1 Korea Cement Association,
2 김경훈 ; 정영관 ; 고형종, "저등급 열원의 변환을 위한 칼리나 사이클과 유기 랭킨 사이클의 엑서지 성능의 비교 해석" 한국수소및신에너지학회 31 (31): 105-111, 2020
3 조수용 ; 조종현, "유기랭킨사이클의 작동유체 물성치가 사이클에 미치는 영향에 관한 연구" 한국유체기계학회 18 (18): 5-12, 2015
4 고아름 ; 박성호 ; 김준영 ; 차재민, "산업폐열 발전시스템 경제성분석 모듈 개발 및 신뢰성 최적화" 한국에너지학회 27 (27): 50-63, 2018
5 양인재 ; 박제현 ; 김윤수, "광업분야 탄소중립과 ESG 경영실천을 위한 제언" 한국자원공학회 59 (59): 474-488, 2022
6 "Waste-heat"
7 Bertrand, A., "Waste heat-topower with steam and organic rankine cycles : potentials and feed-in tariffs in the EU27+UK" 8 : 12552-12569, 2022
8 Park, M. H., "Waste heat recovery system of cement plant" 21 : 26-32, 1993
9 Cho, Y. J., "Waste heat recovery system and CO2reduction" 186 : 43-49, 2010
10 Seo, H. N., "Waste heat recovery system" 164 : 15-18, 2004
1 Korea Cement Association,
2 김경훈 ; 정영관 ; 고형종, "저등급 열원의 변환을 위한 칼리나 사이클과 유기 랭킨 사이클의 엑서지 성능의 비교 해석" 한국수소및신에너지학회 31 (31): 105-111, 2020
3 조수용 ; 조종현, "유기랭킨사이클의 작동유체 물성치가 사이클에 미치는 영향에 관한 연구" 한국유체기계학회 18 (18): 5-12, 2015
4 고아름 ; 박성호 ; 김준영 ; 차재민, "산업폐열 발전시스템 경제성분석 모듈 개발 및 신뢰성 최적화" 한국에너지학회 27 (27): 50-63, 2018
5 양인재 ; 박제현 ; 김윤수, "광업분야 탄소중립과 ESG 경영실천을 위한 제언" 한국자원공학회 59 (59): 474-488, 2022
6 "Waste-heat"
7 Bertrand, A., "Waste heat-topower with steam and organic rankine cycles : potentials and feed-in tariffs in the EU27+UK" 8 : 12552-12569, 2022
8 Park, M. H., "Waste heat recovery system of cement plant" 21 : 26-32, 1993
9 Cho, Y. J., "Waste heat recovery system and CO2reduction" 186 : 43-49, 2010
10 Seo, H. N., "Waste heat recovery system" 164 : 15-18, 2004
11 Ozturk, M., "Utilization of waste heat from cement plant to generate hydrogen and blend it with natural gas" 47 : 20695-20704, 2022
12 Zaferani, S. H., "Thermal management systems and waste heat recycling by thermoelectric generators – an overview" 14 : 5646-, 2021
13 Moreira, L. F., "Thermal and economic assessment of organic rankine cycles for waste heat recovery in cement palnts" 114 : 109315-, 2019
14 He, C., "The optimal eva-poration temperature and working fluids for subcritical organic rankine cycle" 38 : 136-143, 2012
15 Schneider, M., "The cement industry on the way a low-carbon future" 124 : 105792-, 2019
16 Liu, L., "Supercritical carbon dioxide(s-CO2)power cycle for waste heat recovery : a review from thermodynamic perspective" 8 : 1461-, 2020
17 Kharter, A. M., "Power generation in white cement plants from waste heat recovery using steam-organic combined rankine cycle" 4 : 100138-, 2021
18 Jokar, Z., "Policy making in the cement industry for CO2 mitigation on the pathway of sustainable development-A system dynamics approach" 201 : 142-155, 2018
19 Chen, H., "Performance evaluation of a noble design for the waste heat recovery of a cement plant incorporating a coal-fired power plant" 246 : 1233420-, 2022
20 Kwon, D. U., "Per-formance characteristics of organic rankine cycle using medium temperature waste heat with different working fluids" 10 (10): 38-47, 2014
21 Wang, H., "Organic rankine cycle saves energy and reduces gas emissions for cement production" 86 : 59-73, 2015
22 Pieper, C., "Numerical investigation of the impact of coating layers on RDF combustion and clinker properties in rotary cement kilns" 283 : 118951-, 2021
23 "Newsway"
24 Fergani, Z., "Multi-criteria exergy based optimization of an organic rankine cycle for waste heat recovery in the cement industry" 112 : 81-90, 2015
25 Fierro, J. J., "Exergy-economic comparison of waste heat recovery cycles for a cement industry case study" 13 : 100180-, 2022
26 Wang, J., "Exergy analysis and parametric optimizations for different cogeneration power plants in cement industry" 86 : 941-948, 1994
27 Fierro, J. J., "Evaluation of waste heat recovery tech-nologies for the cement industry" 7-8 : 100040-, 2020
28 Ghalandari, V., "Energy audit for pyro-processing unit of a new generation cement plant and feasibility study for recovering waste heat : A case study" 22 (22): 833-843, 2019
29 Rad, E. A., "Energetic and exergetic optimized rankine cycle for waste heat recovery in a cement factory" 132 : 410-422, 2018
30 Laazaar, K., "Development of new technique of waste heat recovery in cement plants based on stirling engine technology" 210 : 118316-, 2022
31 Pradeep Varma, G. V., "Desing and analysis of a coeneration plant using heat recovery of a cement factory" 5 : 24-31, 2015
32 Kim, J. Y., "Design of economic analysis module for waste heat recovery based on system engineering approach" 14 (14): 1-12, 2018
33 Ahmed, A., "Design methodology of organic rankine cycle for waste heat recovery in cement plants" 129 : 421-430, 2018
34 Naeimi, A., "Design and exergy analysis of waste recovery system and gas engine for power generation in Tehran cement factory" 9 : 299-307, 2019
35 Costa Horta, G. R., "Comparison of kalina cycles for heat recovery appli-cation in cement industry" 19 : 117167-, 2021
36 Junior, E. P. B., "Assessment of a kalina cycle for waste heat recovery in the cement industry" 147 : 421-437, 2019
37 Zeb, K., "A survey on waste heat recovery : Electric power generation and potential prospects within Pakistan" 75 : 1142-1155, 2017
38 Wang, Y., "A novel carbon dioxide capture system for a cement plant based on waste heat utilization" 257 : 115426-, 2022
39 Sanaye, S., "A comperhensive approach for designing, modeling nad optimizaing of waste heat recovery cycle and power generation system in a cement plant: A thermo-economic and environmental assessment" 205 : 112353-, 2020
40 김경수 ; 방세경 ; 서인호 ; 이상윤 ; 정은익 ; 이중섭, "250kW급 폐열회수 시스템 공정설계에 관한 연구" 한국기계가공학회 18 (18): 90-95, 2019