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ASR의 물리화학적 특성 분석 및 용융로에서의 최적 용융 조건 도출 연구 KCI 등재

Studies on Physicochemical Characteristics and Optimal Melting Condition of Automobile Shredder Residue in a Melting Furnace

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한국폐기물자원순환학회지 (Journal of Korea Society of Waste Management)
한국폐기물자원순환학회 (Korea Society Of Waste Management)
초록

Recently, the recycling of end-of-life vehicles is becoming increasingly interesting for less waste discharge and recovering useful materials such as valuable metals. Hence, in Korea, the target of the recycling rate is made to 85% until 2014 (energy recovery within 5%) and the recycling rate to 95% after 2015 (energy recovery within 10%) according to the law of "regulation about resource recycling of electrical and electronic products and automobiles". However, the recycling rate is around 84% in 2010, and registered numbers of shredder residue recyclers among dismantling recyclers, crushing recyclers, shredder residue recyclers, and waste gases recyclers are very few. In order to meet the goal of 85% until 2014, Korean recycling industry of ASR should grow bigger and innovative recycling technologies have to be developed as well. In the meantime, a recycling technology of automobile shredder residue is developed in the present study, in which ASR is introduced to a copper smelting process. This process is very promising because of co-beneficial effects such as recovering copper and process heat simultaneously from ASR. In this study, lab-scale melting furnace was developed and melting tests for various ASR were carried out. From the results, the physicochemical characteristics of Korean ASR were analyzed and its melting behavior was investigated for the application to the copper smelting process. In particular, melted slag products were fabricated at different melting temperatures. Then, the basicity and pouring index in the lab-scale melting furnace were examined to find out appropriate operating conditions for the melting process. As a result, Because the amount of lump coal that included in existing process samples is a little, melting state and value of pouring index are very similar to existing process samples. In result of this experiment, in case of changing lump coal to ASR, The existing copper smelting facilities, if basicity and melting temperature are well controlled, flow of melting material is considered that is almost not affected.

저자
  • 박준경(연세대학교 환경공학부) | Jun-Kyung Park
  • 서용칠(연세대학교 환경공학부) | Yong-Chil Seo Corresponding author
  • 이장수(연세대학교 환경공학부) | Jang-Soo Lee
  • 유흥민(연세대학교 환경공학부) | Heung-Min Yoo
  • 양원석(연세대학교 환경공학부) | Won-Seok Yang
  • 박세원(연세대학교 환경공학부) | Se-Won Park
  • 한병현(연세대학교 환경공학부) | Byung-Hyun Han
  • 최항석(연세대학교 환경공학부) | Hang-Seok Choi
  • 조성진(연세대학교 환경공학부) | Sung-Jin Cho
  • 이기배(연세대학교 환경공학부) | Ki-Bae Lee
  • 김우현(한국기계연구원 환경에너지기계연구본부) | Woo-Hyun Kim