HG/T 3535-2003 工业循环冷却水污垢和腐蚀产物中硫酸盐含量测定方法
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基本信息
| 标准名称: | 工业循环冷却水污垢和腐蚀产物中硫酸盐含量测定方法 |
| 英文名称: | Industrial circulating cooling water-Determination of sulphates for sludge and corrosion products |
| 中标分类: |
化工 >>
化学助剂、表面活性剂、催化剂、水处理剂 >>
水处理剂基础标准与通用方法 |
| ICS分类: |
化工技术 >>
分析化学 >>
化学分析
|
| 替代情况: | 替代HG/T 3535-1985;被HG/T 3535-2011代替 |
| 发布部门: | 中华人民共和国国家发展和改革委员会 |
| 发布日期: | 2004-01-09 |
| 实施日期: | 2004-05-01 |
| 首发日期: | 1900-01-01 |
| 作废日期: | 2012-07-01 |
| 提出单位: | 中国石油和化学工业协会 |
| 归口单位: | 全国化学标委会水处理剂分会 |
| 起草单位: | 天津化工研究设计院 |
| 起草人: | 李琳、朱传俊、邵宏谦 |
| 出版社: | 化工出版社 |
| 出版日期: | 2004-05-01 |
| 页数: | 4页 |
| 批文号: | 13199-2004 |
适用范围
本标准规定了工业循环冷却水污垢和腐蚀产物中硫酸盐含量的测定方法。
本标准适用于工业循环冷却水污垢和腐蚀产物中硫酸盐含量的测定。
前言
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目录
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引用标准
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所属分类: 化工 化学助剂 表面活性剂 催化剂 水处理剂 水处理剂基础标准与通用方法 化工技术 分析化学 化学分析
【英文标准名称】:Furniture-Assessmentofsurfaceresistancetocoldliquids(ISO4211:1979,modified);GermanversionEN12720:1997
【原文标准名称】:家具.表面抗冷液体能能的评定
【标准号】:DINEN12720-1997
【标准状态】:作废
【国别】:德国
【发布日期】:1997-10
【实施或试行日期】:
【发布单位】:德国标准化学会(DE-DIN)
【起草单位】:
【标准类型】:()
【标准水平】:()
【中文主题词】:精整;家具;表面检验;食品;表面处理;制冷的;塑料;定义;定义;耐力;表面性质;液体;评定;试验;测定;表面;试验
【英文主题词】:Cold;Definitions;Determination;Evaluations;Finishes;Foodproducts;Furniture;Liquids;Plastics;Resistance;Surfaceinspections;Surfaceproperties;Surfaces;Testing;Treatmentsofsurfaces
【摘要】:
【中国标准分类号】:Y80
【国际标准分类号】:97_140
【页数】:10P;A4
【正文语种】:德语
Product Code:SAE AIR4175
Title:A Guide to the Development of a Ground Station for Engine Condition Monitoring
Issuing Committee:E-32 Aerospace Propulsion Systems Health Management
Scope: An effective GSS is vital to the successful implementation of an EMS and is a fundamental part of the total monitoring system design, including asset management. Unlike the on-board part of the EMS which principally uses real time data to indicate when engine maintenance is required, a GSS can offer much greater processing power to comprehensively analyze and manipulate EMS data for both maintenance and logistics purposes.This document reviews the main EMS functions and discusses the operating requirements used to determine the basis design of a GSS, including the interfaces with other maintenance or logistic systems. A brief discussion is also included on some of the more recent advances in GSS technology that have been specifically developed to provide more effective diagnostic capabilities for gas turbine engines.
Rationale: An effective GSS is vital to the successful implementation of an EMS and is a fundamental part of the total monitoring system design, including asset management. Unlike the on-board part of the EMS which principally uses real time data to indicate when engine maintenance is required, a GSS can offer much greater processing power to comprehensively analyze and manipulate EMS data for both maintenance and logistics purposes.This document reviews the main EMS functions and discusses the operating requirements used to determine the basis design of a GSS, including the interfaces with other maintenance or logistic systems. A brief discussion is also included on some of the more recent advances in GSS technology that have been specifically developed to provide more effective diagnostic capabilities for gas turbine engines.
