• 월간 기계설비
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• s.243
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• pp.50-54
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• 2010

서울시가 마곡지구에 하수열이나 연료전지, 폐열, 소각열 등의 친환경에너지를 열원으로 하는 집단 냉 난방에너지를 오는 2013년 2월부터 공급한다. 2031년엔 마곡지구 전역으로 공급이 확대된다. 서울시는 올해부터 2031년까지 총 사업비 5,498억 원을 투입, 집단신재생에너지 열원시설을 3단계(1단계 10~16년, 2단계 17~23년, 3단계 24~31년)로 건립한다고 밝혔다. 서울시가 마곡지구에 필요한 냉 난방에너지를 신재생에너지를 이용한 집단에너지로 공급함으로써 일반방식보다 에너지는 30,792toe/년(35.8%) 절감하고, 온실가스 배출량은 65,103t$CO_2$/년(35.8%)하며, 대기오염물질은 109,287kg/년(54.5%) 감축될 것으로 분석했다.

• Journal of Power System Engineering
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• v.8 no.1
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• pp.48-54
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• 2004

In this study, waste heat of Jeju City Waste Environment Center is investigated and the utilization method is suggested with economical analysis of additional investment that needed for new facility. Energy balance of the typical facilities is considered in this study such as incineration plant and LFG power plant. The payback period of the investment which is used for the LFG power plant waste heat utilization facility is about 2.4 years and the economic profit of the facility during 10 years operation is up to 926 million won.

• Journal of Energy Engineering
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• v.8 no.4
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• pp.512-518
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• 1999

This paper proposed the optimal operational scheduling of cogeneration system for paper mill connected with several auxiliary devices Auxiliary devices that include auxiliary boilers, waste heat boilers and sludge uncinerators operate with multi-cogeneration systems. Especially environment element was considered in objective function to solve environment problem. Electricity can be purchased through power system from utility. The proposed operational strategy on cogeneration system for paper mill to increase energy efficiency can be applied to the similar cogeneration system is industrial field.

• Proceedings of the KAIS Fall Conference
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• 2009.12a
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• pp.1030-1033
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• 2009

고형연료(RDF)는 가연성 폐기물을 성형된 형태로 만드는 것으로 화석연료의 대체 에너지로 이용되어질 수 있을 뿐만 아니라 일반 소각설비에 비해 수송성, 저장성이 뛰어나며 발열량이 거의 일정하여 연소 안정성이 우수하고 액체연료나 기체연료의 비해 경제성과 안정성이 높다는 장점이 있다. 하지만 고형연료의 미량 포함되어 있는 중금속 물질에 의해 연소장치의 부식이나 시설 노후 촉진화와 같은 원인을 제공하며, 심각한 환경오염원의 전구물질이 생성될 수 있어 실용화에는 큰 장해 요인이 되고 있다. 따라서 본 연구에는 고형연료의 재료가 되는 폐기물을 분석하여, 중금속성분이 미치는 영향을 조사하고 부존자원의 최적 이용 방안을 도출하며, 이를 바탕으로 부존자원 액상/고상 연료화 기술, 부존자원 복합이용시스템, 폐열활용 시스템과 같은 기술에 적용하여 부존자원 재활용 및 에너지를 최적 활용할 수 있는 D/B 구축을 하는 것이 최종 목표이다.

• Journal of Environmental Science International
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• v.25 no.2
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• pp.239-246
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• 2016

This study aims to analyze region-specific trends in changing greenhouse gas emissions in incineration plants of local government where waste heat generated during incineration are reused for the recent five years (2009 to 2013). The greenhouse gas generated from the incineration plants is largely $CO_2$ with a small amount of $CH_4$ and $N_2O$. Most of the incineration plants operated by local government produce steam with waste heat generated from incineration to produce electricity or reuse it for hot water/heating and resident convenience. And steam in some industrial complexes is supplied to companies who require it for obtaining resources for local government or incineration plants. All incineration plants, research targets of this study, are using LNG or diesel fuel as auxiliary fuel for incinerating wastes and some of the facilities are using LFG(Landfill Gas). The calculation of greenhouse gas generated during waste incineration was according to the Local Government's Greenhouse Emissions Calculation Guideline. As a result of calculation, the total amount of greenhouse gas released from all incineration plants for five years was about $3,174,000tCO_2eq$. To look at it by year, the biggest amount was about $877,000tCO_2eq$ in 2013. To look at it by region, Gyeonggido showed the biggest amount (about $163,000tCO_2eq$ annually) and the greenhouse gas emissions per capita was the highest in Ulsan Metropolitan City(about $154kCO_2eq$ annually). As a result of greenhouse gas emissions calculation, some incineration plants showed more emissions by heat recovery than by incineration, which rather reduced the total amount of greenhouse gas emissions. For more accurate calculation of greenhouse gas emissions in the future, input data management system needs to be improved.

• Resources Recycling
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• v.18 no.2
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• pp.3-15
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• 2009

To accomplish the greenhouse gas reduction which is over core unit project of the "Green growth" policy and "Resource circulation society", it is important to maintain proper balance and complement between energy recovery from waste and material recycling. This research(study) examined the related policies on the past of korea and foreign country, and also "The 4th resource recycling master plan" and "Energy recovery from waste plan" to provide advisable direction for resource recycling policy. The results of the research(study) showed that there were no significant difference between korea and developed foreign countries waste management policies. But in German policy, energy recovery from waste and pre-treatment are importantly considered and highly required for permission. Under current circumstance in korea, recycling will be more difficult than in the past. According to "The 4th resource recycling master plan", film type of synthetic resin was not sustainable recycled material in substance."Energy recovery from waste plan", proved that the energy recovery from RDF/RPF have lower efficiency than regular incineration generation and substance recycling. To solve these problems, the energy and remainder heat recovery must be generalized to "Energy recovery" concept and institutional improvement such as LCA(Life Cycle Assessment) system are need to support it. And also technology development to extract synthetic polymer by dissolved film type of synthetic resin must be provided.