75.020 石油和天然气的开采与加工 标准查询与下载

LST EN ISO 35104:2020 石油和天然气工业 北极作业 冰管理（ISO 35104:2018）

Petroleum and natural gas industries - Arctic operations - Ice management (ISO 35104:2018)

DB14/T 2246-2020 《煤成气井群排水采气信息化建设要求》

本文件规定了煤成气井群排水采气信息化建设的术语和定义、一般要求、煤成气单井信息化建设内容、集气阀组信息化建设内容、集气站信息化建设内容和综合调度控制中心信息化建设内容

Requirements for Informatization Construction of Coal-derived Gas Well Group Drainage and Gas Production

DB14/T 2247-2020 《煤成气井群排水采气信息化建设技术规范》

本文件规定了煤成气井群排水采气信息化建设的术语和定义、缩略语、一般要求、信息化系统架构、数据传输、煤成气单井监控系统、集气阀组监控系统、集气站监控系统、视频监控系统和综合调度控制中心等

Technical Specifications for Drainage and Gas Recovery Information Construction of Coal-derived Gas Well Groups

T/SCTX G007-2020 井口零散气回收试验站充装管理规范

主要技术内容： 1、规定了井口零散气回收试验站的基本条件和充装必须具备的安全技术条件。 2、规定了 试验站人员基本要求。 3、规定了试验站场地专项要求。 4、规定了设备设施、充装台（线）和充装装置的配置的要求。 5、规定了电气、仪器仪表、计量器具的 6、规定了管理制度和人员岗位责任制、安全操作规程等要求。

Specifications for filling management of wellhead scattered gas recovery test station

AQ/T 2076-2020 页岩气钻井井控安全技术规范

Shale Gas Drilling Well Control Safety Technical Specifications

AQ/T 2077-2020 页岩气井独立式带压作业机起下管柱作业安全技术规范

Safety technical specifications for independent snubbing machine lifting and lowering pipe string operation in shale gas wells

PN-EN ISO 29001-2020-11 E 石油、石化和天然气工业 特定行业质量管理体系 产品和服务供应组织要求（ISO 29001:2020）

Petroleum, petrochemical and natural gas industries -- Sector-specific quality management systems -- Requirements for product and service supply organizations (ISO 29001:2020)

ASTM G170-06(2020)e1 实验室油田和炼厂腐蚀抑制剂评估与合格评定指南

1.1 This guide covers some generally accepted laboratory methodologies that are used for evaluating corrosion inhibitors for oilfield and refinery applications in well defined flow conditions. 1.2 This guide does not cover detailed calculations and methods, but rather covers a range of approaches which have found application in inhibitor evaluation. 1.3 Only those methodologies that have found wide acceptance in inhibitor evaluation are considered in this guide. 1.4 This guide is intended to assist in the selection of methodologies that can be used for evaluating corrosion inhibitors. 1.5 The values stated in SI units are to be regarded as standard. No other units of measurement are included in this standard. 1.6 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, health, and environmental practices and determine the applicability of regulatory requirements prior to use. 1.7 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

Standard Guide for Evaluating and Qualifying Oilfield and Refinery Corrosion Inhibitors in the Laboratory

EN ISO 35104:2020 石油和天然气工业.北极作业.结冰管理

This document establishes the principles, specifies the requirements and provides guidance for ice management (IM) in arctic and cold regions, from the point of view of planning, engineering, implementation and documentation. Reference to arctic and cold regions in this document is deemed to include both the Arctic and other regions characterized by low ambient temperatures, sea ice, icebergs and icing conditions. These regions are often remote and lacking in marine and communications infrastructure. Ice management to support the following in-ice activities and infrastructures are covered by this document: — floating moored and/or dynamically positioned drilling vessels, coring vessels, production facilities and work-over vessels; — construction and installation (includes trenching, dredging, pipe laying); — tanker loading and other offloading operations; — protecting subsea structures and equipment; — seismic operations; — oil spill response; — bottom founded structures (fixed platforms and movable structures, including jack-ups). This document also applies to mobilization, demobilization and construction support services, because these can be affected by ice conditions. In view of the wide range of possible offshore operations in arctic and cold regions, this document provides guidelines, but does not present typical ice management plans for field operations. This document does not provide requirements, recommendations or guidance pertaining to the design of structures, systems and components used in ice management, beyond the principles given. This document does not provide specific formulations for ice loads, which are covered by ISO 19906. This document is not applicable to coastal port operations and to commercial trading vessels conducting transit or convoy operations.

Petroleum and natural gas industries - Arctic operations - Ice management (ISO 35104:2018)

ASTM E1675-20 化学分析用两相地热液采样标准实践

1.1 The purpose of this practice is to obtain representative samples of liquid and steam as they exist in a pipeline transporting two-phase geothermal fluids. 1.1.1 The liquid and steam samples are collected and properly preserved for subsequent chemical analysis in the field or an off-site analytical laboratory. 1.1.2 The chemical composition data generated from the analysis of liquid and steam samples may be used for many applications important to geothermal energy exploration, development, and the long-term managed exploitation of geothermal resources. These applications include, but are not limited to, resource evaluations such as determining reservoir temperature and the origin of reservoir fluids, tracer-based measurements of production flow and enthalpy (TFT), compatibility of produced fluids with production, power generation and reinjection hardware exposed to the fluids (corrosivity and scale deposition potential), long-term reservoir monitoring during field exploitation, and environmental impact evaluations including emissions testing. 1.1.2.1 To fully utilize the chemical composition data in the applications stated in 1.1.2, specific physical data related to the two-phase discharge, wellbore, and geothermal reservoir may be required. Mathematical reconstruction of the fluid chemistry (liquid and steam) to reservoir conditions is a primary requirement in many applications. At a minimum, this requires precise knowledge of the total fluid enthalpy and pressure or temperature at the sample point. Fluid reconstruction and computations to conditions different from the sample collection point are beyond the scope of this practice. 1.2 This practice is limited to the collection of samples from two-phase flow streams at pressures greater than 70 kPa gauge (10 psig) and having a volumetric vapor fraction of at least 20 %. This practice is not applicable to single-phase flow streams such as pumped liquid discharges at pressures above the flash point or superheated steam flows. Refer to Specification E947 for sampling single-phase geothermal fluids. 1.3 The sampling of geothermal fluid two-phase flow streams (liquid and steam) requires specialized sampling equipment and proper orientation of sample ports with respect to the two-phase flow line. This practice is applicable to wells not equipped with individual production separators. 1.4 The two-phase equipment and techniques described here are often the only way to obtain representative steam and liquid samples from individual producing geothermal wells. They have been developed to address common two-phase conditions such as: 1.4.1 Unstable production flow rates that have a large degree of surging, 1.4.2 Unknown percentage of total flow that is flashed to steam or is continuously flashing through the production system, 1.4.3 Mineral deposition during and after flashing of the produced fluid in wellbores, production piping, and sampling trains, 1.4.4 Stratification of flow inside the pipeline and unusual flow regimes at the sampling ports, and 1.4.5 Insufficient flash fraction to obtain a steam sample. 1.5 This practice covers the sample locations, specialized sampling equipment, and procedures needed to obtain representative liquid and steam samples for chemical analysis. 1.6 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, health, and environmental practices and determine the applicability of regulatory limitations prior to use. For specific hazard statements, see Section 7. 1.7 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee. 1 This practice is under the jurisdiction of ASTM Committee E44 on Solar, Geothermal and Other Alternative Energy Sources and is the direct responsibility of Subcommittee E44.15 on Geothermal Field Development, Utilization and Materials. Current edition approved Sept. 1, 2020. Published September 2020. Originally approved in 1995. Last previous edition approved in 2012 as E1675 – 04 (2012). DOI: 10.1520/E1675-20. Copyright © ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959. United States This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee. 2. Referenced Documents

Standard Practice for Sampling Two-Phase Geothermal Fluid for Purposes of Chemical Analysis

MT/T 1196-2020 地面煤层气井压裂施工设计规范

Design specifications for fracturing construction of surface coalbed methane wells

ISO 29001:2020 石油 石化 天然气等行业 部门特定的质量管理体系 产品和服务供应组织的要求

1   Scope This International Standard specifies requirements for a quality management system when an organization: a) needs to demonstrate its ability to consistently provide products and services that meet customer and applicable statutory and regulatory requirements, and b) aims to enhance customer satisfaction through the effective application of the system, including processes for improvement of the system and the assurance of conformity to customer and applicable statutory and regulatory requirements. All the requirements of this International Standard are generic and are intended to be applicable to any organization, regardless of its type or size, or the products and services it provides. NOTE 1 In this International Standard, the terms “product” or “service” only apply to products and services intended for, or required by, a customer. NOTE 2 Statutory and regulatory requirements can be expressed as legal requirements. This document defines quality management system requirements for product and service supply organizations to the petroleum, petrochemical and natural gas industries. This document is written as a supplement to ISO 9001:2015. The supplementary requirements and guidance to ISO 9001:2015 have been developed to manage supply chain risks and opportunities associated with the petroleum, petrochemical and natural gas industries and to provide a framework for aligning requirements with complementary standards employed within the industries.

Petroleum, petrochemical and natural gas industries — Sector-specific quality management systems — Requirements for product and service supply organizations

JB/T 13949-2020 常压轻烃燃气系统供油装置

Normal pressure light hydrocarbon gas system oil supply device

JB/T 13950-2020 常压液态轻烃气化装置

Normal pressure liquid light hydrocarbon gasification device

ISO 35102:2020 石油和天然气工业.北极作业.海上设施的撤离和救援

This document establishes the principles, specifies the requirements and provides guidance for the development and implementation of an escape, evacuation and rescue (EER) plan. It is applicable to offshore installation design, construction, transportation, installation, offshore production/exploration drilling operation service life inspection/repair, decommissioning and removal activities related to petroleum and natural gas industries in the arctic and cold regions. Reference to arctic and cold regions in this document is deemed to include both the Arctic and other locations characterized by low ambient temperatures and the presence or possibility of sea ice, icebergs, icing conditions, persistent snow cover and/or permafrost. This document contains requirements for the design, operation, maintenance, and service-life inspection or repair of new installations and structures, and to modification of existing installations for operation in the offshore Arctic and cold regions, where ice can be present for at least a portion of the year. This includes offshore exploration, production and accommodation units utilized for such activities. To a limited extent, this document also addresses the vessels that support ER, if part of the overall EER plan. While this document does not apply specifically to mobile offshore drilling units (MODUs, see units in situations when the MODU is operated in arctic and cold regions. The provisions of this document are intended to be used by stakeholders including designers, operators and duty holders. In some cases, floating platforms (as a type of offshore installations) can be classified as vessels (ships) by national law and the EER for these units are stipulated by international maritime law. However, many of the EER provisions contained in this document are applicable to such floating platforms. This document applies to mechanical, process and electrical equipment or any specialized process equipment associated with offshore arctic and cold region operations that impacts the performance of the EER system. This includes periodic training and drills, EER system maintenance and precautionary down-manning as well as emergency situations. EER associated with onshore arctic oil and gas facilities are not addressed in this document, except where relevant to an offshore development.

Petroleum and natural gas industries — Arctic operations — Escape, evacuation and rescue from offshore installations

KS B ISO 13880-2019 石油天然气工业技术规范的内容及起草

Petroleum and natural gas industries－Content and drafting of a technical specification

KS B ISO 13879-2019 石油天然气工业 功能规范的内容和起草

Petroleum and natural gas industries－Content and drafting of a functional specification

ISO 15926-10:2019 工业自动化系统与集成——包括石油和天然气生产设施在内的工艺装置生命周期数据集成第1部分:概述和基本原则

This document defines the principles and methods for conformance testing of software implementations It provides guidance for developing test cases and testing procedures that cover the requirements specified in the ISO 15926 series and in different industry usage contexts, e.g. data exchange, use of reference data libraries and interface services. This document provides guidance in addition to the conformance in the parts. NOTE 1 Guidance on conformance ISO 15926 testing of complex scenarios which represent integrated interoperability is outside the scope of this document. NOTE 2 Guidance on the development of software that supports the way of file exchange in the simple scenario which represents unified interoperability is outside the scope of this document.

Industrial automation systems and integration — Integration of life-cycle data for process plants including oil and gas production facilities — Part 1: Overview and fundamental principles

DB43/T 1691-2019 页岩气井测井技术规程

Shale Gas Well Logging Technical Regulations

SY/T 6543-2019 欠平衡钻井技术规范

Underbalanced drilling technical specifications