• Korea Petroleum Association Journal
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• s.301
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• pp.44-47
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• 2016

정부가 2017년, 한 해에만 110억 원을 투자해 친환경에너지타운을 조성하겠다는 계획을 밝혔다. 친환경에너지타운은 화석연료 대신 친환경에너지로 운영되는 마을이다. 마을 내에서도 화석연료를 이용하지 않고, 다른 지역에서 보내오는 전력도 거의 사용하지 않는다. 오로지 마을에서 스스로 만든 친환경에너지로만 생활한다. 친환경에너지타운이 어떤 변화를 가져올 수 있을까?

• Bulletin of Korea Environmental Preservation Association
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• s.419
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• pp.13-16
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• 2015

이제 안정적인 폐기물 처리와 자원순환 사회 구축, 기후변화 대응과 친환경 에너지 확보는 더 이상 미룰 수 없는 과제이다. 우리 스스로 더욱 노력해 폐자원 에너지화 기술개발과 함께 친환경에너지타운 조성사업 속도를 낼 때이다. 친환경 에너지타운이야말로 기피 혐오시설을 활용하여 에너지를 생산함으로써 환경과 에너지 문제를 동시에 해결할 수 있는 최선의 대안이라고 확신한다.

• KSCE Journal of Civil and Environmental Engineering Research
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• v.35 no.6
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• pp.1377-1385
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• 2015

Construction industry that was the core driving force of Korean economic growth is now being classified as an industry with the largest environmental load emission. Although various efforts were made accordingly to realize eco-friendliness, its effects is insufficient currently. Based on the understanding that eco effect of construction industry would be significant if Eco VE is applicable in the initial project stage, NIA model for understanding the eco VE decision of project owner was developed with simulations in this paper. Based on the proposal report of a private project to develop the Gyeongbuk Northern Region Environmental Energy Town, 20 questions on eco VE decision were used through simulations. The result showed 50% eco-friendly decision. The result of this study can be used to provide decision-making data for eco design in the initial stage of construction by utilizing NIA upon conducting survey research to deduce eco VE decision.

• Economic and Environmental Geology
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• v.51 no.1
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• pp.67-76
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• 2018

This study reviews three eco-friendly energy towns with hybrid thermal energy supply systems and borehole thermal energy storage (BTES) in Canada and Denmark. The district heating and cooling systems were designed by using multi-source energy for the higher efficiency and reliability as well as environment. ADEU (Alexandra District Energy Utility) located at the developing area in the city of Richmond, Canada was designed to supply district energy with the installation of 726 borehole heat exchangers (BHEs) and a backup boiler using natural gas. DLSC (Drake Landing Solar Community) located in the town of Okotoks, Canada is a district system to store solar thermal energy underground during the summer season by seasonal BTES with 144 BHEs. Brædstrup Solpark district heating system located in Denmark has been conducted energy supply from multiple energy sources of solar thermal, heat pump, boiler plants and seasonal BTES with 48 BHEs. These systems are designed based on social and economic benefits as well as nature-friendly living space according to the city based energy perspective. Each system has the energy center which distribute the stored thermal energy to each house for heating during the winter season. The BHE depth and ground thermal storage volume are designed by the heating and cooling load as well as the condition of ground water flow and thermophysical properties of the ground. These systems have been proved the reliance and economic benefits by providing consistent energy supply with competitive energy price for many years. In addition, the several expansions of the service area in ADEU and Brædstrup Solpark have been processed based on energy supply master plan. In order to implement this kind of project in our country, the regulation and policy support of government or related federal organization are required. As well as the government have to make a energy management agency associated with long-term supply energy plan.