Browse > Article
http://dx.doi.org/10.6106/KJCEM.2022.23.1.073

Development of a Sustainable Waste Paint Treatment Process for Waste Resource Recovery Improvement  

Moon, Jongwook (School of Architecture, Kyungnam University)
Hwang, Suckho (School of Architecture, Kyungnam University)
Kim, Daeyoung (School of Architecture, Kyungnam University)
Publication Information
Korean Journal of Construction Engineering and Management / v.23, no.1, 2022 , pp. 73-82 More about this Journal
Abstract
Waste paint, one of the specified wastes in Korea, is currently treated entirely by incineration treatment method, and is hardly recycled compared to other wastes. Incineration treatment method also causes environmental problems such as air pollution. Thus, this study breaks away from the existing incineration treatment method of waste paint and switch to a method of pretreatment operation through evaporation, condensation, and thermal decomposition by temperature control. and then proposes a sustainable waste paint treatment process that can be recycled as an alternative energy heat source. If a new method of disposing of waste paint and technology for recycling are developed and disseminated, it is expected that the effect will be large from an economic and environmental point of view.
Keywords
Sustainable Development; Waste Resource Recovery; Waste Paint; Incineration Treatment; Sustainable Waste Paint Treatment Process;
Citations & Related Records
연도 인용수 순위
  • Reference
1 Moon, J.W., and Lim, S.H. (2015). "A Study on the Fire Safety of Lightweight Panels with Coating Bottom Ash." Journal of the Korean Residential Environment Association, 13(4), pp. 221-229.
2 Oh, K.J., Kim, J.G., Park, S.S., Sung, N.C., and Lee, S.K. (2014). "Resource Recovery Engineering." Donghwa Technology, pp. 11-34 & 151-186 & 245-265.
3 Park, S.B. (2010). "Waste Treatment Engineering." Seongandang, pp. 28-77 &. 164-179.
4 Kim, Y.S. (2014). "What is a green building?" Kimoondang, pp. 29-40.
5 B. J.K. (2006). "Waste Treatment Engineering." Kumiseokwan, pp. 38-40 & 639-754.
6 Yoon, O.S. (2011). "Hazardous Waste-Hazardous Material Characteristics." Dongwha Technology, pp. 42-43 & 77-175.
7 Ki, M.B., Lee, S.J., and Park, J.S. (2009). "Hazardous Waste Treatment." Shinkwang Bookstore, pp. 70-72 & 315-347.
8 Kim, M.K., Kim, H.G., Ryu, S., Jung, H. and Jung, H.K. (2018). "Environmental Chemistry." Freedom Academy, pp. 543-590 &. 711-724.
9 Kwon, O.S., Ho, Y.Y., and Kim, H.Y. (2010). "Experimental Study on the Characteristics of Real Fire in Warehouse Model." Journal of Korean Institute of Fire Science and Engineering, 24(4), pp. 47-54.
10 Jang, J.H., and Kim, D.B. (2016). "A Study on the Investigation and Analysis of Building Structures and Materials through Field Surveys in Large Logistics Warehouses." 2016 Spring Conference of the Korean Society of Fire Science and Engineering, pp. 231-232.
11 Kim, C.S., Kim, H.N., and Moon, T.H. (2020). "Environmental Administration." Daeyoung Bookstore, pp. 323-327.
12 Kim, I.B., Park, J.R., Ahn, J.S., and Yoon, J.H. (2014). "Waste Treatment." Donghwa Technology, pp. 213-218 & 281-282.
13 An, Y.H., Annie P., Hanmi Grobal (2012). "Sustainable Architecture and Infra-structure." Maeil Economic Daily, pp. 19-38.
14 Im, M.T. (2011). "Sustainable Architecture." Bomoondang, pp. 11-27 & 293-297.