13.030.20 液态废物、淤泥 标准查询与下载

T/DGWIA 001-2020 河湖淤泥处理产出物处置技术标准

本文件规定了河湖淤泥处理后的垃圾处置、余沙处置、余土处置、余水排放，以及取样与检测要求。 本文件适用于河湖淤泥处理后产出物的分类分级及处置。

Technical Standards for Disposal of Outputs from River and Lake Sludge Treatment

DB11/T 1765-2020 工业废水回用工程运行管理规范

Specifications for the operation and management of industrial wastewater reuse projects

DB11/T 1766-2020 工业浓盐水处理技术规范

Technical specifications for industrial concentrated brine treatment

NF X33-050:2020 粪便污泥处理装置. 与能源无关的,预制的,社区规模的资源回收装置. 安全和性能要求

Le présent document technique spécifie les exigences et les méthodes d'essai permettant de garantir les performances, la sécurité, l'exploitabilité et la facilité d'entretien des unités de traitement des boues de vidange à l'échelle locale avec valorisation des ressources (ci-apr

Faecal sludge treatment units - Energy independent, prefabricated, community-scale, resource recovery units - Safety and performance requirements

DB23/T 2714-2020 农村生活垃圾非焚烧低温处理设施大气污染物排放标准

Air Pollutant Emission Standards for Non-incineration Low-Temperature Treatment Facilities for Rural Domestic Garbage

DB50/ 1050-2020 榨菜行业水污染物排放标准

本文件适用于榨菜行业水污染物排放行为及管理

Discharge standard of water pollutants for mustard industry

T/CSES 10-2020 水回用指南 污水再生处理反渗透系统运行管理

本文件针对污水反渗透处理系统的特点，可为规范系统的运行管理提供依据，保障系统的稳定、高效运行。 具体技术内容包括： （1）范围 （2）规范性引用文件 （3）术语和定义 （4）系统的运行准备 （5）系统的运行管理 （6）故障诊断与排除 （7）环境、健康和安全（EHS）管理要求 （8）应急预案

Guidelines for water reuse—Operation and management of the reverse osmosis system for used water reclamation

BS ISO 19698:2020 污泥回收、循环利用、处理处置 生物固体的有益利用 土地申请

What is ISO 19698 about?    ISO 19698 discusses sludge recovery, recycling, treatment, disposal, and beneficial use of biosolids. ISO 19698 provides guidance on the conditions of beneficial use of biosolids produced from industrial and municipal sludge and municipal biosolids derived products (for example- composts, growing media) in the production of food and feed crops, energy crops, forestry crops and for the remediation of disturbed sites. ISO 19698 applies to biosolids for land application and includes biosolids from wastewater treatment (municipal, industrial, and private onsite systems).   ISO 19698 includes:  

Sludge recovery, recycling, treatment and disposal. Beneficial use of biosolids. Land application

ISO 19698:2020 污泥回收、再循环、处理和处置.生物固体的有益利用.土地利用

This document provides guidance on the conditions of beneficial use of biosolids produced from industrial and municipal sludge and municipal biosolids derived products (e.g. composts, growing media) in the production of food and feed crops, energy crops, forestry crops and for the remediation of disturbed sites. This document applies to biosolids for land application and includes biosolids from wastewater treatment (municipal, industrial and private onsite systems). This document does not apply to hazardous sludge that originates from wastewater which, due to its nature, physical, chemical or infectious properties, is potentially hazardous to human health and/or the environment during use, handling, storage or transportation and which requires special disposal techniques to eliminate or reduce the hazard. This document includes: — general guidelines for the land application of biosolids and biosolids derived products; — specific guidelines for the land application of biosolids and biosolids derived products for food and feed crop production and for non–food and non–feed crop production (e.g. horticulture, fibre for bio–mass, silviculture, etc.); and — specific guidelines for the land application of biosolids and biosolids derived products for other beneficial uses (e.g. land reclamation or rehabilitation).

Sludge recovery, recycling, treatment and disposal — Beneficial use of biosolids — Land application

ISO 31800:2020 粪便污泥处理装置.能源独立 预制 社区规模 资源回收装置.安全和性能要求

This document specifies requirements and test methods to ensure performance, safety, operability and maintainability of community-scale resource recovery faecal sludge treatment units (herein addressed as treatment units) that serve approximately, but not limited to, 1000 to 100000 people. This document applies to treatment units that: a) primarily treat faecal sludge, b) are able to operate in non-sewered and off-grid environments, c) are prefabricated, d) exhibit resource recovery capability (e.g. recovering energy, reusable water, soil amendment products), and are capable of being energy neutral or energy net positive. This document does not apply to treatment units requiring major sewer infrastructure. Figure 2 illustrates the scope of this document with respect to treatment unit inputs and outputs. Key --- boundary of the scope of this document Figure 2 — Scope of this document Inputs are primarily faecal sludge derived from human excreta and can include additional substances at the discretion of the manufacturer. This document does not specify the characteristics of the faecal  sludge (e.g. COD, BOD, moisture content, etc.) and which forms of the additional inputs (e.g. food waste) are treated within the unit. These inputs are defined by the manufacturer as well as the input characteristics which meet the requirements specified in this document. This document addresses: — the performance, safety, operability, and maintainability of the treatment unit, — the protection of human health and the environment, — safety aspects of the treatment unit’s solid, liquid, and gaseous outputs, — noise and odour outputs of the treatment unit. This document specifies minimum requirements of all types of outputs from the treatment unit. It does not specify or mandate the quality of resources recovered as these are highly dependent on the local (e.g. economic, social) context. Any resources produced and consumed internally to the process itself are outside the scope of this document. Similarly, with the exception of pathogen requirements, the quality and value of any resource recovery and reuse products derived from the treatment unit are outside the scope of this document. Apart from the requirement for energy independence under manufacturer specified input conditions during steady-state operation, this document does not set performance targets with respect to the amount or type of energy or resources to recover and/or use locally. This document does not address transportation and any intermediary processes required to supply the treatment unit with the defined inputs. Provisions of this document apply to the treatment unit according to its unit boundaries, i.e. within the process chain beginning with its specified inputs and ending with its outputs. Some of the considerations on sustainability of the treatment unit are highlighted in Annex B.

Faecal sludge treatment units — Energy independent, prefabricated, community-scale, resource recovery units — Safety and performance requirements

T/SDHCIA 007-2020 铸造用水玻璃砂湿法再生废水治理及回用工程技术规范

标准规定了水玻璃砂湿法再生过程中废水综合治理及回用的污染物与污染负荷、总体要求、工艺设计、主要工艺设备和材料、检测与工程控制、主要辅助工程、劳动安全与职业卫生、施工与验收及运行与维护。

Technical specifications for treatment and reuse of glass sand wet-process regenerated waste water used in foundry

ASTM D7243-11(2020) 纸业污泥饱和液压电导率测量标准指南

1.1 Paper industry sludges are industrial by-products derived from wastewater treatment operations at plants associated with the manufacturing of paper. These sludges typically consist of clay and organic matter. They may also contain low levels of inorganic and organic contaminants and can be rich in microbes. Traditionally, paper industry sludges have been disposed in municipal solid waste landfills or solid waste monofills. However, in the interest of sustainability, applications are being developed where sludges can be used beneficially. One application is using sludge to construct hydraulic barriers (for example, for use in a landfill cap). Such applications generally require that the hydraulic conductivity of the sludge be measured. 1.2 Compacted paper industry sludges generally behave like soils and are amenable to geotechnical testing methods. However, several of their attributes require special attention during testing. Compacted industry sludges generally are highly compressible due to their organic component. Thus, their hydraulic conductivity can be more sensitive to the effective stress and hydraulic gradient applied during testing than most soils. The microbes in paper sludge can also produce gas during testing, confounding testing methods. 1.3 This guide is intended to supplement ASTM D5084, Test Methods for Measurement of Hydraulic Conductivity of Saturated Porous Materials Using a Flexible Wall Permeameter. The purpose of the guide is to provide additional guidance on issues relevant to testing sludges using Test Methods D5084. The guide applies to specimens compacted in the laboratory using procedures such as those described in Test Methods D698 and D1557 or undisturbed specimens collected from the field using procedures such as Practice D1587/ D1587M or Practice D7015/D7015M. 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. This standard contains a hazards section regarding the use of biocides (Section 10). 1.6 This guide offers an organized collection of information or a series of options and does not recommend a specific course of action. This document cannot replace education or experience and should be used in conjunction with professional judgment. Not all aspects of this guide may be applicable in all circumstances. This ASTM standard is not intended to represent or replace the standard of care by which the adequacy of a given professional service must be judged, nor should this document be applied without consideration of a project’s many unique aspects. The word “Standard” in the title of this document means only that the document has been approved through the ASTM consensus process. 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 Guide for Measuring the Saturated Hydraulic Conductivity of Paper Industry Sludges

T/SEESA 005-2020 湿式氧化技术处理高浓度有机废水和污泥技术规范

4.3　设计方案应以“稳定化、减量化、无害化”为目的，确保最终消纳方式的安全可靠，宜做到处理过程不产生二次污染，并利用处理过程中的物质和能量，实现其“资源化”。 5.4　湿式氧化技术处理污泥时如果可达到能量自持，不添加外部热源，在不影响污泥流动性的情况下，污泥浓度应高于2.5%，且污泥浓度越高越好。剩余污泥需要经过污泥浓缩池进行预浓缩至要求浓度后进入湿式氧化主反应装置进行氧化反应。污泥浓缩池的设计宜参照相关污水厂污泥浓缩池设计标准。 5.7　湿式氧化主反应装置由特种金属材料制造的压力容器构成，包括换热器、反应釜、气液分离器等。主反应装置的设计和制造应根据废水和污泥的性质以及处理要求来选择合适的材料，保证系统长期稳定运行。处理污泥的系统常规设计参数：反应温度180—320℃，反应时间30—120min，反应压力2.5—15MPa，COD去除率在50%以上。处理高浓度有机废水的系统常规设计参数：反应温度180—320℃，反应时间30—120min，反应压力2.5—15MPa，COD去除率在50%以上。 7.2.2　运行管理人员应经过培训且合格后方可上岗，并严格按照安全操作规程操作。 7.4.2　进泥含固率应不低于2.5%，污泥减量（重）应不低于70%。

Technical Specification for High Concentration Organic Waste Water & Sludge Treatment by Wet Air Oxidation Technology

BS ISO 22447:2019 工业废水分类

What is this ISO 22447 - Industrial wastewater classification about?    ISO 22447 discusses industrial wastewater classification.   ISO 22447 specifies the principles, categories, and codes for the classification of industrial wastewater and is applicable to all types and sources of industrial wastewater.    ISO 22447 provides a broad framework classifying industrial wastewater into different categories based on industry type and the associated water quality constituents, namely physical, chemical, and biological characteristics with a specific code assigned based on both industry type and waste-stream classification. This classification system defines the basic and most important characteristics of industrial wastewater from different dimensions. It is intended to guide technology selection and design for indus...

Industrial wastewater classification

ISO 22447:2019 工业废水分类

This document specifies the principles, categories, and codes for the classification of industrial wastewater and is applicable to all types and sources of industrial wastewater. It provides a broad framework classifying industrial wastewater into different categories based on industry type and the associated water quality constituents, namely physical, chemical and biological characteristics with a specific code assigned based on both industry type and waste-stream classification.

Industrial wastewater classification

HG/T 5546-2019 含钙废液处理处置方法

Calcium waste liquid treatment and disposal methods

DB23/ 2456-2019 农村生活污水处理设施水污染物排放标准

Discharge Standards for Water Pollutants of Rural Domestic Sewage Treatment Facilities

DB36/ 1102-2019 农村生活污水处理设施水污染物排放标准

Discharge Standards for Water Pollutants of Rural Domestic Sewage Treatment Facilities

BS EN 17183:2018 污泥的表征 污泥密度评价

What is BS EN 17183 about?    BS EN 17183 is an international standard that discusses the characterization of sludges.    BS EN 17183 specifies a method for the determination and evaluation of the sludge (bulk) density. It gives the procedure to determine the density of the liquid and the solid fraction of a suspension.    BS EN 17183 gives technical specifications such as terms, definitions, the principle, interferences, apparatus, test procedures, expression of results, precision, and statement of test reports to evaluate the sludge density.   Note: The method given in BS EN 17183 is also applicable to sludge suspensions from other origins, provided that necessary verifications are d...

Characterization of sludge. Evaluation of sludge density

BS EN 14702-3:2019 污泥的特性 沉降特性 增稠性的测定

Characterisation of sludges - Settling properties - Determination of thickenability