GB/T 41638.3-2023 English PDF

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GB/T 41638.3-2023: Plastics - Carbon and environmental footprint of biobased plastics - Part 3: Process carbon footprint - Requirements and guidelines for quantification
Status: Valid

Standard ID	USD	BUY PDF	Lead-Days	Standard Title (Description)	Status
GB/T 41638.3-2023	294	Add to Cart	3 days	Plastics - Carbon and environmental footprint of biobased plastics - Part 3: Process carbon footprint - Requirements and guidelines for quantification	Valid

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Basic data

Standard ID: GB/T 41638.3-2023 (GB/T41638.3-2023)
Description (Translated English): Plastics - Carbon and environmental footprint of biobased plastics - Part 3: Process carbon footprint - Requirements and guidelines for quantification
Sector / Industry: National Standard (Recommended)
Classification of Chinese Standard: G31
Classification of International Standard: 83.080.01
Word Count Estimation: 15,181
Date of Issue: 2023-05-23
Date of Implementation: 2023-12-01
Issuing agency(ies): State Administration for Market Regulation, China National Standardization Administration

GB/T 41638.3-2023: Plastics - Carbon and environmental footprint of biobased plastics - Part 3: Process carbon footprint - Requirements and guidelines for quantification

---This is a DRAFT version for illustration, not a final translation. Full copy of true-PDF in English version (including equations, symbols, images, flow-chart, tables, and figures etc.) will be manually/carefully translated upon your order.
ICS 83:080:01 CCSG31 National Standards of People's Republic of China Carbon and environmental footprints of plastic bio-based plastics Part 3: Requirements and guidelines for process carbon footprint quantification Released on 2023-05-23 2023-12-01 implementation State Administration for Market Regulation Released by the National Standardization Management Committee

table of contents

Preface I Introduction III 1 Scope 1 2 Normative references 1 3 Terms, Definitions and Abbreviations 1 4 Application 2 5 Principle 2 5:1 Overview 2 5:2 Life cycle perspective: from cradle to gate stage 2 5:3 Related methods and functional units 3 5:4 Iterative method 3 5:5 Method Priority 3 5:6 Correlation 3 5:7 Integrity3 5:8 Consistency 3 5:9 Continuity 3 5:10 Accuracy3 5:11 Transparency3 5:12 Avoid double counting 3 6 CFP quantitative method 4 6:1 Overview 4 6:2 Use of CFP-PCR 4 6:3 Goals and scope of P-CFP quantification 4 6:4 P-CFP life cycle inventory analysis 4 6:5 Impact assessment6 6:6 Explanation 6 7 CFP Research Report 6 7:1 Overview 6 7:2 GHG value reported by P-CFP research7 7:3 Necessary information for a CFP study report7 7:4 Optional Information for CFP Study Reports 8 8 Critical review 8 Reference 9

foreword

This document is in accordance with the provisions of GB/T 1:1-2020 "Guidelines for Standardization Work Part 1: Structure and Drafting Rules for Standardization Documents" to be drafted: This document is part 3 of GB/T 41638 "Carbon Footprint and Environmental Footprint of Bio-based Plastics": GB/T 41638 has The following parts were released: --- Part 1: General principles; --- Part 2: Carbon footprint of materials The amount (mass) of CO2 incorporated into polymer molecules from the air; --- Part 3: Process carbon footprint quantification requirements and guidelines: This document is equivalent to ISO 22526-3:2020 "Carbon and environmental footprint of plastic bio-based plastics - Part 3: Process carbon footprint Traces, Quantification Requirements and Guidelines”: The following minimal editorial changes have been made to this document: --- In order to coordinate with the existing standard, the name of the standard is changed to "The carbon and environmental footprint of plastic bio-based plastics Part 3: process Carbon Footprint Quantification Requirements and Guidelines”: Please note that some contents of this document may refer to patents: The issuing agency of this document assumes no responsibility for identifying patents: This document is proposed by the National Standardization Technical Committee on Bio-based Materials and Degradable Products (TC380): This document is sponsored by the National Standardization Technical Committee of Bio-based Materials and Degradable Products (TC380) and the National Environmental Management Standardization Technical Committee Committee (TC207) under the common jurisdiction: This document is drafted by: Beijing Technology and Business University, China National Institute of Standardization, Guangdong Chongxi Environmental Protection Technology Co:, Ltd:, Shanxi Huayang Biological Xie New Materials Co:, Ltd:, Yangzhou Huitong Technology Co:, Ltd:, Hefei Hengxin Life Technology Co:, Ltd:, Anhui Fengyuan Biotechnology Co:, Ltd: Technology Co:, Ltd:, Ningbo Jialian Technology Co:, Ltd:, Zhejiang Hisun Biomaterials Co:, Ltd:, Shanghai Dajue Packaging Products Co:, Ltd:, Yangzhou Huitong New Material Co:, Ltd:, Shenzhen Wandajie Environmental Protection New Material Co:, Ltd:, Tongcheng Chemical (China) Co:, Ltd:, Huitong Beigong Biotechnology (Beijing) Co:, Ltd:, Anhui Huachi Plastic Industry Co:, Ltd:, Anhui Zhongcheng Huadao Biodegradable Material Technology Co:, Ltd:, Wuhan Huali Environmental Protection Industry Co:, Ltd:, Jiangxi Province Pingxiang Xuanpin Plastic Products Co:, Ltd:, Chongqing Lianfa Plastic Technology Co:, Ltd: Division, Fuling Technology Co:, Ltd:, Zhejiang Huafa Ecological Technology Co:, Ltd:, Zhejiang Lvhe Ecological Technology Co:, Ltd:, National Plastics Product Quality Inspection and Testing Center (Beijing), Sichuan University, Henan Longdu Tianren Biomaterials Co:, Ltd:, Shenzhen Zhengwang Environmental Protection New Materials Co:, Ltd: Company, Shandong Xiaguang Group Co:, Ltd:, Jiangnan University, Tsinghua University, Qinhuangdao Longjun Environmental Protection Industry Development Co:, Ltd:, Beijing Yonghua Qingtian Technology Development Co:, Ltd:, Beijing Shuangjian Plastic Packaging Products Co:, Ltd:, Jiangsu Jinhe High-tech Co:, Ltd:, Jinhui Zhaolong High-tech Technology Co:, Ltd:, Zhangzhou Green Plastic New Material Co:, Ltd:, Anhui Fengyuan Fermentation Technology Engineering Research Co:, Ltd:, Shenzhen Guanghua Weiye Stock Co:, Ltd:, Shandong Dawn Degradable Materials Co:, Ltd:, Zhuhai Yikede Environmental Protection New Materials Co:, Ltd:, China Shenhua Coal-to-oil Chemical Co:, Ltd: Co:, Ltd:, Ningbo Changya New Material Technology Co:, Ltd:, Shanghai Jinghaiweixiang Biomaterials Co:, Ltd:, Anhui Xuelang Biotechnology Co:, Ltd: Co:, Ltd:, Anhui Hengxin Environmental Protection New Material Co:, Ltd:, Beijing Lvcheng Biomaterial Technology Co:, Ltd:, Dongguan Xinhai Environmental Protection Material Co:, Ltd: Company, Guangzhou Biga Material Technology Co:, Ltd:, Henan Jindan Lactic Acid Technology Co:, Ltd:, Jilin Kaishun New Material Co:, Ltd:, Jilin COFCO Biomaterials Co:, Ltd:, Jiangsu Jinzhihong New Material Co:, Ltd:, Jiangxi Heers Environmental Protection Technology Co:, Ltd:, Pulisi Biotechnology Co:, Ltd: Co:, Ltd:, Shandong Shenghe Film New Material Co:, Ltd:, Shandong Shouguang Juneng Golden Corn Development Co:, Ltd:, Shanghai Changfa New Material Co:, Ltd: Division, Shanghai Hongrui Biotechnology Co:, Ltd:, Xinjiang Lanshan Tunhe Technology Co:, Ltd:, Zhejiang Boxia Environmental Protection Technology Co:, Ltd:, Zhejiang Home Lemi Gardening Technology Co:, Ltd:, Shenzhen Rainbow New Material Technology Co:, Ltd:, Zhuhai Jinfa Biomaterials Co:, Ltd:, Anhui Huayi Packaging Co:, Ltd:, Dajue (Zhejiang) New Material Co:, Ltd:, China Jingye Engineering Technology Co:, Ltd:, Anhui Keju New Material Technology Co:, Ltd:, South Beijing University of Technology, Shenzhen Huazhe Jingwei Biotechnology Co:, Ltd:, Jilin Province Heyi New Material Co:, Ltd:, Jiangsu Zhongke Jinlong Environmental Protection New Material Materials Co:, Ltd:, Changchun Institute of Applied Chemistry, Chinese Academy of Sciences, BASF (China) Co:, Ltd:, Zhangzhou Jiean Plastic Co:, Ltd:, Xiantaokang Shou Degradable Materials Co:, Ltd:, Sichuan Keyinda Biotechnology Co:, Ltd:, Shandong Qingquan Biotechnology Co:, Ltd:, Gansu Mogaojuhe Environmental Protection New Material Technology Co:, Ltd:, Tongji University, Shanghai Tongjieliang Biomaterials Co:, Ltd:, Maanshan Tongjieliang Biomaterials Co:, Ltd:, Henan Tetron Biotechnology Co:, Ltd:, Guizhou Academy of Tobacco Science, Guizhou Tobacco Company Qiannan Prefecture Company, China National Tobacco Corporation Guizhou Province company: The main drafters of this document: Hu Jing, Weng Yunxuan, Diao Xiaoqian, Jin Yujuan, Peng Yanyan, He Tingting, Wei Jie, Tong Mingquan, Zhang Jiangang, Yan Deping, Wang Chunxia, Zhang Fuxiang, Ji Chuanxia, Wang Shu, Wang Xiong, Liang Wei, Xiong Lulu, Jiang Suchen, Wei Da, Zhao Yanchao, Shen Kunliang, Wang Chunqiu, Ai Rong, Zhou Jiushou, Zhang Libin, Wang Peng, Hu Xinfu, Sun Yuanzheng, Mi Kejun, Zhou Yingxin, Wu Gang, Wang Yuzhong, Ruan Liuwen, Zhang Jianhong, Zhao Yueying, Zhu Mang, Ma Piming, Chen Guoqiang, Guo Baohua, Zhi Zhaohui, Liu Yunqiao, Huang He, Yin Zhengfu, Fan Wuyuan, Xu Yanlong, Yang Yihu, Chen Rui, Li Zonghua, Chen Xichang, Wen Liang, Yin Tian, Jiang Zhikui, Xu Jianhai, Wang Hui, Wan Yuqing, Ye Xinjian, Wang Lei, Yang Haiquan, Li Jun, Shi Congliang, Shan Yuzhu, Liu Zhigang, Guan Yang, Liang Peng, Gao Wanqin, Li Rongqun, Li Bin, Gao Shijun, Zheng Lu, Xu Youli, Yang Hong, Ding Jianping, Wu Wei, Zhao Fujian, Hu Dongjun, Huang Jian, Chen Chen, Jin Lizan, Yuan Senlin, Ye Runlu, Hu Xiaolong, Zhu Chenjie, Fang Hai, Huo Ruili, An Zhe, Sheng Gang, Xu Kun, Chen Xuesi, Bian Xinchao, Liu Jiayi, Liu Zhizhong, Lin Cunge, Ye Wenbin, Shangguan Zhihui, Zong Jingdong, Ren Jie, Zhang Naiwen, Wang Qinfeng, Zhang Peng, Gao Weichang, Lu Jianyong, Cai Kai, Wan Neng, Zhu Yanli, Wang Yi:

Introduction

GB/T 41638 "Carbon Footprint and Environmental Footprint of Bio-based Plastics" is proposed to be composed of five parts: --- Part 1: General: The purpose is to provide information and guidance for life cycle assessment and application of bio-based products: --- Part 2: Material carbon footprint The amount (mass) of CO2 incorporated into polymer molecules from the air: determined according to test results The biocarbon content, which is used to calculate the CO2 reduction that can be achieved by biochar instead of petroleum carbon (material carbon footprint): --- Part 3: Process carbon footprint quantification requirements and guidelines: Specifies the requirements for quantifying and reporting the carbon footprint of the bio-based plastics process: --- Part 4: Environmental (total) footprint (life cycle assessment): Using the method of life cycle assessment, calculate the conversion of input materials into final products The process carbon footprint generated during the production process enables sustainable and environmentally responsible management of carbon (carbon-based materials): --- Part 5: Reporting and evaluation: Requirements for reporting the results of carbon and environmental footprint assessments of bio-based plastics: Increasing the use of biomass resources in the production of plastic products can alleviate the trend of global warming and slow down the depletion of fossil resources: At present, plastic products are mainly composed of bio-based synthetic polymers, fossil-based synthetic polymers, natural polymers and additives containing bio-based materials: Made with additives: Bio-based plastics are plastics that are wholly or partly derived from biomass: Carbon and environmental footprints of plastic bio-based plastics Part 3: Requirements and guidelines for process carbon footprint quantification

1 Scope

This document specifies the requirements and guidelines for the carbon footprint quantification report (see ISO 22526-1) of the bio-based plastics process: This document serves as Part of the standards related to the carbon footprint of bio-based plastic products, based on ISO 14067 and life cycle assessment standards (ISO 14040 and ISO 14044) requirements: This document applies to studies of the process carbon footprint (P-CFP) of plastic materials, i:e: the partial carbon footprint of a product, whether or not the results are intended public: This document provides the requirements and guidelines for the quantification of a product's partial carbon footprint (partial CFP): According to ISO 14067, use the specification in this document According to the specific conditions and requirements specified, the carbon footprint of the process is studied as part of the carbon footprint: This document specifies the analysis and calculation process and report content of P-CFP to ensure the transparency and credibility of the report: Set-off does not apply to this document:

2 Normative references

The contents of the following documents constitute the essential provisions of this document through normative references in the text: Among them, dated references For documents, only the version corresponding to the date is applicable to this document; for undated reference documents, the latest version (including all amendments) is applicable to this document: Note: GB/T 24044-2008 Environmental Management Life Cycle Assessment Requirements and Guidelines (ISO 14044:2006, IDT) Note: GB/T 24050-2004 Environmental Management Terminology (ISO 14050:2002, IDT) ISO 14067:2018 Requirements and guidelines for the quantification and notification of carbon footprints of greenhouse gas products (Greenhousegases- ISO /T S14071 Environmental management life cycle assessment key review process and reviewer competencies: an addition to ISO 14044:2006 3 Terms, Definitions and Abbreviations 3:1 Terms and Definitions The terms and definitions defined in ISO 14050 and ISO 14067 and the following apply to this document: The terminology databases maintained by ISO and IEC for standardization can be found at the following URLs: ---ISO online browsing platform: https://www:iso:org/obp; ......

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