13.030.40 废物处置和处理设备和装置 标准查询与下载

DB3303/T 056-2022 建筑垃圾收运处置规范

Specifications for the collection, transportation and disposal of construction waste

ASTM D6523-22 卫生填埋场替代日常覆盖物（ADC）的评估和选择标准指南

1.1 This guide is intended to assist specifiers and end users in assessing the different options available for sanitary landfill daily cover materials described as alternative (non-soil) daily covers (ADCs). Traditional daily cover consists of at least 6 in. (15 cm) of soil spread over the working faces of sanitary landfills. Alternative systems are attractive to landfill operations in order to conserve landfill disposal space, among other reasons. 1.2 This guide assists in understanding different performance features of broad classifications of ADCs, and determining the extent and degree to which different ADCs are able to “control disease vectors, fires, odors, blowing litter, and scavenging, without presenting a threat to human health and the environment,” as intended by United States Environmental Protection Agency (USEPA) regulations. 1.3 This guide is not intended to provide cost information regarding the various ADCs. As a standard guide, it does not dictate a protocol for the practice and testing of ADCs, but rather provides valuable information, guidance, and recommendations to interested parties concerning the many options available. 1.4 The values stated in inch-pound units are to be regarded as standard. The values given in parentheses are mathematical conversions to SI units that are provided for information only and are not considered standard. 1.4.1 Exception—Metric units are used in 6.2.9.2. 1.5 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 Evaluation and Selection of Alternative Daily Covers (ADCs) for Sanitary Landfills

T/IGIA 010-2022 智慧绿色垃圾房建设与运维

本标准规定了智慧绿色垃圾房的建设和运维管理。

Smart green garbage room construction and operation and maintenance

T/ACEF 041-2022 废弃电器电子产品拆解处理过程视频图像采集分析技术规范

本文件规定了废弃电器电子产品拆解处理过程视频图像采集分析的基本规定、视频图像采集、视频图像识别分析、智能化辅助审核等技术内容。

Technical specification for video and image collection and analysis in the disassembly and treatment process of waste electrical and electronic equipment

T/ZS 0359-2022 再生资源回收站点管理规范

前  言　 1  范围　 2  规范性引用文件　 3  术语和定义　 4  基本要求　 5  设置要求　 6  设施设备要求　 6.1  一般要求　 6.2  衡器要求　 6.3  运输设备要求　 6.4  消防设备要求　 7  人员要求　 8  回收行为要求　 9  经营管理要求　 9.1  经营资质　 9.2  内部要求　 9.3  信息管理　

Specification for management of renewable resource recovery site

T/EES 0013-2022 生活垃圾闪蒸矿化处理器

本文件适用于处理不便于集中收集、转运、处置的生活垃圾且日处理量低于2吨的非焚烧低温处理设施的生产制造。

Flash mineralization processor for domestic waste

T/EES 0011-2022 质 量 分 级 及 “ 领 跑 者 ” 评 价 要 求 小 型 非 焚 烧 垃 圾 处 理 器

本文件适用于小型非焚烧垃圾处理器（处理量小于等于 10t、温度小于等于 200℃）质量和企业标准水平评价。相关机构开展质量分级和企业标准水平评估、“领跑者”评价以及相关认证时可参照使用，企业在制定企业标准时也可参照本文件。

Assessment requirements for quality grading and forerunnerSmall non-incineration waste disposal

ASTM E2060-22 无机废物固化/稳定用煤燃烧产物的使用标准指南

1.1 This guide covers methods for selection and application of coal combustion products (CCPs) for use in the chemical stabilization of trace elements in wastes and wastewater. These elements include, but are not limited to, arsenic, barium, boron, cadmium, chromium, cobalt, lead, molybdenum, nickel, selenium, vanadium, and zinc. Chemical stabilization may be accompanied by solidification of the waste treated. Solidification is not a requirement for the stabilization of many trace elements, but does offer advantages in waste handling and in reduced permeability of the stabilized waste. 1.1.1 Solidification is an important factor in treatment of wastes and especially wastewaters. Solidification/Stabilization (S/S) technology is often used to treat wastes containing free liquids. This guide addresses the use of CCPs as a stabilizing agent (with or without the addition of other materials. Stabilization may be achieved by using combinations of CCPs and other products such as lime, lime kiln dust, cement kiln dust, cement, and others. CCPs used alone or in combination with other reagents promote stabilization of many inorganic constituents through a variety of mechanisms. These mechanisms include precipitation as hydrates, carbonates, silicates, sulfates, and so forth; microencapsulation of the waste particles through pozzolanic reactions; formation of metal precipitates; and formation of hydrated phases (1-4).2 Long-term performance of the stabilized waste is an issue that must be addressed in considering any S/S technology. In this guide, several tests are recommended to aid in evaluating the long-term performance of the stabilized wastes. 1.2 The CCPs that are suited for this application include fly ash, dry flue gas desulfurization (FGD) material, and and fluidized-bed combustion (FBC) ash. 1.3 The wastes or wastewater, or both, containing the inorganic species may be highly variable, so the chemical characteristics of the waste or wastewater to be treated must be determined and considered in the selection and application of any stabilizing agent, including CCPs. In any waste stabilization process, laboratory-scale tests for compatibility between the candidate waste or wastewater for stabilization with one or more selected CCPs and final waste stability are recommended prior to pilot-scale and full-scale application of the stabilizing agent. 1.4 This guide does not intend to recommend pilot-scale or full-scale processes or procedures for waste stabilization. Full-scale processes should be designed and carried out by qualified scientists, engineers, and environmental professionals. It is recommended that stabilized materials generated at the full-scale stabilization site be subjected to testing to verify laboratory test results. 1.5 The utilization of CCPs under this guide is a component of a pollution prevention program. Utilization of CCPs in this manner conserves land, natural resources, and energy. 1.6 This guide applies only to CCPs produced primarily from the combustion of coal. It does not apply to ash or other combustion products derived from the burning of waste; coal coking byproducts; municipal, industrial, or commercial garbage; sewage sludge or other refuse, or both; derived fuels; wood waste products; rice hulls; agricultural waste; or other noncoal fuels. 1.7 Regulations governing the use of CCPs vary by nation, state and locality. The user of this guide has the responsibility to determine and comply with applicable regulations. 1.8 It is recommended that work performed under this guide be designed and carried out by qualified scientists, engineers, and environmental professionals. 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 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 E50.03 on Beneficial Use. Current edition approved Nov. 1, 2022. Published December 2022. Originally approved in 2000. Last previous edition approved in 2014 as F2060 – 06(2014). DOI: 10.1520/E2060-22. 2 The boldface numbers in parentheses refer to the list of references at the end of the text. 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 Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

Standard Guide for Use of Coal Combustion Products for Solidification/Stabilization of Inorganic Wastes

T/SHDSGY 038-2022 活性炭吸附氮气脱附冷凝回收技术规范

本文件规定了活性炭吸附氮气脱附冷凝回收技术的工作原理、工艺流程、应用范围、技术要求及运行维护的相关要求。 本文件适用于石油化工、制药、印刷、喷涂等行业 VOCs 处理所应用的活性炭吸附氮气脱附冷凝回收技术。

Technical specification for activated carbon adsorption nitrogen desorption condensation recovery

T/SHMHZQ 127-2022 涂装行业挥发性有机物治理技术指南

本文件规定了涂装行业挥发性有机物治理技术指南的术语和定义、技术要求、检验方法、排放要求、安装施工和验收要求。 本文件适用于上海茄子环境技术有限公司的涂装行业挥发性有机物治理技术指南。

Technicalguideforvolatileorganiccompoundstreatmentincoatingindustry

T/ZSM 0007-2022 高岭土煅烧回转窑烟气脱硫脱硝除尘一体化装置

主要技术内容： （1）装置术语和定义：规定了烟气脱硫脱硝除尘一体化装置、烟道喷射式脱硫反应系统、文丘里式脱硫反应系统、高温高效布袋除尘系统、烟气升温混合系统、SCR低温脱硝系统、余热回收系统等定义内容。 （2）装置要求：包括对装置系统、材料、产品外观与加工、性能、安全、环保等的要求。 （3）装置的试验方法：包括对材料、加工、性能、安全、环保等方面的试验方法。 （4）装置的检验与验收：包括出厂检验、型式检验和验收。 （5）装置的标牌、包装、运输和贮存：包括对标牌、包装、运输和贮存等方面的要求。

Integrated equipment for Kaolin Calcining Rotary Kiln flue gas desulfurization, denitration and dust removal

HG/T 6113-2022 化工工艺有机废气处理装置技术规范

Technical Specifications for Chemical Process Organic Waste Gas Treatment Devices

DB11/T 2018-2022 餐厨垃圾运输车辆称重系统技术规范

Technical specifications for the weighing system of food waste transport vehicles

T/CPCIF 0223-2022 工业含硫副产品及含硫废物制硫酸技术规范

4　总体要求 4.1　工业含硫副产品及含硫废物制硫酸建设项目应符合国家、行业相关产业政策要求。 4.2　工业含硫副产品及含硫废物制硫酸装置工程规模的确定和详细技术路线的选择，应根据工业含硫副产品及含硫废物的产生情况、社会经济发展水平、城市总体规划、技术的先进合理性等合理因素综合确定。 4.3　以工业含硫副产品及含硫废物为原料生产的硫酸产品面向市场销售（不得以工业硫酸的名义销售）时，除应符合GB/T 534的要求外，所含有害物质还应满足表1中浓度限值的要求。 4.4　以工业含硫副产品及含硫废物为原料生产的硫酸产品需明确标识其所用的工业含硫副产品及含硫废物的来源。 4.5　工业含硫副产品及含硫废物的贮存、运输、利用除满足污染防治要求外，应同时满足相应的消防、安全生产、职业健康要求，配备必要的个人防护装备，防止工业含硫副产品及含硫废物贮存、运输、利用过程对人体健康产生危害。

Technical specifications for sulfuric acid manufacturing of industrial sulfur-containing by-products and sulfur-containing waste

ASTM D5919-96(2022) 用ppb浓度下吸附物的微等温技术测定活性炭吸附能力的标准实施规程

1.1 This practice covers the assessment of activated carbon for the removal of low concentrations of adsorbable constituents from water and wastewater using the bottle point isotherm technique. It can be used to characterize the adsorptive properties of virgin and reactivated activated carbons. 1.2 This practice can be used in systems with constituent concentrations in the low milligrams per litre or micrograms per litre concentration ranges. 1.3 This practice can be used to determine the adsorptive capacity of and Freundlich constants for volatile organic compounds provided the handling procedures described in this practice are followed carefully. 1.4 The values stated in SI units are to be regarded as standard. No other units of measurement are included in this standard. 1.5 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. 1.6 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 Determination of Adsorptive Capacity of Activated Carbon by a Micro-Isotherm Technique for Adsorbates at ppb Concentrations

T/ZPP 013-2022 香精香料废水污染控制与治理技术规范

本文件规定了香精香料废水污染控制与治理的术语和定义、废水水量与水质、总体要求、生产过程污染控制、废水处理工艺、二次污染防治、工艺检测与过程控制、主要辅助工程、运行与维护技术要求。 本文件适用于精细化工行业香精香料废水污染控制与治理。

Technical Specifications for Pollution Control and Treatment of Flavor and Fragrance Wastewater

T/CMES 07003-2022 土壤异位淋洗修复 模块化撬装式装备技术要求 第1部分 工艺及总成

本文件规定了土壤异位淋洗修复装备的工艺过程及设备要求，包括修复对象、验收指标、工艺流程和设备要求。 本文件适用于污染土壤（化工、医药、冶金、石化、矿山等工业用地）的物理、化学淋洗修复。即对重金属（Hg除外）、半挥发性有机物、多氯联苯类、石油烃类等单一或复合污染土壤的淋洗处理。 本文件不适用于挥发性有机物和放射性物污染土壤的处理。

Soil ectopic leaching repair modular skid-mounted equipment technical requirements part 1 process and assembly

T/CI 045-2022 无动力自动搅拌厌氧发酵装置技术规范

4  设计 4.1设计要求 厌氧发酵装置池容、池体壁厚、池底厚度等设计，应根据发酵原料种类、性质、数量、地质条件、地域环境等确定。参照沼气工程设计NY/T 1220、 NY/T 1221、NY/T 1222执行。 4.2  厌氧发酵装置容积 厌氧发酵装置有效容积可根据NY/T 1220.1的规定按下列方式计算： a）根据容积负荷计算：      V=QS/N................................（1） 式中： V－厌氧发酵装置的总有效容积，单位为立方米（m3）； Q－设计处理量，单位为立方米每天（m3/d）； S－进料浓度，单位为千克每立方米[kg(COD)/m3]； N—容积有机负荷，单位为千克每立方米[kg(COD)/m3·d]，或千克每立方米[kg(VS)/m3·d]。 b）根据水力滞留时间计算： V=TQ..................................（2） 式中： V－厌氧发酵装置的总有效容积，单位为立方米（m3）； Q－设计处理量，单位为立方米每天（m3/d）； T－设计水力滞留期，单位为天（d）。

Technical code for unpowered self—stirring anaerobic fermentation device

T/QGCML 311-2022 用于高盐有机废水处理的蒸发结晶制盐设备

本文件规定了用于高盐有机废水处理的蒸发结晶制盐设备的术语和定义、构成、工作原理、一般要求、技术要求、试验方法、标志、包装、运输及贮存。 本文件适用于高盐有机废水处理的蒸发结晶制盐设备的生产和检验。

Evaporation and crystallization salt production equipment for high-salt organic wastewater treatment

T/CPUMT 004-2022 厨余垃圾微生物处理设备

厨余垃圾微生物处理设备的型号、结构、要求、试验方法、检验规则、标牌、包装、运输和贮存。

Microbial treatment equipment of food waste