Current situation and development trend of traceability system of hazardous chemicals in China

Teng Su; Chang Liu; Ru Zhou

doi:10.1051/e3sconf/202126702005

All issues

Volume 267 (2021)

E3S Web Conf., 267 (2021) 02005

References

Open Access

Issue		E3S Web Conf. Volume 267, 2021 7^th International Conference on Energy Science and Chemical Engineering (ICESCE 2021)


Article Number		02005
Number of page(s)		5
Section		Environmental Chemistry Research and Chemical Preparation Process
DOI		https://doi.org/10.1051/e3sconf/202126702005
Published online		04 June 2021

Cao X.P. Development status, problems and Countermeasures of chemical industry park[J]. Chemical management, 2020(07):1-3. [Google Scholar]
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Anonymity. Information traceability system of dangerous goods and other important products to be built in China [J]. Low temperature and special gas, 2017(01):30. [Google Scholar]
Kong H.L, Li J.H. Application of global unified identification system in food safety tracking and traceability system [J]. Food science, 2004(06):188-194. [Google Scholar]
Liu W.G, Bai Y.Z. Development and application of bar code technology [J]. Digital world, 2018,000(005):504–505. [Google Scholar]
Guo W, Chu X.G. RFID technology and its application in food safety field [J]. Food technology, 2007(09):5-7. [Google Scholar]
Qu A.L, Liu H.M, Ma C.L. Application of RFID technology in food traceability [J]. Agricultural products processing, 2020(08):86-88. [Google Scholar]
Smallwood B J, Philp R P, Allen J D. Stable carbon isotopic composition of gasolines determined by isotope ratio monitoring gas chromatography mass spectrometry[J]. Organic Geochemistry, 2002,33(2): 149-159. [Google Scholar]
Wei Y.M, Guo B.L, Wei S, et al. Research and application methods of food origin traceability and confirmation technology [J]. Chinese Agricultural Sciences, 2012, 45(24):5073-5081. [Google Scholar]
Laureles L R, Rodriguez F M, Reaño C E, et al. Variability in fatty acid and triacylglycerol composition of the oil of coconut (Cocos nucifera L.) hybrids and their parentals. [J]. J Agric Food Chem, 2002, 50(6):1581-1586. [Google Scholar]
Cunha, S. C, Faria, et al. Quantification of organic acids in grape musts and Port wines[J]. Ciencia y Tecnología Alimentaria, 2002, 3(4):212. [Google Scholar]
Liu X.X, Wang Y, Wang Y.L, et al. Identification of Middle East crude oil by carbon stable isotope ratio mass spectrometry [J]. Analytical chemistry, 2012, 40(07):1104-1108. [Google Scholar]
Harvey S D, Jarman K H, Moran J J, et al. Characterization of diesel fuel by chemical separation combined with capillary gas chromatography (GC) isotope ratio mass spectrometry (IRMS)[J]. Talanta, 2012, 99:262-269. [Google Scholar]
Novák M, Palya D, Bodai Z, et al. Combined cluster and discriminant analysis: An efficient chemometric approach in diesel fuel characterization[J]. Forensic Science International, 2017, (270):61-69. [Google Scholar]
Journal editorial department. Four departments jointly implement special control on 20 kinds of dangerous chemicals [J]. Safety production in China, 2020, 15(07):6-7. [Google Scholar]
Zhou F.J. Research on safety management of hazardous chemicals in chemical industry[D]. 2012, Yunnan University, MA thesis. pp. 4-7. [Google Scholar]
Zong H. How to manage dangerous chemicals abroad [J]. Fire protection in China, 2015(19):48-49. [Google Scholar]
Ying J.W. Strict examination and approval of projects, strict personnel access, storage and fixed location management, special state control of 20 categories of dangerous chemicals [J]. Shanghai Chemical Industry, 2019, 44(11):41. [Google Scholar]

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[1] Cao X.P. Development status, problems and Countermeasures of chemical industry park[J]. Chemical management, 2020(07):1-3. [Google Scholar]

[2] Montalván R, Ando A, Echeverrigaray S. Use of seed protein polymorphism for discrimination of improvement level and geographic origin of upland rice cultivars[J]. Genetics and Molecular Biology, 1998,21(4):531–535. [Google Scholar]

[3] Anonymity. Information traceability system of dangerous goods and other important products to be built in China [J]. Low temperature and special gas, 2017(01):30. [Google Scholar]

[4] Kong H.L, Li J.H. Application of global unified identification system in food safety tracking and traceability system [J]. Food science, 2004(06):188-194. [Google Scholar]

[5] Liu W.G, Bai Y.Z. Development and application of bar code technology [J]. Digital world, 2018,000(005):504–505. [Google Scholar]

[6] Guo W, Chu X.G. RFID technology and its application in food safety field [J]. Food technology, 2007(09):5-7. [Google Scholar]

[7] Qu A.L, Liu H.M, Ma C.L. Application of RFID technology in food traceability [J]. Agricultural products processing, 2020(08):86-88. [Google Scholar]

[8] Smallwood B J, Philp R P, Allen J D. Stable carbon isotopic composition of gasolines determined by isotope ratio monitoring gas chromatography mass spectrometry[J]. Organic Geochemistry, 2002,33(2): 149-159. [Google Scholar]

[9] Wei Y.M, Guo B.L, Wei S, et al. Research and application methods of food origin traceability and confirmation technology [J]. Chinese Agricultural Sciences, 2012, 45(24):5073-5081. [Google Scholar]

[10] Laureles L R, Rodriguez F M, Reaño C E, et al. Variability in fatty acid and triacylglycerol composition of the oil of coconut (Cocos nucifera L.) hybrids and their parentals. [J]. J Agric Food Chem, 2002, 50(6):1581-1586. [Google Scholar]

[11] Cunha, S. C, Faria, et al. Quantification of organic acids in grape musts and Port wines[J]. Ciencia y Tecnología Alimentaria, 2002, 3(4):212. [Google Scholar]

[12] Liu X.X, Wang Y, Wang Y.L, et al. Identification of Middle East crude oil by carbon stable isotope ratio mass spectrometry [J]. Analytical chemistry, 2012, 40(07):1104-1108. [Google Scholar]

[13] Harvey S D, Jarman K H, Moran J J, et al. Characterization of diesel fuel by chemical separation combined with capillary gas chromatography (GC) isotope ratio mass spectrometry (IRMS)[J]. Talanta, 2012, 99:262-269. [Google Scholar]

[14] Novák M, Palya D, Bodai Z, et al. Combined cluster and discriminant analysis: An efficient chemometric approach in diesel fuel characterization[J]. Forensic Science International, 2017, (270):61-69. [Google Scholar]

[15] Journal editorial department. Four departments jointly implement special control on 20 kinds of dangerous chemicals [J]. Safety production in China, 2020, 15(07):6-7. [Google Scholar]

[16] Zhou F.J. Research on safety management of hazardous chemicals in chemical industry[D]. 2012, Yunnan University, MA thesis. pp. 4-7. [Google Scholar]

[17] Zong H. How to manage dangerous chemicals abroad [J]. Fire protection in China, 2015(19):48-49. [Google Scholar]

[18] Ying J.W. Strict examination and approval of projects, strict personnel access, storage and fixed location management, special state control of 20 categories of dangerous chemicals [J]. Shanghai Chemical Industry, 2019, 44(11):41. [Google Scholar]