(CMA)
(CNAS)
(ISO)
(高新技术企业)
资深回收率相关标准参考信息
GB/T 31272-2014 包装 能量回收率 计算规则和方法
简介:本标准规定了可燃包装废弃物能量回收率计算的规则和方法。本标准适用于所有可燃包装组分或辅助物的能量回收率计算,如纸、纸板、塑料、铝(厚度小于50 μm)和木材等。
信息:ICS:55.020 CCS:A80 发布:2014-10-10 实施:2015-05-01
BS EN ISO 17994-2014 水质. 用两种定量方法对比微生物回收率的基本要求
简介:
信息:ICS:07.100.20 CCS:Z16 发布:2014-02-28 实施:2014-02-28
BS EN 13439-2003 包装.能源回收率.定义和计算方法
简介:The scope of this European Standard is to present a method to calculate the rate of energy recovery of packaging.
信息:ICS:13.020.20;55.020 CCS:A80 发布:2004-05-11 实施:2004-05-11
GB/T 3731-1983 涂料焊条效率,金属回收率和熔敷系数的测定
简介:本国家标准规定了直径为3.15至6.3mm的碳钢和低合金高强度钢涂料焊条效率、焊条金属回收率和熔敷系数的测定方法。 本国家标准所规定的测量精度在实际应用中是足够的,因为每一批焊条的性质总会有一定的波动。
信息:ICS:25.160.20 CCS:J33 发布:1983-06-21 实施:1984-03-01
ISO 17994:2014 水质与灰分;用两种定量方法比较微生物相对回收率的要求
简介:
信息:ICS:13.060.70 CCS: 发布:2014-02-06 实施:
DIN EN 13439-2004 包装.能量回收率.定义和计算方法
简介:
信息:ICS:13.020.20;55.020;55.040 CCS:A80 发布:2004-04 实施:
T/ATCRR 37-2022 废铅蓄电池回收率管理要求
简介:废铅蓄电池回收率管理要求
信息:ICS:13.030.50 CCS:N772 发布:2022-06-20 实施:2022-07-01
ISO 17994-2014 水质. 用两种定量方法对比微生物回收率的基本要求
简介:
信息:ICS:07.100.20;13.060.70 CCS:Z16 发布:2014-02 实施:
DIN EN 13440-2004 包装.回收率.定义和计算方法
简介:This standard establishes a methodology for the calculation of the rate of recycling of packaging and packaging material. Note: The packaging supply chain also uses other ratios in the management of their operations. The flow diagrams used in the methodology set out in this standard can be used in the evaluation of such other ratios and examples are given.
信息:ICS:13.030.50;55.040 CCS:A80 发布:2004-04 实施:
T/FSYY 0052-2021 废旧电池综合利用回收率计算方法
简介:废旧电池综合利用回收率计算方法
信息:ICS:13.030.50 CCS:C421 发布:2021-12-28 实施:2022-01-25
YS/T 3021-2013 炭浆工艺金回收率计算方法
简介:本标准规定了炭浆工艺金回收率的计算方法。本标准适用于金矿石、浮选金精矿或经焙烧、生物氧化及其他工艺预处理后的含金物料氰化炭浆工艺金理论回收率的计算。本标准也适用于树脂矿浆工艺金理论回收率的计算。
信息:ICS:77.150.01 CCS:D46 发布:2013-10-17 实施:2014-03-01
ASTM F36-99(2003) 垫片材料的压缩性和回收率的标准试验方法
简介:
信息:ICS:21.140 CCS: 发布:2003-10-01 实施:
YS/T 3041.1-2021 火试金法测定金属矿石、精 矿及相应物料中银量的校正方法 第 1 部分:全流程回收率法
简介:
信息:ICS:73.060.99 CCS:D 46 发布:2021-12-22 实施:2022-04-01
IEC TR 62635:2012 制造商和回收商提供的报废信息以及电气和电子设备可回收率计算指南
简介:
信息:ICS:31.020 CCS: 发布:2012-10-19 实施:
NF H60-126-2003 包装.回收率.定义和计算方法
简介:
信息:ICS:13.030.50;55.040 CCS:A80 发布:2003-10-01 实施:2003-10-20
KS I ISO 17994-2021 水质.用两种定量方法比较微生物相对回收率的要求
简介:
信息:ICS: CCS: 发布:2021-11-19 实施:
IEC TR 62635-2012 制造商和回收商提供的报废信息以及电气和电子设备可回收率计算指南
简介:
信息:ICS:31.020 CCS: 发布:2012-10-19 实施:
EN 13439-2003 包装.能量回收率.定义和计算方法
简介:The scope of this European Standard is to present a method to calculate the rate of energy recovery of packaging.
信息:ICS:13.020.20;55.040 CCS: 发布:2003-05-01 实施:
T/ATCRR 32-2021 废动力蓄电池回收率计算方法
简介:废动力蓄电池回收率计算方法
信息:ICS:13.030.99 CCS:N772 发布:2021-09-17 实施:2021-09-26
YS/T 3006-2011 含金物料氰化浸出锌粉置换提金工艺理论回收率计算方法
简介:本标准规定了含金物料氰化浸出锌粉置换提金工艺过程理论回收率计算方法。本标准适用于金矿石、浮选金精矿、或金矿石、浮选金精矿经焙烧、生物氧化及其他工艺预处理后氰化浸出锌粉置换提金工艺过程。
信息:ICS:73.060.99 CCS:H60 发布:2011-12-20 实施:2012-07-01
EN 13440-2003 包装.回收率.定义和计算方法
简介:This European Standard establishes a methodology forThe calculation of the rate of recycling of packaging and packaging material.NOTEThe packaging supply chain also uses other ratios inThe management of their operations.The flow diagrams used inThe methodology set out inThis European Standard can be used inThe evaluation of such other ratios and examples are given.
信息:ICS:13.030.50;55.040 CCS: 发布:2003-05-01 实施:
ASTM F36-15(2021) 垫片材料的压缩性和回收率的标准试验方法
简介:
信息:ICS:21.140 CCS: 发布:2021-04-01 实施:
ASTM C1123/C1123M-90(2009)e1 石棉压缩性和回收率的标准试验方法
简介:
信息:ICS:91.100.40 CCS: 发布:2009-11-01 实施:
BS EN 13439-2003 (2004) 包装.能源回收率.定义和计算方法
简介:
信息:ICS: CCS: 发布:2003-01-01 实施:2003-01-01
PNS ISO 2401-2021 焊接耗材.焊条.效率,金属回收率和沉积系数的测定
简介:
信息:ICS:25.160.20 CCS:J33 发布:2021 实施:
ASTM F36-99(2009) 垫片材料的压缩性和回收率的标准试验方法
简介:
信息:ICS:23.100.60 CCS: 发布:2009-10-01 实施:
BS EN 13440-2003 (2004) 包装.回收率.定义和计算方法
简介:
信息:ICS: CCS: 发布:2003-01-01 实施:2003-01-01
ASTM F2709-19 测定固定式撇油器系统铭牌回收率的标准试验方法
简介:
信息:ICS:13.020.40 CCS: 发布:2019-08-01 实施:
ASTM E1108-86(2009) 用于确定材料分离装置中产品回收率的标准测试方法
简介:
信息:ICS:13.030.40 CCS: 发布:2009-07-01 实施:
SANS 2401-1972 涂料焊条效率,金属回收率和熔敷系数的测定
简介:Specifies a method for the determination of the efficiency, weld metal recovery and deposition coefficient of carbon steel and low alloy high tensile steel covered electrodes in the sizes 3,15 mm to 6,3 mm.
信息:ICS:25.160.20 CCS:J33 发布:2001-03-29 实施:
ASTM F2709-18 测定固定式撇油器系统铭牌回收率的标准试验方法
简介:
信息:ICS:13.020.40 CCS: 发布:2018-11-01 实施:
ASHRAE LO-09-091-2009 低温学的新兴应用.提高蓄水池油回收率用氮注射剂
简介:
信息:ICS: CCS: 发布:2009-01-01 实施:
CAC/GL 37-2001(En) 分析测量中回收率信息与IUPAC一致性指南
简介:无
信息:ICS: CCS: 发布:2001-01-01 实施:2001-01-01
ISO 2401:2018 焊接消耗品.覆盖电极.效率 金属回收率和沉积系数的测定
简介:
信息:ICS:25.160.20 CCS: 发布:2018-08-06 实施:
GOST R 53754-2009 资源保护.包装.回收率.定义与计算方法
简介:
信息:ICS:13.020.01;13.030.01;13.030.50;55.040 CCS: 发布:2009 实施:2011-01-01
ASTM C1123-90(1999) 石棉压缩性和回收率的标准试验方法
简介:
信息:ICS:91.100.40 CCS: 发布:1999-05-10 实施:
ASTM E1108-86(2017) 在
简介:
信息:ICS:13.030.40 CCS: 发布:2017-09-01 实施:
ASTM F2709-08 固定式撇油器系统铭牌回收率测定的标准试验方法
简介:
信息:ICS:13.020.40 CCS: 发布:2008-09-15 实施:
ASTM F36-99 垫片材料的压缩性和回收率的标准试验方法
简介:
信息:ICS:21.140 CCS: 发布:1999-03-10 实施:
KS C IEC/TR 62635-2017(2022) 制造商和回收商提供的报废信息以及电气和电子设备可回收率计算指南
简介:
信息:ICS: CCS: 发布:2017-06-01 实施:
ASTM F2709-2008 测定固定油水分离设备的铭牌回收率的标准试验方法
简介:It has been industry practice to claim the capacity of a skimmer based on the rate of the discharge pump (which are typically rated using water as a test fluid) or other arbitrary methods. End users need a test methodology that evaluates optimum performance data for planning and selection of equipment. This test method will assist producers and other stakeholders to verify and accurately report skimmer system performance. This test method is specifically designed to quantify two key skimmer performance values, to reduce testing costs, and to encourage industry wide performance standardization. This test method establishes test conditions that will result in a measured nameplate recovery rate and an indication of the combination of test parameters (oil type, viscosity, operating speed) that result in the highest average performance for the tested skimmer system. This test method will validate the performance of the discharge pump in the skimmer system, under conditions that are typical of a recovery operation. Specifically, this will include a modest imposed head pressure composed of static head and dynamic friction losses due to a specified length of discharge hose. This test method encourages performance testing using two or more oils for comparison purposes. Tests shall be conducted under well-documented conditions and generate repeatable results. More detailed testing and collection of skimmer performance is covered under existing standards (for example, Guide F 631). Testing (SL Ross 2007) has shown that, when water is present, recovery performance in slick thicknesses ranging from 50 mm to 75 mm results in values comparable to significantly thicker slicks. This may not be the case with high-rate skimmers in viscous oil, where the rate of oil recovery exceeds the rate at which the slick will flow to the skimmer mechanism. For skimming systems that include various options for the discharge pump, the test described in this test method may be used to measure the performance of the skimming component of the system. Performance of the pumping component can be measured independently using the same viscosity of oil and the discharge head conditions noted in this test method. The nameplate recovery rate of any specified skimming component and pump combination would be the lesser of the skimming component and the pump.1.1 This test method defines a method and measurement criteria to quantify the nameplate recovery rate (capacity) of a stationary skimmer system in ideal conditions. If a determination of a skimmerx2019;s capabilities in realistic conditions (that is, advancing or waves) is required, testing should be performed according to Guide F 631 or equivalent. 1.2 This test method includes the option of testing to determine recovery efficiency. 1.3 This test method and parameters are intended to provide ideal recovery conditions allowing the skimmer system to operate and collect oil at its maximum possible recovery rate. Given ideal conditions, inherent mechanical and physical attributes of the system become the limiting factors. 1.4 This test method is intended to identify limitations of the skimmer system, such as performance of the skimming mechanism, the flow of oil within the skimmer and sump, the pump characteristics, and typical discharge head conditions. 1.5 It is accepted that the nameplate recovery rate as determined by this test method will not likely be achievable under actual conditions of a spill. The nameplate recovery rate should be used in conjunction with a de-rating factor to account for such issues as changing encounter rate, changes in other recovery conditions, changes in oil properties and slick thickness, number of daylight hours, operator downtime, less than idea......
信息:ICS:13.020.40 CCS:Z05 发布:2008 实施:
ASTM D926-98 橡胶性能 - 塑性和回收率的标准测试方法(平行板法)
简介:
信息:ICS:83.060 CCS: 发布:1998-11-10 实施:
T/CSAE 44-2015 纯电动乘用车再生制动能量回收率的评价及试验方法
简介:本标准规定了纯电动乘用车再生制动能量回收率的评价及试验方法。本标准适用于GB/T15089规定的M1类纯电动乘用车,其装备包含摩擦制动系统和电制动系统等。
信息:ICS:43.120 CCS:C3650 发布:2015-11-05 实施:2018-01-24
2005/293/EC-2005 欧盟委员会根据第C(2004)2849文件的规定,作出的为关于报废车辆的第2000/53/EC号欧洲议会和欧盟理事会指令规定的再利用/回收以及再利用率/回收率目标制定详细规范的决议[内容与欧洲经济区(EEA)相关]
简介:
信息:ICS: CCS: 发布:2005-04-01 实施:
NAVY MIL-R-23074 C NOTICE 1-1998 橡胶-空气-铅型(铝回收率)橡胶砖
简介:MIL-R-23074C, dated 22 May 1990, is inactive for new design and is no longer used, except for replacement purposes.
信息:ICS:83.060 CCS:K40 发布:1998-04-22 实施:
ASTM F2709-15 测定固定式撇油器系统铭牌回收率的标准试验方法
简介:
信息:ICS:13.020.40 CCS: 发布:2015-07-01 实施:
ASTM C1123-90(2004) 石棉压缩性和回收率的标准试验方法
简介:
信息:ICS:91.100.40 CCS: 发布:2004-06-01 实施:
ASTM E1108-86(1996) 用于确定材料分离装置中产品回收率的标准测试方法
简介:
信息:ICS:13.030.40 CCS: 发布:1996-01-01 实施:
ASTM F36-15 垫片材料的压缩性和回收率的标准试验方法
简介:
信息:ICS:21.140 CCS: 发布:2015-01-01 实施:
ASTM C1123-90(2004)e1 石棉压缩性和回收率的标准试验方法
简介:
信息:ICS:91.100.40 CCS: 发布:2004-06-01 实施:
DS/EN 22401-1994 涂料电极.效率,金属回收率和熔敷系数的测定
简介:This International Standard specifies a method for the determination of the efficiency, weld metal recovery and deposition coefficient of carbon steel and low alloy high tensile steel covered electrodes in the sizes 3.15 to6.3 mm11.For the practical use of this International Standard, the precision of measurement specified is sufficient because of the inherent variation in characteristics of individual electrodes.Section 4 specifies the measurement of a number of different values. It is, however, necessary to measure only those values required for the calculation of the particular factors being determined.
信息:ICS:25.160.20 CCS: 发布:1994-06-07 实施:1994-06-07
ASTM F2709-2015 测定固定式撇油器系统测定的铭牌回收率的标准试验方法
简介:4.1x00a0;It has been industry practice to claim the capacity of a skimmer based on the rate of the discharge pump (which are typically rated using water as a test fluid) or other arbitrary methods. 4.2x00a0;End users need a test methodology that evaluates optimum performance data for planning and selection of equipment. 4.3x00a0;This test method will assist producers and other stakeholders to verify and accurately report skimmer system performance. 4.4x00a0;This test method is specifically designed to quantify two key skimmer performance values, to reduce testing costs, and to encourage industry wide performance standardization. 4.5x00a0;This test method establishes test conditions that will result in a measured nameplate recovery rate and an indication of the combination of test parameters (oil type, viscosity, operating speed) that result in the highest average performance for the tested skimmer system. 4.6x00a0;This test method will validate the performance of the discharge pump in the skimmer system, under conditions that are typical of a recovery operation. Specifically, this will include a modest imposed head pressure composed of static head and dynamic friction losses due to a specified length of discharge hose. 4.7x00a0;This test method encourages performance testing using two or more oils for comparison purposes. 4.8x00a0;Tests shall be conducted under well-documented conditions and generate repeatable results. More detailed testing and collection of skimmer performance is covered under existing standards (for example, Guide F631). 4.9x00a0;Testing (SL Ross 2007)3 has shown that, when water is present, recovery performance in slick thicknesses ranging from 50 mm to 75 mm results in values comparable to significantly thicker slicks. This may not be the case with high-rate skimmers in viscous oil, where the rate of oil recovery exceeds the rate at which the slick will flow to the skimmer mechanism. 4.10x00a0;For skimming systems that include various options for the discharge pump, the test described in this test method may be used to measure the performance of the skimming component of the system. Performance of the pumping component can be measured independently using the same viscosity of oil and the discharge head conditions noted in this test method. The measured nameplate recovery rate of any specified skimming component and pump combination would be the lesser of the skimming component and the pump. 1.1x00a0;This test method defines a method and measurement criteria to quantify the performance of a stationary skimmer in ideal conditions in support of a devicex2019;s nameplate recovery rate (capacity). If a determination of a skimmerx2019;s capabilities in realistic conditions (that is, advancing or waves) is required, testing should be performed according to......
信息:ICS:13.020.40 CCS: 发布:2015 实施:
BS EN 13440-2003 包装.回收率.定义和计算方法
简介:This European Standard establishes a methodology for the calculation of the rate of recycling of packaging and packaging material.NOTE The packaging supply chain also uses other ratios in the management of their operations. The flow diagrams used in the methodology set out in this European Standard can be used in the evaluation of such other ratios and examples are given.
信息:ICS:13.030.50;55.040 CCS:A80 发布:2004-05-13 实施:2004-05-13
NAVY MIL-R-23074 C-1990 橡胶-空气-铅型(铝回收率)橡胶砖
简介:This specification covers rubber tile used for reducing the transmission of vibration from metal plates to water.
信息:ICS:83.060 CCS:K40 发布:1990-05-22 实施:
DIN EN ISO 17994-2014 水质. 采用双定量法比较微生物相对回收率的要求(ISO 17994-2014); 德文版本EN ISO 17994-2014
简介:
信息:ICS:07.100.20 CCS:Z16 发布:2014-06 实施:
BS EN 13440-2004 包装.回收率.定义和计算方法
简介:
信息:ICS:13.030.50;55.040 CCS:A80 发布:2004-05-13 实施:2004-05-13
ASTM E1108-86(2004) 用于确定材料分离装置中产品回收率的标准测试方法
简介:
信息:ICS: CCS: 发布:1986-04-25 实施:
NF T90-462-2014 水质. 采用双定量法比较微生物相对回收率的要求
简介:La présente Norme internationale spécifie une procédure d'évaluation qui permet de comparer deux méthodes avec des caractéristiques de performance établies conformément à l'ISO/TR 13843 et visant à quantifier le même groupe cible ou la même espèce de micro-organismes.Elle fournit les bases mathématiques pour évaluer les performances relatives moyennes des deux méthodes quantitatives par rapport à des critères de comparaison déterminés. Elle ne fournit aucune donnée permettant d'évaluer la fidélité des méthodes comparées. Il convient que la fidélité des méthodes soit évaluée lors de la détermination de leurs caractéristiques de performance.La présente Norme
信息:ICS:07.100.20;13.060.70 CCS:Z16 发布:2014-04-12 实施:2014-04-12
BS EN 13439-2004 包装.能源回收率.定义和计算方法
简介:
信息:ICS:13.020.20;55.040 CCS:A80 发布:2004-05-11 实施:2004-05-11
ASTM E1108-1986(2009) 测定材料分隔装置中产品回收率的标准试验方法
简介:This test method is used to document the ability of a solid waste resource recovery separator to capture the component(s) of interest in the desired process stream. The recovery determined in this way is used in conjunction with the purity of the product, as described in Test Method E 889.1.1 This test method covers the determination of the recovery of a desired product in a device processing solid waste for the purpose of concentrating a component of interest. The recovery is determined with respect to the amount of the desired component in one output stream (accepts) as opposed to another output stream (rejects). The results of this calculation determine the effectiveness of component separation when coupled with a measure of product purity as described in Test Method E 889. 1.2 The values stated in SI units are to be regarded as standard. No other units of measurement are included in this standard. 1.3 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 and health practices and determine the applicability of regulatory limitations prior to use. Specific precautionary information is given in Section 7.
信息:ICS: CCS:J88 发布:1986 实施:
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