P94 金属设备与工艺管道安装工程 标准查询与下载

EN ISO 15876-3:2017 冷热水装置用塑料管道设备.聚丁烯(PB).第3部分:配件

Plastics piping systems for hot and cold water installations - Polybutene (PB) - Part 3: Fittings

EN ISO 15876-1:2017 冷热水用塑料管道系统(PB)Polybutene -第1部分:一般(ISO 15876-1:2017)

Plastics piping systems for hot and cold water installations - Polybutylene (PB) - Part 1: General

SJ/T 11672-2017 电子工业生产设备二次配管配线技术规范

Technical specifications for secondary piping and wiring of electronic industrial production equipment

ASTM A807/A807M-17 下水道及其它类似用途用波纹结构钢涂覆管安装的标准实施规程

4.1 Structural plate structures function structurally as a flexible ring that is supported by and interacts with the compacted surrounding soil. The soil placed around the structure is thus an integral part of the structural system. It is therefore important to ensure that the soil structure is made up of acceptable material and is well constructed. Field verification of soil structure acceptability using Test Methods D1556, D2167, D6938, or D2937, as applicable, and comparing the results with either Test Methods D698 or D1557, in accordance with the specifications for each project, is the most common basis for installation of an acceptable structure. Depending on the backfill used, other qualitative or performance-based methods acceptable to the engineer may also be used. The required density and method of measurement are not specified by this practice, but must be established in the specifications for each project. 4.2 Structural plate structures are also occasionally used in alternative applications not requiring soil-structure interaction for support. Depending on the application the structure may provide temporary or permanent support, confinement, concealment, shielding, or other functions not related to soil-structure interaction. The nature of support required, design requirements, and proper sizing of the structure will be determined by a project design engineer and is not part of the scope of this standard. 1.1 This practice primarily covers procedures, soils, and soil placement for the proper installation of corrugated steel structural plate pipe, pipe-arches, arches, and underpasses produced to Specification A761/A761M, in either trench or embankment installations. This practice also covers installation of structural plate for alternative uses that do not involve backfilling or soil-structure interaction. 1.2 A typical trench installation and a typical embankment (projection) installation are shown in Figs. 1 and 2, respectively. Structural plate structures as described herein are those structures factory fabricated in plate form and bolted together on site to provide the required shape, size, and length of structure. This practice applies to structures designed in accordance with Practice A796/A796M. FIG. 1 Typical Trench Installation FIG. 2 Typical Embankment (Projection) Installation 1.3......

Standard Practice for Installing Corrugated Steel Structural Plate Pipe for Sewers and Other Applications

ASTM C335/C335M-17 管道隔热稳态热传导性能的标准试验方法

4.1 As determined by this test method, the pipe insulation lineal thermal resistance or conductance (and, when applicable, the thermal resistivity or conductivity) are means of comparing insulations which include the effects of the insulation and its fit upon the pipe, circumferential and longitudinal jointing, and variations in construction, but do not include the effects of the outer surface resistance or heat transfer coefficient. They are thus appropriate when the insulation outer-surface temperature and the pipe temperature are known or specified. However, since the thermal properties determined by this test method include the effects of fit and jointing, they are not true material properties. Therefore, properties determined by this test method are somewhat different from those obtained on apparently similar material in flat form using the guarded hot plate, Test Method C177, or the heat flow meter apparatus, Test Method C518. 4.2 The pipe insulation lineal thermal transference incorporates both the effect of the insulation and its fit upon the pipe and also the effect of the surface heat-transfer coefficient. It is appropriate when the ambient conditions and the pipe temperature are known or specified and the thermal effects of the surface are to be included. 4.3 Because of the test condition requirements prescribed in this test method, recognize that the thermal transfer properties obtained will not necessarily be the value pertaining under all service conditions. As an example, this test method provides that the thermal properties shall be obtained by tests on dry or conditioned specimens, while such conditions are not necessarily realized in service. The results obtained are strictly applicable only for the conditions of test and for the product construction tested, and must not be applied without proper adjustment when the material is used at other conditions, such as mean temperatures that differ appreciably from those of the test. With these qualifications in mind, the following apply: 4.3.1 For horizontal or vertical pipes of the same size and temperature, operating in the same ambient environment, values obtained by this test method can be used for the direct comparison of several specimens, for comparison to specification values, and for engineering data for estimating heat loss of actual applications of specimens identical to those tested (including any jackets or surface treatments). When appropriate, correct for the effect of end joints and other recurring irregularities (4.4). 4.3.2 When applying the results to insulation sizes different from those used in the test, an appropriate mathematical analysis is required. For homogeneous materials, this consists of the use of the thermal conductivity or resistivity values (corrected for any changes in mean temperature) plus the use of the surface heat transfer coefficient when the ambient temperature is considered (for example, see Practice C680). For nonhomogeneous and reflective insulation materials, a more detailed mathematical model is required which properly accounts for the individual modes of heat transfer (conduction, convection, radiation) and the variation of each mode with changing pipe size, insulation thickness, and temperature.

Standard Test Method for Steady-State Heat Transfer Properties of Pipe Insulation

ASME B31.4-2016 液体和泥浆用管道输送系统

ASME B31.4 prescribes requirements for the design, materials, construction, assembly, inspection, testing, operation, and maintenance of liquid pipeline systems between production fields or facilities, tank farms, above- or belowground storage facilities, natural gas processing plants, refineries, pump stations, ammonia plants, terminals (marine, rail, and truck), and other delivery and receiving points, as well as pipelines transporting liquids within pump stations, tank farms, and terminals associated with liquid pipeline systems. This Code also prescribes requirements for the design, materials, construction, assembly, inspection, testing, operation, and maintenance of piping transporting aqueous slurries of nonhazardous materials such as coal, mineral ores, concentrates, and other solid materials, between a slurry processing plant or terminal and a receiving plant or terminal. Piping here consists of pipe, flanges, bolting, gaskets, valves, relief devices, fittings, and the pressure containing parts of other piping components. It also includes hangers and supports, and other equipment items necessary to prevent overstressing the pressure containing parts. It does not include support structures such as frames of buildings, stanchions, or foundations, or any equipment Also included within the scope of this Code are: (a) primary and associated auxiliary liquid petroleum and liquid anhydrous ammonia piping at pipeline terminals (marine, rail, and truck), tank farms, pump stations, pressure-reducing stations, and metering stations, including scraper traps, strainers, and prover loops (b) storage and working tanks, including pipe-type storage fabricated from pipe and fittings, and piping interconnecting these facilities (c) liquid petroleum and liquid anhydrous ammonia piping located on property that has been set aside for such piping within petroleum refinery, natural gasoline, gas processing, ammonia, and bulk plants (d) those aspects of operation and maintenance of liquid pipeline systems relating to the safety and protection of the general public, operating company personnel, environment, property, and the piping systems Key changes to this revision include a revised scope and updates to the stress section in Chapter II. A new paragraph has been added in Chapter III for material requirements in low-temperature applications. In addition, changes have been included throughout to reference minimum wall thickness requirements as permitted by manufacturing specifications.

B31.4 - 2016 Pipeline Transportation Systems for Liquids and Slurries

SY/T 4132-2016 油气田集输双金属复合钢管施工技术规范

Technical specifications for construction of bimetallic composite steel pipes for oil and gas field gathering and transportation

SY/T 4119-2016 高含硫化氢气田集输管道工程施工技术规范

Technical specifications for the construction of gathering and transportation pipeline projects for gas fields with high hydrogen sulfide content

SY/T 4215-2016 石油天然气建设工程施工质量验收规范 油气管道地质灾害治理工程

Construction Quality Acceptance Specification for Oil and Gas Construction Projects Oil and Gas Pipeline Geological Hazard Control Project

SY/T 4208-2016 石油天然气建设工程施工质量验收规范长输管道线路工程

Construction Quality Acceptance Specification for Oil and Gas Construction Projects Long-distance Pipeline Line Projects

SY/T 4117-2016 高含硫化氢气田集输管道焊接技术规范

Technical specifications for welding of gathering and transportation pipelines in gas fields with high hydrogen sulfide content

SY/T 4209-2016 石油天然气建设工程施工质量验收规范 天然气净化厂建设工程

Construction quality acceptance specifications for oil and gas construction projects Natural gas purification plant construction projects

SY/T 4074-2016 钢质管道水泥砂浆衬里机械涂敷技术规范

Technical specification for mechanical coating of cement mortar lining of steel pipes

SY/T 0321-2016 钢质管道水泥砂浆衬里技术标准

Technical standards for cement mortar lining of steel pipes

SY/T 4115-2016 油气输送管道工程施工组织设计编制规范

Specifications for organization, design and preparation of construction of oil and gas pipeline projects

DIN EN 13160-6:2016 检漏系统.第6部分:监测井中传感器.德文版本EN 13160-6-2016

Leak detection systems - Part 6: Sensors in monitoring wells; German version EN 13160-6:2016

DIN EN 13160-5:2016 检漏系统.第5部分:储罐液位计系统和压力管道系统的要求和试验/评估方法.德文版本EN 13160-5-2016

Leak detection systems - Part 5: Requirements and test/assessment methods for in-tank gauge systems and pressurised pipework systems; German version EN 13160-5:2016

DIN EN 13160-2:2016 检漏系统.第2部分:压力和真空系统的要求和试验/评估方法.德文版本EN 13160-2-2016

Leak detection systems - Part 2: Requirements and test/assessment methods for pressure and vacuum systems; German version EN 13160-2:2016

DIN EN 13160-1:2016 检漏系统.第1部分:一般原理.德文版本EN 13160-1-2016

Leak detection systems - Part 1: General Principles; German version EN 13160-1:2016

DIN EN 13480-8 Berichtigung 1:2016 工业用金属管道. 第8部分: 铝及铝合金管的附加要求; 德文版本EN 13480-8-2012, DIN EN 13480-8-2014-12勘误表

Metallic industrial piping - Part 8: Additional requirements for aluminium and aluminium alloy piping; German version EN 13480-8:2012, Corrigendum to DIN EN 13480-8:2014-12