• Journal of Bio-Environment Control
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• v.10 no.4
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• pp.213-218
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• 2001

In 2000, domestic protected cultivation area was about 52,189 ha including 13,621 ha of heating greenhouses. Recently, heating cost accounts for 25 to 30% of total production cost which has been increased due to the rise of oil price, while the heating cost was about 15% in other advanced countries. To reduce the heating energy cost, the study of minimizing the heating space of greenhouse have been conducted from 1998 to 1999. The system was developed to control the heating space according to crop growth by moving horizontal curtain up and down. Installation of the heating space-control curtain in greenhouse decreased heating capacity to 264 m$^3$compared to 661.5 m$^3$in the traditional curtain, and consumpted fuel was saved about 56% point in semiforcing culture and 28% point in retarding culture of pepper. In addition, uniform distribution of air temperature and relative humidity in greenhouse environment resulted in earlier flowering and higher yields in hot pepper.

• FLOWER RESEARCH JOURNAL
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• v.18 no.3
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• pp.186-192
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• 2010

An infrared heating system, installed in a small venlo-type glasshouse ($280m^2$) in Gyeongsang National University, Jinju, Korea, was used to investigate its heating effect with potted Phalaenopsis, Schefflera arboricola 'Hongkong', Ficus elastica 'Variegata', and Rosa hybrida 'Yellow King' as the test plants. Temperature changes in test plants with the system turned 'On' and 'Off' were measured by using an infrared camera and the consumption of electricity by this infrared heating system was measured and analyzed. In potted Phalaenopsis, when the set air temperature of the greenhouse was $18^{\circ}C$, temperature of leaves and the growing medium were $22.8{\sim}27^{\circ}C$ and $21.3{\sim}24.3^{\circ}C$, respectively. In such tall plants as Schefflera arboricola 'Hongkong' and Ficus elastica 'Variegata', the upper part showed the highest temperature of 24.0 and $26.9^{\circ}C$, respectively. From the results of temperature change measurements, the plant temperatures were near or above the set point temperatures with some fluctuations depending on the position or distance from the infrared heating system. When air temperature between night and dawn dropped sharply, plant temperatures were maintained close to the set temperature ($18^{\circ}C$). There was a significant difference between 'On' and 'Off' states of the infrared heating system in average temperatures of root zone and leaf: 21.8 and $17.8^{\circ}C$ with the system 'On' and 20.4 and $15.5^{\circ}C$ with the system 'Off', respectively, in a cut rose Rosa hybrida 'Yellow King'. The heating load was about $24,850{\sim}35,830kcal{\cdot}h^{-1}$, which comes to about 27,000~40,000 won in Korean currency when calculated in terms of the cost of heating by a hot water heating system heated by petroleum. The cost for heating by the infrared heating system was about 35% of that of a hot water heating system. With the infrared heating system, the air temperature during the night was maintained slightly lower than the set point air temperature, probably due to the lack of air tightness of the glasshouse. Therefore, glasshouses with an infrared heating system requires further investigation including the installation space of the heat-emitting units, temperature sensor positions, and convection.

• Journal of the Korea Academia-Industrial cooperation Society
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• v.20 no.1
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• pp.224-235
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• 2019

The increase in the amount of energy used in the agricultural sector due to the expansion of agricultural machinery and greenhouse horticulture has caused a range of problems, such as an increase in the cost of input, such as heating costs and greenhouse gas emission. To overcome these problems, this study examined the current status of energy use in greenhouse horticulture as well as the change patterns of non-taxable oil and agricultural electricity, and reviewed the current status of the supply of renewable energy and energy saving facilities for agriculture. This study investigated the area of advanced and renewable energy and energy saving facilities implemented, applied the energy saving ratio of advanced and renewable energy and energy saving facilities, and determined the effects of renewable energy in the agricultural sector, such as increase in production, decrease in heating cost, reduction in Government financial expenditure, reduction in greenhouse gas emission, and oil substitution effect.

• Journal of the Korea Institute of Information and Communication Engineering
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• v.13 no.12
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• pp.2641-2646
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• 2009

The more growing on home automation system at automatic control, the more efficiency required for energy consumption and for recycling energy in near future. Heating is essential in general apartment. Heating method is two types in apartment. One uses electricity, and other one uses warm water. If use electricity, is not efficient by rise of electric charges. But, It can reduce much in expense aspect, if use warm water. When use warm water, temperature of warm water is not equal from all pipe parts. Therefore, indoor tempera can be unequal with set point. Solution of these problems is as following. Temperature sensor in warm water attach pipe. The measured temperature transmits by real time. Temperature of warm water controls in receiver side. In this paper, we propose an automatic temperature transmission system for the heating pipe at home, that is a low-power based, and supply the energy source from a small AC motor resided in bottom cement mortal. The proposed system is used in power mechanism from a collision process of water-jet using propeller water-difference and also designed a CPU module by Atmega8 at ATMEL co., Inc. and a communication module by CC1020 at Chipcon co., Inc.

• Korea Petroleum Association Journal
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• s.302
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• pp.42-43
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• 2017

∎ 2017년 에너지 관련 조세 수입(교통에너지환경세, 개별소비세, 교육세, 주행세 등 합계)은 약 26조 7천억원으로 전망됨. 이는 총 국세 수입의 약 11%를 차지하며, 부가가치세 총수입의 43.3% 수준으로 큰 규모 - 교통에너지환경세는 교통시설특별회계 80%, 환경개선특별회계 15%, 에너지및자원사업특별회계 3%, 지역발전특별회계 2%로 배분 ∎ 2017년 에너지및자원사업특별회계 예산(약 5조 7천억원) 중 석유관련 세출은 약 2,765억원(약 4.8%)로, 자원개발융자, 석유비축사업, 유전개 발출자, 석유품질관리사업 등에 소요 - 수송용 석유(휘발유 및 경유)가 국세 세입에 기여하는 비중 대비 직접적인 석유 관련 세출은 극히 미미한 실정 ∎ 조세 및 부과금의 비율은 석유제품이 상대적으로 높고 전기와 지역난방, 열(가열 및 건조)의 경우 상대적으로 낮음 - 낮은 전기 요금으로 전기소비가 급증하여 온실가스와 미세먼지가 증가하고, 발전소 및 전력망 건설에 따른 사회적 갈등이 발생 - 에너지 세제가 환경보호, 에너지시설투자에 대한 갈등해소 비용 등 사회적비용이 반영되지 않은 과세정책으로 유연탄 및 원자력 발전소가 지속 증가 추세 ∎ 바람직한 에너지 세제개편을 위해서는 에너지원간 세금부과의 균형 확보가 필요하며, 중장기적으로 통합 에너지세제 도입이 필요 - 수송용과 발전용 에너지세제를 통합적 관점에서 조율 - 각 에너지원에서 발생하는 오염물질과 온실가스 배출 등 다양한 사회적 비용을 일관된 기준으로 세금에 반영 - 유연탄 과세 강화, 원자력 과세 신설(안전사후처리비용 등 반영)

• The Magazine for Energy Service Companies
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• s.53
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• pp.28-29
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• 2008

제2의 자원개발이라는 '에스코'사업은 150불을 넘나드는 고유가로 인해 더욱 높은 관심을 끌고 있다. 특히 1차에너지원의 가격이 높을수록 절약하는 에너지의 양에 비례해 절감액은 더욱 커져 에너지절약의 효과는 더 커진다. 명품 건설 브랜드 '블루밍'으로 유명한 벽산건설에서 지난해 5월부터 금년 4월까지 한국 원자력 연구원의 냉.난방시설 개선 세너지절약 사업을 통해 매년 15억원 상당의 에너지비용을 절감시켰다.

• Proceedings of the Korean Society for Bio-Environment Control Conference
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• 2001.11a
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• pp.129-135
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• 2001

농가에서 건초용 고추를 재배하는 일반적인 방법은 온상 육묘한 다음, 서리 피해가 없는 때에 노지에 멀칭 또는 터널을 설치하여 이식재배하고, 서리가 올 때까지의 재배기간 중에 6-8차례에 걸쳐 적과를 수확하여 건조시킨다. 이와 같은 재배방법은 육묘와 수확에 노동력이 많이 투입되므로 고추의 생산비를 낮추기 어렵다. 뿐만 아니라 고온성 작물인 고추를 저온기에 육묘하려면 난방 등 에너지의 비용이 높고 여러 가지의 육묘 자재가 필요하다. (중략)

• Proceedings of the Korean Society for Bio-Environment Control Conference
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• 2002.11a
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• pp.326-331
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• 2002

최근 들어 육묘기술이 빠르게 발전하면서 플러그 묘의 보급이 확대되고 있으며 육묘와 재배의 분업화가 진행되고, 고품질 묘의 안정된 수급에 대한 관심이 늘어나면서 육묘 산업에 대한 비중이 점차 증가하고 있다. 현재 국내에 설치되어 있는 육묘시설은 대부분 개방형 묘생산 시스템(open system for transplant production)으로 자연광을 이용하는 장점은 있으나 여름철의 냉방과 겨울철의 난방에 소요되는 비용은 상당한 수준에 이르고 있다. (중략)

• Journal of Bio-Environment Control
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• v.21 no.2
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• pp.79-87
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• 2012

This research was conducted to obtain basic data with regard to the heating performance that would be produced by installing an aluminum hot water pipe inside the greenhouse with the goal of reducing the heating energy in greenhouse. The research results are summarized as follows. The degree of difference in relation to the temperature by height within the greenhouse during the entire experiment was significant - within the range of 4.0~$7.0^{\circ}C$. The temperature difference between incoming and outgoing water was about $3.3^{\circ}C$ greater when FCU was activated compared to when it was not activated. Meanwhile, the amount of energy consumed increased about 36.2~40.1%. The amount of pyrexia per hour also increased by 44.6~52.0%. During the experiment period, circulated flux was within the range of 0.48~$0.49L{\cdot}s^{-1}$ while average fluid speed was 1.53~$1.56m{\cdot}s^{-1}$. The average temperature difference between incoming and outgoing water was 6.24~$11.50^{\circ}C$. The amount of heating value by each set temperature within the minimum outdoor temperature range of -14.0~$-0.6^{\circ}C$ was 135,930~307,150 kcal, and the range was within the 9,610~$19,630kcal{\cdot}h^{-1}$ per hour. This demonstrated that about 23~53% heating energy of the maximum heating load could be supplied. Total radiating value and amount of energy consumed were 2,548,306 kcal and 3,075.7 kWh, respectively. When heating takes place using oil, which is a fossil fuel, the total amount of light oil consumed was 281.6 L while the cost was 321,000 won. When the electricity cost for farms is applied, the total cost was about 110,730 won, which is about 33.5% of the cost required compared to oil consumption. The temperature at in the experiment area was about 8.3~$14.6^{\circ}C$ higher compared to that of the control area.

• Journal of agriculture & life science
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• v.46 no.2
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• pp.179-190
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• 2012

This study was performed to obtain a heat saving effect and enhance the efficiency of a greenhouse by using a hot water piping in order to minimize the operating costs of a greenhouse as oil prices continue to rise. This method also reduces the likelihood of accidents caused by snowdrifts in regions with heavy snowfall. In general, the experimental plot was $2.0{\sim}6.0^{\circ}C$ higher than the control plot. When the skylight felt was opened, the minimum temperature was in the range of $3.0{\sim}12.0^{\circ}C$. Therefore, we judged that damage caused by snowdrifts may be prevented partly by active heating. The temperature difference inside of the greenhouse by height was insignificant. The maximum heating load of the greenhouse according to crop was respectively about $37,000kcal{\cdot}h^{-1}$ and $41,700kcal{\cdot}h^{-1}$. During the experiment, the heat value of each designed temperature in the range of the minimum ambient temperature $-11.9{\sim}4.0^{\circ}C$ was about 95,000~322,000 kcal and it was in the range of $6,050{\sim}20,900kcal{\cdot}h^{-1}$. If it is compared with the maximum heating load, it can be shown that about 15~56% of the heating energy can be supplied. The total heat value and the amount of power consumption were 2,629,025 kcal and 677.3 kWh respectively during the experiment. If it is heated with diesel, a fossil fuel, the consumption during the experiment was 291 L and the cost was 331,700won. Total cost of using electric power was about 24,400 won and it is shown that it is about 7.5% of the cost of diesel consumption. Also, if the total amount of power consumption is converted into energy, it is approximately 582,200 kcal and the energy was just about 22% of the total heat value.