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GB/T 41638.1-2022 English PDF

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GB/T 41638.1-2022: Plastics - Carbon and environmental footprint of biobased plastics - Part 1: General principles
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GB/T 41638.1-2022English244 Add to Cart 3 days [Need to translate] Plastics - Carbon and environmental footprint of biobased plastics - Part 1: General principles Valid GB/T 41638.1-2022

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Basic data

Standard ID GB/T 41638.1-2022 (GB/T41638.1-2022)
Description (Translated English) Plastics - Carbon and environmental footprint of biobased plastics - Part 1: General principles
Sector / Industry National Standard (Recommended)
Classification of Chinese Standard Z04;G31
Word Count Estimation 13,113
Issuing agency(ies) State Administration for Market Regulation, China National Standardization Administration

GB/T 41638.1-2022: Plastics - Carbon and environmental footprint of biobased plastics - Part 1: General principles


---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.
Plastics - Carbon and environmental footprint of biobased plastics - Part 1.General principles ICS 13.020.40; 83.080.01 CCSZ04;G31 National Standards of People's Republic of China The carbon and environmental footprint of plastic bio-based plastics Part 1.General Principles Part 1.Generalprinciples 2023-02-01 Implementation State Administration for Market Regulation Released by the National Standardization Administration directory Preface III Introduction V 1 Scope 1 2 Normative references 1 3 Terms and Definitions 2 4 General 2 5 Carbon and environmental footprints of bio-based plastics2 5.1 Principle 2 5.2 Material Carbon Footprint 3 5.3 Process Carbon Footprint5 5.4 Environmental (Total) Footprint (Life Cycle Assessment) 5 5.5 System boundaries for this family of standards5 Reference 7

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 of Standardization Documents" drafted. This document is part 1 of GB/T 41638 "Carbon and Environmental Footprints of Plastic Bio-based Plastics". GB/T 41638 has The following sections were published. --- Part 1.General. This document is equivalent to ISO 22526-1.2020 "Carbon and Environmental Footprints of Plastics Bio-based Plastics Part 1.General Principles". Please note that some content of this document may be patented. The issuing agency of this document assumes no responsibility for identifying patents. This document is proposed by the National Standardization Technical Committee of Bio-based Materials and Degradable Products (SAC/TC380). This document is sponsored by the National Standardization Technical Committee for Bio-based Materials and Degradable Products (SAC/TC380) and the National Environmental Management Standardization Technical Committee. The Technical Committee (SAC/TC207) is under the joint focal point. This document was drafted by. Beijing Technology and Business University, China National Institute of Standardization, Anhui Fengyuan Biotechnology Co., Ltd., Chongqing Lianfa Plastic Technology Co., Ltd., Tongcheng Chemical (China) Co., Ltd., Ningbo Jialian Technology Co., Ltd., Yangzhou Huitong New Materials Co., Ltd. Company, Shanxi Huayang Biodegradable New Materials Co., Ltd., Carbon Tracking (Beijing) Technology Co., Ltd., Qingdao Hailuyuan Circulation Technology Co., Ltd. Company, Qingdao Haier Washing Machine Co., Ltd., Huitong Beigong Biotechnology (Beijing) Co., Ltd., National Plastic Products Quality Supervision and Inspection Center (Beijing), Anhui Zhongcheng Huadao Degradable Materials Technology Co., Ltd., China Shenhua Coal-to-Liquid Chemical Co., Ltd., Henan Longdu Tianren Biomaterials Materials Co., Ltd., Anhui Xuelang Biotechnology Co., Ltd., Zhongcheng Huadao Group Co., Ltd., Bengbu Tiancheng Packaging Technology Co., Ltd. Company, Pingxiang City, Jiangxi Province Xuanpin Plastic Products Co., Ltd., Hefei Hengxin Life Technology Co., Ltd., Shenzhen Wandajie Environmental Protection New Materials Co., Ltd. Co., Ltd., Shenzhen Zhengwang Environmental Protection New Material Co., Ltd., Guangdong Chongxi Environmental Protection Technology Co., Ltd., Anhui Huachi Plastic Industry Co., Ltd., four Sichuan University, Jiangnan University, Tsinghua University, Nanjing University of Technology, Qinhuangdao Longjun Environmental Protection Industry Development Co., Ltd., Wuhan Huali Environmental Protection Industry Co., Ltd. Co., Ltd., Shenzhen Guanghua Weiye Co., Ltd., Beijing Yonghua Qingtian Technology Development Co., Ltd., Beijing Shuangjian Plastic Packaging Products Co., Ltd. Company, Jiangsu Jinhe High-tech Co., Ltd., Jinhui Zhaolong High-tech Co., Ltd., Shenzhen Rainbow New Material Technology Co., Ltd. Company, Ningbo Tianan Biomaterials Co., Ltd., Zhejiang Hisun Biomaterials Co., Ltd., Jilin COFCO Biomaterials Co., Ltd., Jiangsu Hua Sheng Material Technology Group Co., Ltd., Jiangsu Zhongke Jinlong Environmental Protection New Material Co., Ltd., Jiangxi Heers Environmental Protection Technology Co., Ltd., Nanjing Five Rui Biodegradable New Materials Research Institute Co., Ltd., Tongji University, Suzhou Hanfeng New Materials Co., Ltd., Xinjiang Lanshan Tunhe Technology Co., Ltd. Co., Ltd., Zhangzhou Green Plastic New Material Co., Ltd., Zhejiang Huafa Ecological Technology Co., Ltd., Zhejiang Greenhe Ecological Technology Co., Ltd., Lake Beiguanghe Biotechnology Co., Ltd., Hangzhou New Equivalent Chemical Technology Co., Ltd., Henan Jindan Lactic Acid Technology Co., Ltd., Guangzhou Bijia Materials Technology Co., Ltd., CSIC Pengli (Nanjing) Shaping Technology Co., Ltd., Zhonghuan United (Beijing) Certification Center Co., Ltd., Zhuhai City Yikede Environmental Protection New Materials Co., Ltd., Zhuhai Kingfa Biomaterials Co., Ltd., Zhengzhou University, Shandong Stark Biodegradation Technology Co., Ltd. Company, Shanghai Changfa New Materials Co., Ltd., Nantong Hengxin New Materials Co., Ltd., Nanjing Lihan Chemical Co., Ltd., Shanghai Dajue Packaging Products Co., Ltd., Yingkou Yongsheng Biodegradable Plastic Co., Ltd., Zhejiang Jialemi Horticultural Technology Co., Ltd., Chongqing Jinhao Mei Nai Pan Products Co., Ltd., Shanghai Aohe Environmental Protection Technology Co., Ltd., Shanghai Hongrui Biotechnology Co., Ltd., Dongguan Everest Biotechnology Co., Ltd., Beijing Lucheng Biology Material Technology Co., Ltd., Jiangsu Jinzhihong New Material Co., Ltd., Anhui Hengxin Environmental Protection New Material Co., Ltd., Fuling Technology Co., Ltd. company. The main drafters of this document. Weng Yunxuan, Peng Yanyan, Hu Jing, Jin Yujuan, Lin Ling, Hou Guanyi, Ji Chuanxia, Zhao Yanchao, Wang Xiong, Zhang Jiangang, Shen Kunliang, Li Weibin, Yan Luhui, Ren Xianquan, He Tingting, Lin Haoxin, Yang Shuo, Ouyang Cheng, Zhou Yingxin, Ai Rong, Zhou Jiushou, Yin Tian, Ruan Liuwen, Wan Yuqing, Gao Ting, Li Shuzhen, Wang Peng, Yan Deping, Wei Da, Zhang Jianhong, Wei Jie, Wang Chunqiu, Wang Yuzhong, Wu Gang, Ma Piming, Guo Baohua, Chen Guoqiang, Zhu Chenjie, Zhi Zhaohui, Zhang Libin, Chen Rui, Liu Yunqiao, Huang He, Yin Zhengfu, Fan Wuyuan, Chen Xiaojiang, Li Jialing, Liang Wei, Tong Yi, Jiang Kai, Xu Kun, Zhai Guoqiang, Shen Yucai, Ren Jie, Lu Guangchun, Ding Jianping, Xu Yanlong, Sun Yuanzheng, Mi Kejun, Xie Lei, Dai Qingwen, Liu Guoxiang, Li Jun, Dai Chunfa, Shi Ying, Chen Xichang, Huang Jian, Chen Jinzhou, Yuan Shouwen, Zheng Lu, Wu Guoxin, Zong Jingdong, Xiong Lulu, Wang Gang, Zhao Fujian, Qu Chaohui, Wang Ruyin, Ding Chen, Xu Youli, Ye Xinjian, Hu Feihu, Wang Lei, Liang Peng, Zhang Ling, Hu Xinfu, Jiang Suchen.

Introduction

GB/T 41638 "Carbon Footprint and Environmental Footprint of Plastic Bio-based Plastics" is proposed to consist of five parts. --- Part 1.General. The purpose is to provide information and guidance for the life cycle assessment and application of biobased products. --- Part 2.Material carbon footprint The amount (mass) of CO2 incorporated into polymer molecules from the air. Determined according to the test results Biocarbon content, which is used to calculate the carbon dioxide emission reduction that can be achieved by replacing petroleum carbon (material carbon footprint) with biocarbon. --- Part 3.Process carbon footprint quantification requirements and guidelines. Specifies requirements for quantifying and reporting the carbon footprint of bio-based plastics processes. --- Part 4.Environmental (total) footprint (life cycle assessment). Using the life cycle assessment method, calculating the conversion of feedstocks into final products The process carbon footprint generated in the process, thus enabling the management of carbon in a sustainable and environmentally responsible way (carbon-based materials). --- Part 5.Reporting and evaluation. Requirements for reporting carbon footprint and environmental footprint assessment results for bio-based plastics. Increasing the use of biomass resources in the production of plastic products can reduce 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 refer to plastics that are wholly or partly biomass-derived materials. The carbon and environmental footprint of plastic bio-based plastics Part 1.General Principles

1 Scope

This document specifies the general rules and system boundaries for the carbon footprint and environmental footprint of bio-based plastic products, and is the other standard in GB/T 41638 series Standard introduction and guidance documents. This document applies to plastic products, plastic materials and polymer resins containing bio-based or petroleum-based components.

2 Normative references

The contents of the following documents constitute essential provisions of this document through normative references in the text. Among them, dated citations documents, only the version corresponding to that date applies to this document; for undated references, the latest edition (including all amendments) applies to this document. ISO 472 Plastics-Vocabulary Note. GB/T 2035-2008 Plastic Terms and Definitions (ISO 472.1999, IDT) Note. GB/T 24020-2000 Environmental Management Environmental Labeling and Declaration General Principles (ISO 14020.1998, IDT) Note. GB/T 24040-2008 Environmental Management Life Cycle Assessment Principles and Framework (ISO 14040.2006, IDT) Note. GB/T 24044-2008 Requirements and Guidelines for Life Cycle Assessment of Environmental Management (ISO 14044.2006, IDT) ISO 14067 Greenhouse gas products carbon footprint quantification requirements and guidelines (Greenhousegases-Carbonfootprintof ISO 16620-1 Plastics-Biobased content-Part 1.General principles (Plastics-Biobasedcontent-Part 1. Note. GB/T 39715.1-2021 Bio-based content of plastics - Part 1.General principles (ISO 16620-1.2015, IDT) ISO 16620-2 Plastics Biobased Content Part 2.Determination of Biobased Carbon Content (Plastics-Biobasedcontent- Note. GB/T 39715.2-2021 Bio-based content of plastics-Part 2.Determination of bio-based carbon content (ISO 16620-2.2019, IDT) ISO 16620-3 Plastics Biobased Content Part 3.Determination of Biobased Synthetic Polymer Content (Plastics-Biobased Note. GB/T 39715.3-2021 Plastics Biobased Content Part 3.Determination of Biobased Synthetic Polymer Content (ISO 16620-3.2015, IDT) ISO 16620-4 Plastics Biobased Content Part 4.Determination of Biobased Substance Content (Plastics-Biobased Note. GB/T 39715.4-2021 Bio-based content of plastics-Part 4.Determination of bio-based substance content (ISO 16620-4.2016, IDT)

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