13.020.30 环境影响评定 标准查询与下载

T/DXFFA 1-2019 绿色锻造企业评价准则

本标准规定了绿色锻造企业评价的准则，包括总则、评价要求、评价程序。适用于与实现绿色锻造相关各方的下列需求： a）锻造企业依据本准则要求，通过对各相关要素实施有效控制，包括持续改进，以及保证符合适用的法律法规要求，旨在实现用地集约化、原料无害化、生产清洁化、废物资源化、能源低碳化目标； b）第三方评价机构应锻造企业或其顾客、政府监管部门等相关方委托，以符合本标准的评价结果和证书，证实其符合绿色锻造企业要求，实现并保持本准则规定的绩效； c）锻造企业基于自查自评结果发表自我声明，或用于内部管理或考核。 本标准适用于采用热锻造方式自行生产钢制锻造法兰、锻制管件及其它环形锻件、小型自由锻件。其它情形可参考采用。

Enterprise evaluation criteriaforGreen forging

T/CAB 0055-2019 绿色设计产品评价技术规范 乘用车动力转向泵

本标准适用于液压动力转向泵的绿色设计以及评价工作，电动助力泵等其他类型转向泵产品可参照执行。

Technical specification for green-design product assessment - power steering pump for automobile

ASTM E1903-19 环境现场评估标准实践:二期环境现场评估过程

1.1 This practice2 covers a process for conducting a Phase II environmental site assessment (ESA) of a parcel of property with respect to the presence or the likely presence of substances including but not limited to those within the scope of the Comprehensive Environmental Response, Compensation and Liability Act (CERCLA) (e.g., hazardous substances), pollutants, contaminants, petroleum and petroleum products, and controlled substances and constituents thereof. It specifies procedures based on the scientific method to characterize property conditions in an objective, representative, reproducible, and defensible manner. To promote clarity in defining Phase II ESA objectives and transparency in communicating and interpreting Phase II ESA results, this practice specifies adherence to requirements for documenting the scope of assessment and constraints on the conduct of the assessment process. 1.1.1 A user’s interest in the presence or likely presence of substances in environmental media at a property may arise in a wide variety of legal, regulatory, and commercial contexts, and may involve diverse objectives including those listed in 1.2. This practice contemplates that the user and the Phase II Assessor will consult to define the scope and objectives of investigation in light of relevant factors, including without limitation the substances released or possibly released at the property, the nature of the concerns presented by their presence or likely presence, the behavior, fate and transport characteristics of substances released or possibly released, the portion of the property to be investigated, the information already available, the degree of confidence needed or desired in the results, the degree of investigatory sampling and chemical testing needed to achieve such confidence, and any applicable time and resource constraints. This practice requires that Phase II activities be conducted so that the resulting scope of work is performed, and the stated objectives are achieved, in a scientifically sound manner. 1.1.2 A Phase II ESA in accordance with this practice may be conducted after site assessment activities in accordance with Practice E1527 for Phase I Environmental Site Assessments: Phase I Environmental Site Assessment Process, Practice E2247 for Environmental Site Assessments: Phase I Environmental Site Assessment for Forestland or Rural Property, EPA’s All Appropriate Inquiries (AAI) Rule, 40 C.F.R. Part 312, or Practice E1528 for Limited Environmental Due Diligence: Transaction Screen Process. In defining the scope and purposes of a Phase II ESA, however, previous decisions to classify property conditions or areas as RECs, or to refrain from doing so, are not determinative as to whether investigation of the same conditions or areas is appropriate to meet the objectives of the Phase II ESA. 1.2 Objectives—This practice is intended for use where a user desires to obtain sound, scientifically valid data concerning actual property conditions, whether or not such data relate to property conditions previously identified as RECs or data gaps in Phase I ESAs. Without attempting to define all such situations, this practice contemplates that users may seek such data to inform their evaluations, conclusions, and choices of action in connection with objectives that may include, without limitation, one or more of the following: 1.2.1 Objective 1—Assess whether there has been a release of hazardous substances within the meaning of CERCLA, for purposes including landowner liability protections (i.e., innocent landowner, bona fide prospective purchaser, and contiguous property owner). 1.2.2 Objective 2—Provide information relevant to identifying, defining or implementing landowner “continuing obligations,” or the criteria established under CERCLA (e.g., exercising appropriate care by taking reasonable steps to 1 This practice is under the jurisdiction of ASTM Committee E50 on Environmental Assessment, Risk Management and Corrective Action and is the direct responsibility of Subcommittee E50.02 on Real Estate Assessment and Management. Current edition approved Nov. 15, 2019. Published January 2020. Originally approved in 1997. Last previous edition approved in 2011 as E1903 – 11. DOI: 10.1520/E1903-19. 2 As used herein, a “standard” is a document that has been developed and established within the consensus principles of the Society and that meets the approval requirements of ASTM procedures and regulations. A “practice” is a definitive set of instructions for performing one or more specific operations that does not produce a test result. A “guide,” in contrast, is a compendium of information or a series of options that does not recommend a specific course of action. A guide increases the awareness of information and approaches in a given subject area. See Form and Style for ASTM Standards, http://www.astm.org/COMMIT/Blue_ Book.pdf. Copyright © ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959. United States This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee. prevent or limit exposures to previously released hazardous substances) for maintaining the CERCLA landowner liability protections. 1.2.3 Objective 3—Develop threshold knowledge of the presence of substances on properties within the scope of the CERCLA definition of a “brownfield site” and as required for qualifying for brownfields remediation grants from the EPA Brownfields Program. 1.2.4 Objective 4—Provide information relevant to identifying, defining and evaluating property conditions associated with target analytes that may pose risk to human health or the environment, or risk of bodily injury to persons on the property and thereby give rise to potential liability in tort. 1.2.5 Objective 5—Provide information relevant to evaluating and allocating business environmental risk in transactional and contractual contexts, including transferring, financing and insuring properties, and due diligence relating thereto. 1.2.6 Objective 6—Provide information to support disclosure of liabilities and contingent liabilities in financial statements and securities reporting. 1.2.7 Additional information concerning these six objectives may be found in the Legal Appendix, Appendix X1. 1.3 Scope of Assessment in Relation to Objectives—The scope of a Phase II ESA is related to the objectives of the investigation. Both scope and objectives may require ongoing evaluation and refinement as the assessment progresses. 1.3.1 In developing the scope of work and in evaluating data and information concerning the property, the Phase II Assessor must determine whether the available information is sufficient to meet the objectives of the investigation. Even after conducting Phase II activities to generate additional data, the Phase II Assessor must independently evaluate the sufficiency of the data in relation to the objectives. As the investigation progresses, the objectives may be refined or redefined in consultation between the user and the Phase II Assessor. 1.3.2 A single round of sampling and chemical testing may not always provide data sufficient to meet the chosen objectives. If not, this practice contemplates additional sampling in an iterative sequence that concludes when the available data are sufficient. This practice also acknowledges, however, that the user may instead elect either to redefine the objectives so that they can be met with the data available, or to terminate the investigative process without meeting the stated objectives. The Phase II Assessment report must disclose any respect in which available data are insufficient to meet objectives. 1.3.3 This practice does not require full site characterization in every instance, but may be used to carry out an investigation sufficient for that purpose if desired to meet the user’s objectives. 1.4 Needs of the User—The user and Phase II Assessor must have a mutual understanding of the context in which the Phase II ESA is to be performed and the objectives to be met by the investigation, i.e. the specific questions to be answered or problems to be resolved by the Phase II ESA. The scope of Phase II activities must be defined in relation to those objectives. 1.4.1 The degree of confidence desired by the user influences the scope of the investigation and the evaluation of data. More extensive testing and more iterations of sampling and analysis may be needed if the objectives require detailed conclusions with high confidence. Less testing and fewer iterations of sampling and analysis may be needed if the objectives of the assessment require only general conclusions. 1.5 Limitations—This practice is not intended to supersede applicable requirements imposed by regulatory authorities. This practice does not attempt to define a legal standard of care either for the performance of professional services with respect to matters within its scope, or for the performance of any individual Phase II ESA. 1.6 Organization of This Practice—This practice has nine sections and four appendices. Section 1 covers the Scope of the practice. Section 2, Referenced Documents, lists ASTM and other organizations’ related standards and guidance that may be useful in conducting Phase II ESAs in accordance with this practice. Section 3, Terminology, contains definitions of terms and acronyms used in this practice. Section 4 addresses the Significance and Use of this practice, including the legal context into which Phase II ESAs may fall. Section 5 discusses development and documentation of the scope of the Phase II ESA, including the Statement of Objectives for the assessment. Section 6 provides a Phase II ESA Overview, with purpose and goal descriptions. Section 7 comprises the main body of Performing the Phase II ESA, and includes initiating scientific inquiry by formulating the question to be answered (7.1), collecting and evaluating information (7.2), identifying areas for investigation (7.3), developing the conceptual model (7.4), developing a plan and rationale for sampling (7.5), conducting the sampling (7.6), and validating the conceptual model (7.7). Interpretation of results is covered in Section 8. Phase II Environmental Site Assessment report preparation is addressed in Section 9. Appendix X1 supports Section 4, and contains legal considerations pertaining to Phase II Environmental Site Assessment. Appendix X2 contains contracting considerations between Phase II assessor and user. Appendix X3 supports Section 9, and describes two examples and a sample table of contents illustrating possible approaches to reporting the results of a Phase II Environmental Site Assessment. Appendix X4 supplements Section 2 with a list of standards and references that may be relevant in conducting a Phase II Environmental Site Assessment. 1.7 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

Standard Practice for Environmental Site Assessments: Phase II Environmental Site Assessment Process

DB34/T 3431-2019 诚信计量示范旅游景区评价要求

Evaluation Requirements for Integrity Measurement Demonstration Tourist Attractions

DB11/T 656-2019 建设用地土壤污染状况调查与风险评估技术导则

Technical Guidelines for Investigation and Risk Assessment of Soil Pollution in Construction Land

DB50/T 931-2019 重庆市农业面源污染风险评估技术规范

本标准适用于重庆市农业生产过程中产生的面源污染风险评估。

Technical specifications for risk assessment of agricultural non-point source pollution in Chongqing

KS C IEC 62933-5-2-2019 电能存储（EES）系统第5－2部分:电网集成EES系统的安全要求电化学系统

Electrical Energy Storage (EES) Systems — Part 5－2: Safety Requirements for grid integrated EES systems — electrochemical based systems

KS C IEC 62933-5-2:2019 电能存储（EES）系统第5－2部分:电网集成EES系统的安全要求电化学系统

Electrical Energy Storage (EES) Systems — Part 5－2: Safety Requirements for grid integrated EES systems — electrochemical based systems

BS EN IEC 62933-2-1:2018 电能存储（EES）系统 单元参数和测试方法 通用规格

What is this standard about? This part of IEC 62933 focuses on unit parameters and testing methods of EES systems. The energy storage devices and technologies are outside the scope of this document. This document deals with EES system performance defining: – unit parameters, – testing methods.

Electrical energy storage (EES) systems - Unit parameters and testing methods. General specification

ASTM F2205-19 化学分散剂在溢油应用中的生态注意事项标准指南:热带环境

Standard Guide for Ecological Considerations for the Use of Chemical Dispersants in Oil Spill Response: Tropical Environments

KS C IEC TS 62933-5-1-2019 电能存储（EES）系统第5-1部分:电网集成EES系统的安全考虑通用规范

Electrical energy storage(EES) systems — Part 5-1: Safety considerations for grid-integrated EES systems — General specification

KS C IEC TS 62933-4-1-2019 电能储存（EES）系统第4-1部分:环境问题指南通用规范

Electrical energy storage(EES) systems — Part 4-1: Guidance on environmental issues — General specification

KS C IEC 62933-2-1-2019 电能存储（EES）系统 第2-1部分:单元参数和测试方法 总规范

Electrical energy storage(EES) systems — Part 2-1: Unit parameters and testing methods — General specification

KS C IEC TS 62933-5-1:2019 电能存储（EES）系统第5-1部分:电网集成EES系统的安全考虑通用规范

Electrical energy storage(EES) systems — Part 5-1: Safety considerations for grid-integrated EES systems — General specification

KS C IEC 62933-2-1:2019 电能存储（EES）系统 第2-1部分:单元参数和测试方法 总规范

Electrical energy storage(EES) systems — Part 2-1: Unit parameters and testing methods — General specification

KS C IEC TS 62933-4-1:2019 电能储存（EES）系统第4-1部分:环境问题指南通用规范

Electrical energy storage(EES) systems — Part 4-1: Guidance on environmental issues — General specification

ASTM E3163-18 沉积物校正过程中分析方法和程序的选择和应用的标准指南

1.1 This is a guide for the selection and application of a range of analytical methods and testing procedures that may be used during sediment programs, including physical properties testing, chemical analytical methods, passive sampling procedures, bioassays and toxicity testing, environmental forensics methods and procedures, and methods development procedures for sediment programs. 1.2 Sediment programs vary greatly in terms of environmental complexity, physical, chemical and biological characteristics, human health and ecological risk concerns, and geographic and regulatory context. This guide provides information for the selection and application of analytical methods and testing protocols applicable to a wide range of sediment programs. 1.3 This guide describes widely accepted considerations and best practices used in the selection and application of analytical procedures used during sediment programs. This guide supports and complements existing regulations and technical guidance. 1.4 This guide is designed for general application to a wide range of sediment programs performed under international, federal, state and local environmental programs. This guide describes the selection and application of analytical methods and test procedures, not the requirements for specific regulatory jurisdictions. This guide compliments but does not replace regulatory agency requirements. 1.5 This guide may be used for a wide range of sediment programs, including programs with overlapping regulatory jurisdictions, programs without a clearly established regulatory framework, voluntary programs, Brownfield programs, and international programs. The users of this guide should be aware of the appropriate regulatory requirements that apply to sediment programs. The user should consult applicable regulatory agency requirements to identify appropriate technical decision criteria and seek regulatory approvals, as necessary, prior to 1 This guide is under the jurisdiction of ASTM Committee E50 on Environmental Assessment, Risk Management and Corrective Action and is the direct responsibility of Subcommittee E50.04 on Corrective Action. Current edition approved Sept. 1, 2018. Published November 2018. DOI: 10.1520/E3163–18 Copyright © ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959. United States This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee. 1 selection and application of analytical methods and test procedures to sediment programs. 1.6 This guide supports the collaboration of stakeholders, including project sponsors, regulators, laboratory service providers, and others, on the selection and application of analytical procedures to sediment programs. This guide highlights key considerations for designing sediment program data acquisition plans, including applicability and use limitations of analytical methods and test procedures, and data usability considerations. This guide recognizes the challenges inherent in selection and application of analytical methods and test procedures for sediment systems, as well as the challenges inherent in generating analytical data of sufficient sensitivity to meet regulatory criteria applied to sediment programs. 1.7 ASTM standard guides are not regulations; they are consensus standard guides that may be followed voluntarily to support applicable regulatory requirements. 1.8 Test methods, procedures, and guidelines published by ASTM, USEPA, and other U.S. and international agencies are used for sediment programs, many of which are referenced by this guide. However, these documents do not provide guidance on the selection and application of analytical methods and test procedures for sediment programs. This guide was developed for that purpose. 1.9 This guide may be used in conjunction with other ASTM guides developed for sediment programs. 1.10 The user of this guide should review existing information and data available for a sediment project to determine the most appropriate entry point into and use of this guide. 1.11 Table of Contents: Section Introduction Scope 1 Referenced Documents 2 Terminology 3 Significance and Use 4 Physical Property Test Methods 5 Chemistry Analytical Methods 6 Passive Sampling Methods 7 Biological Test Methods 8 Environmental Forensics Analytical Methods 9 Analytical Method Development 10 Key Differences in Physical Properties of Sediment and Soil Appendix X1 Guidelines for Collection of Sediment Samples for Physical Properties Testing Appendix X2 Key Concepts in Sediment Stratigraphy for Physical Properties Testing Appendix X3 Quick Reference Guide for Sediment Chemistry Analytical Method Selection Appendix X4 Sampling Reference Guide for Sediment Chemistry Analytical Methods Appendix X5 Critical Success Factors for Sediment Chemistry Analytical Programs Appendix X6 Quick Reference Guide for Passive Sampling Method Selection Appendix X7 Advantages and Limitations of Passive Sampler Types for Organic Compounds Appendix X8 Methodologies and Equations for Determining Aqueous Chemical Concentrations from Passive Sampler Results Appendix X9 Pros and Cons Evaluation of Biological Test Methods Appendix X10 Decision Tree for Biological Testing Selection Appendix X11 Species List for Biological Testing Appendix X12 Section Daubert Criteria to Guide the Selection and Application of Analytical Test Methods Used for Environmental Sediment Forensics Appendix X13 References Bibliography 1.12 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety, health, and environmental practices and determine the applicability of regulatory limitations prior to use. 1.13 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

Standard Guide for Selection and Application of Analytical Methods and Procedures Used during Sediment Corrective Action

IEC TS 62933-3-1:2018 电能存储系统第3-1部分:电能存储系统的规划和性能评估通用规范

Electrical energy storage (EES) systems - Part 3-1: Planning and performance assessment of electrical energy storage systems - General specification

DB13/T 2745-2018 海洋溢油污染水产养殖损害评估技术指南

Technical Guidelines for Aquaculture Damage Assessment from Marine Oil Spill Pollution

ASTM E3136-18 水资源中气候弹性的标准指南

1.1 Overview—Water resources in North America and other areas are subject to various impacts from chronic weather patterns, as well as more frequent extreme weather events. These include drought, flooding, changes in stream patterns, increased or decreased run-off, and changes in water quality. Water resources include both man-made and natural reservoirs, rivers, streams, groundwater, and storage ponds. The infrastructure for water supply, wastewater treatment, fire-fighting and agricultural uses are also subject to chronic weather patterns and more frequent extreme weather related events. This guide will provide an explanation of techniques users may employ to build resiliency and a planning outline for municipalities, states and private industry in order to ensure safe, future, effective availability of water resources. 1.2 Purpose—The purpose of this guide is to provide a series of options that organizations may implement to prepare for the environmental impacts and risks from changing environmental conditions, chronic weather patterns, natural or man-made disasters, and extreme weather events. This guide also encourages consistent management of risks from natural disasters to water resources. The guide presents practices and recommendations based on regions and planning horizons that provide institutional and engineering actions to reduce the physical and financial vulnerabilities attributable to changing environmental conditions. It presents available technologies, institutional controls, and engineering controls that can be implemented by individuals and organizations seeking to increase their adaptive and resiliency capacity. 1.2.1 The guide also provides some high-level options for the planning, selection, implementation, and review of strategies in order to ensure that the approach continues to be environmentally responsible, in the best interest of the public, reasonable, and cost effective. This guide can be used to analyze the effectiveness of a community’s strategy. 1.2.2 This guide ties into the ASTM E50 standards series related to environmental risk assessment and management. 1.2.3 The guide does not provide risk assessment, per se, but may help set priorities for a climate resiliency program. 1.3 Safety—This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user to establish appropriate safety and health practices and determine the applicability of regulatory 1 This guide is under the jurisdiction of ASTM Committee E50 on Environmental Assessment, Risk Management and Corrective Action and is the direct responsibility of Subcommittee E50.05 on Environmental Risk Management. Current edition approved July 1, 2018. Published August 2018. DOI: 10.1520/ E3136–18 Copyright © ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959. United States This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee. 1 limitations prior to use. Adaptation and resiliency measures, however, may be consistent with, and complementary to, safety measures. 1.4 Objectives—The objectives of this guide are to determine the conditions of the community, facility, and property with regard to risks of natural disaster events to water resources and actions that can be taken to manage those risks. 1.4.1 The guide presents information on planning and strategies to respond to extreme natural events such as drought, flood, storms and sea level rise upon water resources. 1.4.2 The guide encourages users to set priorities based upon the relevant region in the United States. For each region, the guide identifies key climate vulnerabilities that would require planning and preparation based on that particular scenario. These could be extrapolated to other regions if there are similar conditions. 1.4.3 The guide encourages the user to develop long term solutions for future risks. 1.5 Limitations of this Guide—Given the different types of organizations that may wish to use this Guide, as well as variations in state and local regulations, it is not possible to address all the relevant circumstances that might apply to a particular facility. This guide uses generalized language and examples for the user. If it is not clear to the user how to apply standards to their specific circumstances, users should seek assistance from qualified professionals. Risks may vary depending on the entity evaluating the risk. This guide does not take a position on the causes or science of extreme weather, natural disasters, or changing environmental conditions. 1.6 The guide uses references and information on the control, management and reduction of impacts from many cited sources. 1.7 Several national and international agencies served as sources of information on existing and anticipated levels and management of climate risks including: the Australian Ministry of Environment; the Federal Emergency Management Agency; the National Oceanographic and Atmospheric Administration; the Securities and Exchange Commission; the US Army Corps of Engineers; the US Department of Agriculture; the US Department of Energy; the US Environmental Protection Agency; and the US Department of Defense. 1.8 This guide recommends reference to current regulatory information about risks culled from various state agencies, such as departments of environmental protection and water resources boards. 1.9 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety, health, and environmental practices and determine the applicability of regulatory limitations prior to use. 1.10 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

Standard Guide for Climate Resiliency in Water Resources