 단지 조성을 위한 열에너지 공급안을 분석하였다. 먼저 TRNSYS 프로그램으로 시계열 날씨 정보와 3D 벤로형 유리온실 모델을 통해 동적 에너지부하를 산정하였다. 그리고 경유보일러, 발전온배수, 하천수, 외기열 활용 열펌프를 동적 에너지부하를 통해 적정용량으로 난방설비 모델로 구성하였고, 저온성 및 고온성 작물의 생육조건에 맞는 난방운전 모델을 구성하였다. 이를 통해 case별 난방성능 평가와 경제성 평가를 위한 case study를 수행하였다. 그 결과, 해당 지역에서는 저온성 작물이 고온성 작물에 비해 400% 가량 더 우수한 경제성을 가지며, 고온성 작물에는 50% 이상의 금융 보조금이 필요한 것으로 평가되었다. 또 열펌프를 사용한 경우 보일러에 비해 운영비를 40% 가량 감소시킬 수 있어 보다 우수한 경제성을 가지는 것으로 분석되었다. In this paper, the thermal energy supply plan for a smart farm complex in Dangjin area was analyzed. First, the dynamic energy load was calculated by time-series weather data and 3D venlo-type glass greenhouse model with the TRNSYS program. In addition, the boiler and power plant waste water source heat-pump, stream water source heat-pump, and the ambient air source heat-pump was configured as the heating facility model with optimum capacity through dynamic energy load value. The heating simulation to maintain growth conditions of crops familiar with low-temperature and high-temperature was also performed. Through these models, the heating performance and economic evaluation in each cases were carried out. As a result, it was evaluated that low-temperature crops (strawberry) has a better economic performance by 400 % than high-temperature one (tomato), and 50 % or more of government subsidies should be required for high-temperature crops. It was analyzed that the heat pump heating cases showed better economic efficiency because the operating cost could be reduced by about 40 % compared to the boiler.
Tae-Hwan Jin(진태환),Herie Park(박혜리),Mo Chung(정모),Ki-Yeol Shin(신기열),Aoife Foley,Liana Cipcigan 대한전기학회 2016 전기학회논문지 Vol.65 No.12
The use of renewable energy sources and energy storage systems is increasing due to new policies in the energy industries. However, the increase in distributed generation hinders the reliability of power systems. In order to stabilize power systems, a virtual power plant has been proposed as a novel power grid management system. The virtual power plant plays includes different distributed energy resources and energy storage systems. We define a core virtual power plant technology related to demand response and ancillary service for the cases of Korea, America, and Europe. We also suggest applications of the proposed virtual power plant to the vehicle-to-grid market for restructuring national power industries in Korea.
진태환(Tae-Hwan Jin),신기열(Ki-Yeol Shin),임용훈(Yong-Hoon Im),윤시원(Si-Won Yoon),장기창(Ki-Chang Chang) 대한기계학회 2016 대한기계학회 춘추학술대회 Vol.2016 No.12
A high energy, efficient, harmonious, ecological greenhouse has been highlighted by advanced future agricultural technology recently. This greenhouse is essential for expanding the production cycle toward growth conditions through combined thermal environmental control. However, it has a negative effect on farming income via huge energy supply expenses. Because not only production income, but operating costs related to thermal load for thermal environment control is important in farming income, it needs studies such as a harmonious ecological greenhouse using natural ventilation control. This study is simulated for energy consumption and thermal environmental conditions in a three-layered greenhouse by natural ventilation using window opening. A virtual 3D model of a three-layered greenhouse was designed based on the real one in the Gangneung area. This 3D model was used to calculate a thermal environment state such as indoor temperature, relative humidity, and thermal load in the case of a window opening rate from 0 to 100 %. There was also a heat exchange operated for heating or cooling controlled by various setting temperatures. The results show that the cooling load can be reduced by natural ventilation control in the summer season, and the heat exchange capacity for heating can also be simulated for growth conditions in the winter season.