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다국어 초록 (Multilingual Abstract)

To simulate a process model in the field of chemical engineering, it is very important to identify the physical properties of novel materials as well as existing materials. However, it is difficult to measure the physical properties throughout a set of experiments due to the potential risk and cost. To address this, this study aims to develop a property prediction model based on the group contribution method for aromatic chemical compounds including benzene rings. The benzene rings of aromatic materials have a significant impact on their physical properties. To establish the prediction model, 42 important functional groups that determine the physical properties are considered, and the total numbers of functional groups on 147 aromatic chemical compounds are counted to prepare a dataset. Support vector regression is employed to prepare a prediction model to handle sparse and high-dimensional data. To verify the efficacy of this study, the results of this study are compared with those of previous studies. Despite the different datasets in the previous studies, the comparison indicated the enhanced performance in this study. Moreover, there are few reports on predicting the physical properties of aromatic compounds. This study can provide an effective method to estimate the physical properties of unknown chemical compounds and contribute toward reducing the experimental efforts for measuring physical properties.

참고문헌 (Reference)

1 차상훈, "수학적 모델과 폭발사고 모델링을 통한 산화에틸렌 공정의 설비 배치 최적화에 관한 연구" 한국안전학회 35 (35): 25-33, 2020

2 V. N. Vapnik, "The nature of statistical learning Theory" Springer-Verlag 1995

3 B. E. Poling, "The Properties of Gases and Liquids Vol. 5" Mcgraw-hill 2001

4 Korea Petrochemical Industry Association, "Supply and Demand Status of Petrochemical Industry" 2019

5 T. A. Albahri, "Structural Group Contribution Method for Predicting the Octane Number of Pure Hydrocarbon Liquids" 42 (42): 657-662, 2003

6 Y. Pan, "Quantitative Structure-Property Relationship Studies for Predicting Flash Points of Organic Compounds using Support Vector Machines" 27 (27): 1013-1019, 2008

7 R. Poli, "Particle Swarm Optimization" 1 (1): 33-57, 2007

8 박평재, "PSO 최적화 기법을 이용한 Ethylene Oxide Plant 배치에 관한 연구" 한국안전학회 30 (30): 32-37, 2015

9 J. E. McMurry, "Organic Chemistry; Nineth Edition" Pearson 2015

10 M. Schwwab, "Nonlinear Parameter Estimation through Particle Swarm Optimization" 63 (63): 1542-1552, 2008

1 차상훈, "수학적 모델과 폭발사고 모델링을 통한 산화에틸렌 공정의 설비 배치 최적화에 관한 연구" 한국안전학회 35 (35): 25-33, 2020

2 V. N. Vapnik, "The nature of statistical learning Theory" Springer-Verlag 1995

3 B. E. Poling, "The Properties of Gases and Liquids Vol. 5" Mcgraw-hill 2001

4 Korea Petrochemical Industry Association, "Supply and Demand Status of Petrochemical Industry" 2019

5 T. A. Albahri, "Structural Group Contribution Method for Predicting the Octane Number of Pure Hydrocarbon Liquids" 42 (42): 657-662, 2003

6 Y. Pan, "Quantitative Structure-Property Relationship Studies for Predicting Flash Points of Organic Compounds using Support Vector Machines" 27 (27): 1013-1019, 2008

7 R. Poli, "Particle Swarm Optimization" 1 (1): 33-57, 2007

8 박평재, "PSO 최적화 기법을 이용한 Ethylene Oxide Plant 배치에 관한 연구" 한국안전학회 30 (30): 32-37, 2015

9 J. E. McMurry, "Organic Chemistry; Nineth Edition" Pearson 2015

10 M. Schwwab, "Nonlinear Parameter Estimation through Particle Swarm Optimization" 63 (63): 1542-1552, 2008

11 E. Stefanis, "New Group-Contribution Method for Predicting Temperature-dependent Properties of Pure Organic Compounds" 26 (26): 1369-1388, 2005

12 L. Constantinou, "New Group Contribution Method for Estimating Properties of Pure Compounds" 40 (40): 1697-1710, 1994

13 L. Constantinou, "New Group Contribution Method for Estimating Properties of Pure Compounds" 40 (40): 1697-1710, 1994

14 Z. Zbransk, "Estimation of the Heat Capacity of Organic Liquids as a Function of Temperature by a Three-Level Group Contribution Method" 47 (47): 2075-2085, 2008

15 K. M. Klincewicz, "Estimation of Critical Properties with Group Contribution Methods" 30 (30): 137-142, 1984

16 A. L. Lydersen, "Estimation of Critical Properties of Organic Compounds by the Method of Group Contributions" University of Wisconsin 1955

17 "Design Institute for Physical Properties"

18 C. J. Lee, "An Advanced Group Contribution Method for High‐Dimensional, Sparse Data Sets" 31 (31): 41-52, 2012

19 En Sup Yoon, "A new estimation algorithm of physical properties based on a group contribution and support vector machine" 한국화학공학회 25 (25): 568-574, 2008

20 K. G. Joback, "A Unified Approach to Physical Property Estimation Using Multivariate Statistical Techniques" Massachusetts Institute of Technology 1984

21 R. F. Fedors, "A Relationship between Chemical Structure and the Critical Temperature" 16 (16): 149-151, 1982

22 F. Gharagheizi, "A New Neural Network-Group Contribution Method for Estimation of Flash Point Temperature of Pure Components" 22 (22): 1628-1635, 2008

23 X. Wen, "A New Group Contribution Method for Estimating Critical Properties of Organic Compounds" 40 (40): 6245-6250, 2001

연월일	이력구분	이력상세
2027	평가예정	재인증평가 신청대상 (재인증)
2021-01-01	평가	등재학술지 유지 (재인증)
2018-01-01	평가	등재학술지 유지 (등재유지)
2015-01-01	평가	등재학술지 유지 (등재유지)
2011-01-01	평가	등재학술지 유지 (등재유지)
2009-01-01	평가	등재학술지 유지 (등재유지)
2007-01-01	평가	등재학술지 유지 (등재유지)
2005-10-26	학술지명변경	한글명 : 산업안전학회지 -> 한국안전학회지
2005-02-28	학회명변경	한글명 : 한국산업안전학회 -> 한국안전학회 영문명 : The Korean Institute Of Industrial Safety -> The Korean Society of Safety
2004-01-01	평가	등재학술지 선정 (등재후보2차)
2003-01-01	평가	등재후보 1차 PASS (등재후보1차)
2001-07-01	평가	등재후보학술지 선정 (신규평가)

기준연도	WOS-KCI 통합IF(2년)	KCIF(2년)	KCIF(3년)
2016	0.3	0.3	0.31
KCIF(4년)	KCIF(5년)	중심성지수(3년)	즉시성지수
0.28	0.27	0.519	0.12

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Group Contribution Method 및 Support Vector Regression 기반 모델을 이용한 방향족 화합물 물성치 예측에 관한 연구 = Group Contribution Method and Support Vector Regression based Model for Predicting Physical Properties of Aromatic Compounds

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