• Bulletin of Korea Environmental Preservation Association
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• s.399
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• pp.20-21
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• 2012

우리나라는 좁은 국토에 많은 인구가 밀집한 관계로 단위면적당 폐기물의 발생량이 세계 최고 수준이며, 해양 오염 방지를 위해 유기성 폐기물 해양 배출을 금지한 런던협약 등 기후변화 관련 규제가 강화되고 있다. 또한 화석연료의 고갈화로 대체에너지 개발이 시급한 현시점에서 폐자원 에너지화 사업의 인프라 구축 및 대응책 수립이 요구되고 있다. 이에 우리나라는 2008년 5월 "폐기물 에너지화 종합대책" 이후 2009년 7월 "폐자원 및 바이오매스 에너지 대책" 실행계획 수립으로 폐기물 에너지화 사업 도입을 적극 추진하고 있다. 폐자원 에너지화 기술은 화석연료 대체로 인한 온실가스 감축효과가 있어 폐기물 처리, 화석연료 대체, 온실가스 감축이라는 일석삼조의 기술이다.

• Journal of Korea Society of Waste Management
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• v.35 no.7
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• pp.660-669
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• 2018

Domestic automotive shredder residue (ASR) recycling facilities must comply with 60% of the energy recovery criteria calculated by the waste control act, based on resource circulation of electrical and electronic equipment and vehicles. The method of calculating energy recovery criteria was newly enacted on November 6, 2017, and it has been judged that it is necessary to consider applicability. In this study, the energy recovery efficiency of 7 units was calculated by past and present calculation methods. Furthermore, this study attempts to find applicability and a method of increasing the energy recovery efficiency by taking advantage of available potentials. An analysis of the calculation results showed that the average values calculated by past methods, present methods, and the method that includes available potentials are 76.35%, 70.68%, and 78.24%, respectively. Therefore, the new calculation method for energy recovery efficiency is also applicable to domestic automotive shredder residue recycling facilities.

• Journal of the Korea Organic Resources Recycling Association
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• v.29 no.4
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• pp.87-97
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• 2021

This study was conducted to prepare an incentive system (proposal) for the activation of waste-to-energy. Weights for each type of energy use were prepared by conducting prior research and economic analysis. In addition, the waste-to-energy incentive (proposal) was calculated in consideration of energy efficiency for each type of energy use. As a result of economic analysis of 11 biogasification facilities, the B/C value was found to be very diverse, ranging from 0.16 to 1.69. In terms of benefits, imports of waste treatment import fees were very high at 68.4 to 99.3% of the total, and four facilities with a surplus (+) or higher in the management balance. In order to convert energy consumption into units of sales volume, 0.58 Nm³/KW for power generation, 0.17 Nm³/kg for steam, and 1.00 Nm³/Nm³ for external supply were calculated using the 'scale factor'. The 'weight factor' was calculated as 0.249 for power generation, 0.656 for steam, and 0.806 for external supply, respectively, by use type.

• 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.

• 한국신재생에너지학회:학술대회논문집
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• 2005.11a
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• pp.286-298
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• 2005

농산 폐자원으로부터 식품 및 의약품 소재로 쓰이는 xylose, arabinose, cellulose를 생산하였다. 농산 폐자원은 우리나라 실정에 적합한 볏짚과 옥수수 껍질을 선택하였으며, 공정수율은 xylose와 arabinose는 약 15$\sim$20%(w/w), cellulose 는 20%(w/w)로 나타났다. 폐자원을 활용하는 개발된 공정중에는 미생물 유전자 재조합 기술을 응용하여 고역가의 효소생산 system을 개발하여, 생산된 효소를 가수분해 공정 과정에 투입하여 경제성이 높고 친환경적인 기술로 확립하였다. 재조합 미생물과 xylose, arabinose 정제공정은 신뢰 높은 재연성을 나타냈으며 xylose 제조법과 xylitol 발효법은 package 형태로 기술 이전을 준비하고 있다.

• Journal of Energy Engineering
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• v.24 no.2
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• pp.22-33
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• 2015

This study analyzes the technological level of Korean waste-to-energy(WTE) firms and its determinants by using a multiple logistic regression analysis based on a survey. As the results of analysis, the technological level of Korean WTE firms has been positively influenced by the firm size, R&D expenditures, R&D manpower, but negatively influenced by the competition in domestic market. Also there is no significant effect of the economy of scale. The policy implications of this study are as follows; First, the system in which stakeholders coevolve should be set up to prevent excessive market competition from having a bad effect on the technological level of Korean WTE firms. Second, it is needed to make an effort to achieve the economy of scale by increasing an output and decreasing cost in WTE firms.

• Proceedings of the Korean Institute of Surface Engineering Conference
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• 2009.10a
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• pp.104-104
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• 2009

금값 폭등과 에너지자원 고갈에 따라 폐 인쇄회로기판의 유가금속 및 에너지자원을 효과적으로 회수하고자, 최근 국내외 금 회수 및 폐백보드 활용방안을 제시하였다. 금을 회수하는 방법으로는 침적박리, 농축처리, 중화처리, 수용액환원처리, 이온교환수지, 전해채취 등의 방법이 있다. 금은 상온침적박리 회수하며 폐백보드는 이동식 건축내장재로 활용하고자 한다.

• Journal of the KSME
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• v.49 no.11
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• pp.61-64
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• 2009

폐기물의 자원화, 에너지화를 통해 환경기초시설에서 발생하는 유기성 폐자원을 에너지원으로 활용하는 것이 시급한 실정이다. 이 글에서는 환경기초시설의 유기성 폐자원에서 발생하는 바이오가스의 이용 현황과 바이오가스를 연료로 하는 연료전지의 적용타당성에 대해 언급한다.

• Resources Recycling
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• v.33 no.1
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• pp.3-14
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• 2024

Owing to technological advancements and energy-saving policies, the demand for LED is increasing, leading to rapid industry expansion. Consequently, efficient recycling of accumulated LED waste has become a growing social concern, and current recycling status of LED waste resources and future directions were reviewed. Currently, waste LED recycling is focused on Ga recovery. Therefore, the development of integrated recycling technologies such as pre-treatment and concentration/recovery of high valued materials is necessary. In this study, we investigated the status and recycling technologies of waste LED and presented prospects.

• Resources Recycling
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• v.28 no.2
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• pp.14-22
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• 2019

Development of technology makes LED an economical option because of lower energy consumption and better environmental impact. Because higher consumer demand the LED market is expanding rapidly due to its environment-friendly advantages. Expansion of LED application, development of various fusion technologies, the emergence of new markets, and the large-scale expansion of markets would lead to a large volume of e-waste generation with valorization potential. Currently, most of the generated waste being that landfilled and incinerated due to the absence of technology and management system. In this paper, we review the current status of LED waste recycling and analyzes the available recycling technologies.