G75 催化剂 标准查询与下载

HG/T 4107-2009 甲醇合成催化剂

本标准规定了C207、C301、C306、C307型等甲醇合成催化剂的要求、试验方法、检验规则、标志、包装、运输、贮存。 本标准适用于以煤、油、天然气(包括油田气)、焦炉气、乙烯尾气、乙炔尾气等为原料生产甲醇的甲醇合成催化剂。

Methanol synthesis catalysts

ASTM UOP703-09 用感应炉燃烧和红外线检测法测定催化剂中碳含量

This method is for determining total carbon on catalysts and in other inorganic materials using a high temperature induction furnace carbon analyzer. The method is generally applied over a range of 0.01 to 20 mass-% carbon; however, up to 100 mass-% carbon can be determined with appropriate calibration. On used catalyst, the carbon may be present as coke and/or hydrocarbons. If only the carbon present as coke is desired, hydrocarbons are removed by extraction prior to analysis, as described in UOP Method 602, Soxhlet Extraction of Catalysts. Analysis of catalysts containing light hydrocarbons can be problematic due to thermal loss of the hydrocarbons before controlled combustion occurs. For such materials, other methods, such as ASTM D5291, Instrumental Determination of Carbon, Hydrogen, and Nitrogen in Petroleum Products and Lubricants, should be utilized. Analyzers that utilize combustion tube, rather than induction furnace technology may be used if it can be proven that they yield precision data at least as good as that listed herein.

Carbon on Catalysts by Induction Furnance Combustion and Infrared Detection

ASTM D3766-08(2013) 催化剂和催化作用的相关标准术语

1.1 This terminology covers definitions of terms related to catalysts and catalysis.Note 1—The Manual of Symbols and Terminology for Physicochemical Quantities and Units presents authoritative descriptions of many terms used in the field of catalysis.2

Standard Terminology Relating to Catalysts and Catalysis

XB/T 506-2007 柴油车排气净化氧化催化剂

本标准规定了柴油车排气净化用氧化催化剂的要求、试验方法、检验规则和标志、包装、运输、贮存。 本标准适用于以堇青石蜂窝陶瓷材料作为载体并负载稀土、贵金属或其他金属等活性组分的柴油车排气净化用氧化催化剂。

Oxidation catalyst for diesel vehicle exhaust purification

HG/T 2271-2007 氨氧化制硝酸用铂催化剂

本标准规定了氨氧化制硝酸用铂催化剂的要求、试验方法、检验规则和标志、包装、贮存、运输。 本标准适用于氨氧化制硝酸、氢氰酸以及已内酰胺用网状铂催化剂。

The platinum catalyst Oxidizing ammonia into nitric acid

ASTM UOP303-07 催化剂中杂质的ICP - OES分析

This method is for determining trace metal elements in fresh, regenerated and spent alumina-, silica- or silica/alumina-based catalysts by Inductively Coupled Plasma-Atomic Emission Spectroscopy (ICP-AES). Fe, Ni, V, Ca, Mg, Mn, Cr, Sn, Cu, Zn, Ti, Pb, Na, Mo, Co and Si are determined quantitatively on catalysts. Si is not determined when it is a component of the catalyst base. Other elements can be added if required, however, Ba and Hg cannot be determined. In addition, As and P are determined on regenerated or spent alumina-based catalyst. The majority of the specified elements can be determined within the concentration range of 0.005 to 2.0 mass-%. Specific concentration ranges for the elements determined are listed in Table 1. This method is not applicable to noble metals and modifiers on catalysts. Those elements can be determined by UOP Method 873. This method cannot be used for determining impurities in alpha-alumina catalyst.

Impurities in Catalysts by ICP-OES

ASTM UOP778-07 挤条催化剂包装表观密度

This method is for determining the packed apparent bulk density of extruded catalysts. The method is applicable to catalysts conforming to the following approximate dimensions: a maximum diameter of 3.2 mm (1/8 inch) and a maximum average length of 9.5 mm (3/8 inch), with a maximum individual length of 15.9 mm (5/8 inch). Apparent bulk density, referred to as ABD, is an empirical value defined as weight per unit volume. The packed ABD of molecular sieves can be determined using UOP Method 563, 揚acked Apparent Bulk Density of Molecular Sieves,?which addresses the hydrophilic nature of the material.

Packed Apparent Bulk Density (ABD) of Extruded Catalyst

ASTM D6761-07 催化剂和催化剂载体总孔体积的测定用标准试验方法

This test method provides for the measurement of volume of pores that are in the range of catalytic importance and possibly for adsorption processes. This test method requires the use of mercury in order to perform the measurements.1.1 This test method covers the determination of the total pore volume of catalysts and catalyst carriers, that is, the volume of pores having pore diameter between approximately 14 m and 0.4 nm (4 A).This test method involves hazardous materials, operations, and equipment. 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 hazard statements are given in Section . Warning statements are given in 9.1.4, 9.1.7, and 9.1.11.

Standard Test Method for Determination of the Total Pore Volume of Catalysts and Catalyst Carriers

HG 3556-2004 一氧化碳低温变换催化剂

本标准规定了一氧化碳低温变换催化剂的要求、试验方法、检验规则和标志、包装、贮存、运输。 本标准适用于合成氨和制氢装置中一氧化碳加水蒸气制氢的B202、B204、B206型等一氧化碳低温变换催化剂。

Low temperature carbon monoxide shift catalyst

HG/T 2508-2004 氧化锌脱硫剂

本标准规定了T302Q、T304-1、T305型氧化锌脱硫剂的要求、试验方法、检验规则和标志、包装、贮存和运输。、 本标准适用于合成氨、制氢、合成甲醇、有机合成原料气(油)中脱除硫化氢和部分有机硫化物的T302Q、T304—1、T305型氧化锌脱硫剂及其同类型产品。

Zinc oxide desulphurizer

HG/T 2505-2004 有机硫加氢催化剂

本标准规定了T201、T203型有机硫加氢催化剂的要求、试验方法、检验规则和标志、包装、贮存、运输。 本标准适用于合成氨、制氢、合成甲醇、有机合成原料气(油)中有机硫加氢的T201、T203型有机硫加氢催化剂及其同类型产品。

Organic sulphur hydrogenation catalyst

HG/T 2509-2004 甲烷化催化剂

本标准规定了J101、J105、J106Q型等甲烷化催化剂的要求、试验方法、检验规则及标志、包装、贮存、运输。 本标准适用于合成氨厂、甲醇厂和制氢系统装置内使气体中少量碳氧化物加氢生成甲烷的甲烷化催化剂。

Methanation catalyst

HG/T 2086-2004 二氧化硫氧化制硫酸催化剂

The catalyst oxidizing sulphuric dioxide into sulphuric acid

HG/T 2273.2-2004 天然气二段转化催化剂

本标准规定了Z203、Z204、Z206型天然气二段转化催化剂的要求、试验方法、检验规则及标志、包装、运输、贮存。 本标准适用于合成氨厂二段转化炉中天然气进厂步转化制取氢气和类似工艺过程制氢的其他转化装置使用的Z203、Z204、Z206型天然气二段转化催化剂及其同类型产品。

The natural gas catalyst for secondary reforming

HG/T 2273.1-2004 天然气一段转化催化剂

本标准规定了Z102、Z107、Z108、Z109-1Y、Z109-2Y、Z110Y、Zlll型天然气一段转化催化剂的要求、试验方法、检验规则及标志、包装、运输、贮存。 本标准适用于合成氨、甲醇及制氢工业中以天然气、水蒸气为原料制取合成气(CO+Hz)和氢气装置使用的Z102、Z107、Z108、Z109-1Y、Z109-2Y、Zll0Y、Zlll型天然气一段转化催化剂及其同类型产品。

The natural gas catalyst for primary reforming

HG/T 2273.3-2004 天然气二段转化热保护剂

本标准规定了Z205型天然气二段转化热保护剂的要求、试验方法、检验规则及标志、包装、运输、贮存。 本标准适用于合成氨厂二段转化炉中天然气进一步转化制取氢气装置中与天然气二段转化催化剂配套使用的Z205型天然气二段转化热保护剂及其同类型产品。

The heat-preserve of natural gas for secondary reforming

HG/T 3550-2004 氨合成催化剂

本标准规定了Allo系列(包括A110—1、A110-2、A1lO-3、A1lO-4、A1lO-5Q、A1lO-6)、A201、A202、A203、A207、A301型等氨合成催化剂的要求、试验方法、检验规则和标志、包装、贮存、运输。 本标准适用于氨合成装置中，氢和氮反应制取氨用的A110系列(包括A110—1、A1lO-2、A110-3、A110-4、A1lO-5Q、A110-6)、A201、A202、A203、A207、A301型等氨合成催化剂。

Ammonia synthesis catalyst

ASTM D7084-04(2009) 催化剂和催化剂载体的整体粉碎力的测定的标准试验方法

This test method is a means of determining the crushing strength of a catalyst in a bed. Techniques to measure the crushing strength of formed catalyst particles is limited to crushing of individual particles, which may not be related to how the catalyst will crush in a reactor or bed. For some catalysts, such as granules, this technique may be the only viable method for obtaining crushing strength. The production of fines in a reactor is not desired because of the potential of bed compaction and the pressure buildup in the reactor.1.1 This test method covers the determination of bulk crush strength of a bed of formed catalyst particles 1/32 to 3/16 in. (0.8 to 4.8 mm) in diameter and is intended to provide information concerning the ability of the catalyst material to maintain physical integrity. 1.2 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. 1.3 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.

Standard Test Method for Determination of Bulk Crush Strength of Catalysts and Catalyst Carriers

ASTM D7085-04(2010)e1 X射线荧光光谱法(XRF)测定流化床催化裂化催化剂中的化学元素的标准指南

The chemical composition of fresh FCC catalyst and equilibrium FCC catalyst is a predictor of catalyst performance. The analysis of catalyst fines also provides information on the performance of the FCC unit and the fines collection device(s). The chemical composition of equilibrium FCC catalyst is a measure of the hazardous nature or toxicity of the material for purposes of disposal or secondary use.1.1 This guide covers several comparable procedures for the quantitative chemical analysis of up to 29 elements in fluid catalytic cracking (FCC) catalyst by X-ray fluorescence spectrometry (XRF). Additional elements may be added. 1.2 This guide is applicable to fresh FCC catalyst, equilibrium FCC catalyst, spent FCC catalyst, and FCC catalyst fines. 1.3 The values stated in SI units are to be regarded as standard. No other units of measurement are included in this standard. 1.3.1 The units of ppm (mg/kg) are used instead of wt% in Tables X2.3-X2.5 for reporting concentration of certain elements because of industry convention and because most of these elements are present at trace levels. 1.4 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 requirements prior to use. 8.1 A test method example is provided for the analysis of nickel and vanadium in equilibrium FCC catalyst using either a wavelength or an energy-dispersive X-ray spectrometer and test specimens prepared by the pressed pellet technique. 8.2 This technique can be extended to other elements. 16.1 A test method example is provided for the analysis of nickel and vanadium in equilibrium FCC catalyst using either a wavelength or an energy-dispersive X-ray spectrometer and using test specimens prepared by the fused bead technique.

Standard Guide for Determination of Chemical Elements in Fluid Catalytic Cracking Catalysts by X-ray Fluorescence Spectrometry (XRF)

ASTM D7084-04 催化剂和催化剂载体的整体粉碎力的测定的标准试验方法

This test method is a means of determining the crushing strength of a catalyst in a bed. Techniques to measure the crushing strength of formed catalyst particles is limited to crushing of individual particles, which may not be related to how the catalyst will crush in a reactor or bed. For some catalysts, such as granules, this technique may be the only viable method for obtaining crushing strength. The production of fines in a reactor is not desired because of the potential of bed compaction and the pressure buildup in the reactor.1.1 This test method covers the determination of bulk crush strength of a bed of formed catalyst particles 1/32 to 3/16 in. (0.8 to 4.8 mm) in diameter and is intended to provide information concerning the ability of the catalyst material to maintain physical integrity.1.2 The values stated in inch-pound units are to be regarded as standard. The values given in parentheses are provided for information only.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.

Standard Test Method for Determination of Bulk Crush Strength of Catalysts and Catalyst Carriers