13.230 防爆 标准查询与下载

DB44/T 1937-2016 防爆电气设备质量监督抽查技术规范

本规范适用于广东省质量技术监督部门组织的防爆电气设备产品质量监督抽查，针对特殊情况的专项监督抽查可参照执行。监督抽查产品范围包括隔爆型、增安型、本质安全型及隔爆与增安复合型的防爆电机、防爆仪表、防爆灯具及防爆配电箱等防爆电气设备。 注：针对特殊情况的专项监督抽查是指应急工作需要而进行的或者由于某种特殊情况（或原因）仅需要对部分项目进行抽样检验的专项监督抽查。

Technical specification for quality supervision and random inspection of explosion-proof electrical equipment

DIN EN ISO 80079-36:2016 爆炸性环境.第36部分:爆炸性环境用非电气设备.基本方法和要求(ISO 80079-36-2016).德文版本EN ISO 80079-36-2016

Explosive atmospheres - Part 36: Non-electrical equipment for explosive atmospheres - Basic method and requirements (ISO 80079-36:2016); German version EN ISO 80079-36:2016

DIN EN ISO 80079-37:2016 爆炸性环境.第37部分:爆炸性环境用非电气设备.结构安全"c"型,火源控制"b"型,液体浸透"k"型非电气型防护设备(ISO 80079-37-2016).德文版本EN ISO 80079-37-2016

Explosive atmospheres - Part 37: Non-electrical equipment for explosive atmospheres - Non-electrical type of protection constructional safety "c", control of ignition sources "b", liquid immersion "k" (ISO 80079-37:2016); German version EN ISO 80079-37:20

DIN EN ISO/IEC 80079-20-2:2016 爆炸性气体环境.第20-2部分:材料特性.可燃性粉尘的试验方法(ISO/IEC 80079-20-2-2016).德文版本EN ISO/IEC 80079-20-2-2016

Explosive atmospheres - Part 20-2: Material characteristics - Combustible dusts test methods (ISO/IEC 80079-20-2:2016); German version EN ISO/IEC 80079-20-2:2016

DB32/T 2954-2016 液化天然气汽车箱式橇装加注设备安全技术规范

本标准规定了储罐几何容积不大于60m3的液化天然气汽车箱式橇装加注设备的加注设备术语、定义，安全、防火间距及结构型式，技术要求，调试，标志、出厂资料和运输，培训、使用、维护检修及事故应急处理。 本标准适用于储罐几何容积不大于60m3液化天然气汽车箱式橇装加注设备的设计、制造、安装、调试及使用。

Safety technical specifications for box-type skid-mounted filling equipment for liquefied natural gas vehicles

DB32/T 2914-2016 危险场所电气防爆安全检测作业规范

本标准规定了危险场所电气防爆安全检测作业的术语和定义、基本要求、检测项目及其要求、检测方法等。 本标准适用于安全生产检测检验机构对危险场所电气防爆安全检测及生产经营单位自检。

Operational Specifications for Electrical Explosion-proof Safety Testing in Hazardous Locations

DB14/T 1169-2016 矿用自动抑爆装置应用技术规范

Technical specifications for the application of automatic explosion suppression devices for mines

CSA Z275.6-16:2016 未爆炸弹药 (UXO)、弹药和警察爆炸潜水

This Standard applies to occupational diving operations conducted in connection with unexploded explosive ordnance (UXO) and specifies minimum competency level requirements for all personnel directly associated with the techniques of UXO diving identified in this Standard and additional requirements for occupational safety during UXO diving operations. This Standard also applies to police diving operations conducted in connection with underwater improvised explosive devices (IED’s) and/or commercial explosives. The standard specifies the minimum competency level requirements for personnel involved in police explosive diving.

Unexploded explosive ordnance (UXO), munitions, and police explosive diving

GSO ISO 6184-2:2015 防爆系统 第2部分：空气中可燃气体爆炸指标的测定

This part of ISO 6184 specifies a method for the determination of the explosion indices of combustible gases with air in an enclosed space. It gives the criteria by which results obtained using other test procedures can be correlated to yield explosion indices as determined by the method specified in this part of ISO 6184.

Explosion protection systems -- Part 2: Determination of explosion indices of combustible gases in air

GSO ISO 6184-4:2015 防爆系统 第4部分：抑爆系统功效的确定

This part of ISO 6184 specifies a method for evaluating the effectiveness of explosion suppression systems against defined explosions in an enclosed volume. It gives the criteria for alternative test apparatus used to undertake explosion suppression efficacy tests and criteria to be applied in defining the safe operating regime of an explosion suppression system.

Explosion protection systems -- Part 4: Determination of efficacy of explosion suppression systems

GSO ISO 6184-3:2015 防爆系统 第3部分：除粉尘/空气和气体/空气混合物外的燃料/空气混合物爆炸指数的测定

This part of ISO 6184 specifies a method for the determination of the explosion indices of fuels in air (other than dust/air and gas/air mixtures) in an enclosed space. Fuel/air mixtures may be, for example, gas/air/dust mixtures and vaporized liquid/air mixtures. It gives the criteria by which results obtained using other test procedures can be correlated to yield explosion indices as determined by the method specified in this part of ISO 6184.

Explosion protection systems -- Part 3: Determination of explosion indices of fuel/air mixtures other than dust/air and gas/air mixtures

GSO ISO 6184-1:2015 防爆系统 第1部分：空气中可燃粉尘爆炸指标的测定

This part of ISO 6184 specifies a method for the determination of the explosion indices of combustible dusts suspended in air in an enclosed space. It gives the criteria by which results ob-tained using other test procedures can be correlated to yield ex-plosion indices as determined by the method specified in this part of ISO 6184.

Explosion protection systems -- Part 1: Determination of explosion indices of combustible dusts in air

DB44/T 1540-2015 防爆场（厂）内专用机动车辆防爆安全性能检验规程

本标准规定了爆炸性环境用防爆场（厂）内专用机动车辆（以下简称“防爆车辆”）防爆性能的的检验一般要求、检验内容及要求。 本标准适用于爆炸性气体环境、可燃性粉尘环境用防爆车辆的防爆性能首次定期检验和定期检验。 本标准不适用于煤矿井下用车辆和炸药环境用车辆。

Inspection regulations for explosion-proof safety performance of special motor vehicles in explosion-proof field (factory)

AQ 4241-2015 纺织工业除尘设备防爆技术规范

本标准规定了纺织工业粉尘爆炸危险场所用除尘设备的防爆要求。 本标准适用于纺织工业粉尘爆炸危险场所用除尘设备的设计、安装、使用与维护。

Technical specifications for dust explosion protection of dust removal equipment in textile industry

ASTM E2021-15 尘埃层热表面燃烧温度的标准试验方法

5.1 This test method is applicable to dusts and powders, and provides a procedure for performing laboratory tests to evaluate hot-surface ignition temperatures of dust layers. 5.2 The test data can be of value in determining safe operating conditions in industrial plants, mines, manufacturing processes, and locations of material usage and storage. 5.3 Due to variation of ignition temperature with layer thickness, the test data at one thickness may not be applicable to all industrial situations (see Appendix X1). Tests at various layer thicknesses may provide a means for extrapolation to thicker layers, as listed in the following for pulverized Pittsburgh bituminous coal dust (2). Mathematical modeling of layer ignition at various layer thicknesses is described in Ref. (3). Layer Thickness, mm Hot-Surface Ignition Temperature, °C 6.4 300 9.4 260 12.7 240 25.4 210 5.4 This hot plate test method allows for loss of heat from the top surface of the dust layer, and therefore generally gives a higher ignition temperature for a material than Test Method E771, which is a more adiabatic system. 5.5 This test method for dust layers generally will give a lower ignition temperature than Test Method E1491, which is for dust clouds. The layer ignition temperature is determined while monitoring for periods of minutes to hours, while the dust cloud is only exposed to the furnace for a period of seconds. Note 1: Much of the literature data for layer ignition is actually from a basket in a heated furnace (4), known as the modified Godbert-Greenwald furnace test. Other......

Standard Test Method for Hot-Surface Ignition Temperature of Dust Layers

ASTM E2520-15 对微量易爆化学品检测器性能进行测量和评分的标准实践规程

5.1 The practice may be used to accomplish several ends: to establish a worldwide frame of reference for terminology, metrics, and procedures for reliably determining trace detection performance of ETDs; to give developers tangible benchmarks designed to improve detection performance of next-generation ETDs; as a demonstration by the vendor that the equipment is operating properly to a specified performance score; for a periodic verification by the user of detector performance after purchase; and as a generally-acceptable template adaptable by international agencies to specify performance requirements, analytes and dosing levels, background challenges, and operations. 5.2 It is expected that current ETD systems will exhibit wide ranges of performance across the diverse explosive types and compounds considered. As in previous versions, this practice establishes the minimum performance that is required for a detector to be considered effective in the detection of trace explosives. An explosives detector is considered to have “minimum acceptable performance” when it has attained a test score of at least 80. 5.3 It is not recommended to use scores exclusively to compare different ETD systems in order to make procurement or deployment decisions. The scores themselves signify ratings based on general detection performance, but do not necessarily reflect capabilities with specific analytes or BCMs, nor do scores consider many factors that users may also consider important: procurement and operating costs, robustness and dependability, training requirements, ease of use, security features, size and weight constraints, network capabilities and interoperability, and radioactive material management. 1.1 This practice may be used for measuring, scoring, and improving the overall performance of detectors that alarm on traces of explosives on swabs. These explosive trace detectors (ETDs) may be based on, but are not limited to, chemical detection technologies such as ion mobility spectrometry (IMS) and mass spectrometry (MS). Technologies that use thermodynamic or optical detection are not specifically addressed, but may be adapted into future versions of this practice. 1.2 This practice considers instrumental (post-sampling) trace detection performance, involving specific chemical analytes across eight types of explosive formulations in the presence of a standard background challenge material. This practice adapts Test Method E2677 for the evaluation of limit of detection, a combined metric of measurement sensitivity and repeatability, which requires ETDs to have numerical responses. 1.3 This practice considers the effective detection throughput of an ETD by factoring in the sampling rate, interrogated swab area, and estimated maintenance requirements during a typical eight hour shift. 1.4 This practice does not require, but places extra value on, the specific identification of targeted compounds and explosive formulations. 1.5 This practice requires the use of a single set of ETD operational settings for calculating a system test score based on the factors described in

Standard Practice for Measuring and Scoring Performance of Trace Explosive Chemical Detectors

VDI 2263 Blatt 5-2014 粉尘火灾和粉尘爆炸 危害、评估、防护措施 流化床干燥器的防爆

The standard is applicable for explosion protection measures for fluidised bed spray granulators, fluidised bed dryers and fluidised bed coating installations in which flammable dust/air mixtures, vapour air/air mixtures or hybrid mixtures may appear.

Dust fires and dust explosions - Hazards, assessment, protective measures - Explosion protection in fluidized bed dryers

DB14/T 1005-2014 煤矿用瓦斯输送管道自动抑爆装置

本标准规定了煤矿用瓦斯输送管道自动抑爆装置（以下简称装置）的术语和定义、要求、试验方法、检验规则、标志、包装、运输及贮存。 本标准适用于山西省辖区内煤矿用瓦斯输送管道自动抑爆装置的设计、制造、检验及安装。

Automatic explosion suppression device for coal mine gas pipeline

DB14/T 1006-2014 矿用自动抑爆装置

本标准规定了矿用自动抑爆装置（以下简称装置）的术语和定义、要求、试验方法、检验规则、标志、包装、运输及贮存。 本标准适用山西省辖区内矿用自动抑爆装置的设计、制造、安装和检验。

Mine Automatic Explosion Suppression Device

JB/T 11736-2014 镁合金压铸件精整机加工通风除尘安全规范

本标准规定了镁合金压铸件精整机加工通风除尘的术语和定义、个体防护、场地安全、生产设备安全、通风除尘装置安全、精整机加工安全、灭火与安全管理等安全规范。本标准适用于镁合金压铸件精整机加工场地的设计、生产与管理。

The ventilation and dust removal safety specification of magnesium alloy die casting in final finishing and machining process