75.020 石油和天然气的开采与加工 标准查询与下载

NB/T 11334-2023 页岩气 分布式光纤测试作业及资料解释要求（连续油管传输）

本文件规定了页岩气井连续油管分布式光纤产出剖面测试作业的测试作业目的、测试作业要求、测试作业流程、测试资料解释、安全、环保、质量等要求。 本文件适用于页岩气井连续油管分布式光纤产出剖面测试作业及资料解释。

Shale gas distributed optical fiber testing operations and data interpretation requirements (coiled tubing transmission)

NB/T 11045.3-2023 页岩气 排采工艺技术规范 第3部分：泡沫排水

本文件规定了页岩气泡沫排水工艺的一般要求、现场工艺装置、起泡剂、消泡剂的选择、工艺方案设计、现场实施、数据记录等内容。 本文件适用于页岩气开发过程中平台井组整体泡沫排水采气。

Shale gas drainage process technical specifications Part 3: Foam drainage

NB/T 11339-2023 页岩气 开发调整方案编制技术要求

本文件规定了页岩气开发调整方案编制的内容、方法和技术要求。 本文件适用于页岩气开发调整方案的编制。

Technical requirements for preparation of shale gas development adjustment plan

NB/T 14002.2-2023 页岩气 储层改造 第2部分：工厂化压裂作业规范

本文件规定了页岩气储层改造工厂化压裂作业过程中井场道路、井场准备、压裂施工准备、相关作业、压裂施工要求及HSE（健康、安全、环保）要求。 本文件适用于陆地页岩气工厂化压裂作业。

Shale gas reservoir stimulation Part 2: Factory fracturing operation specifications

NB/T 11333-2023 页岩气 气田供转水系统技术要求

本文件规定了页岩气田供转水系统设计水量、取水、供水转水、仪表与自动控制、公用工程及配套设施、施工、验收、运行维护、质量、健康、安全、环保(QHSE)与节能节水措施等方面的技术要求。 本文件适用于新建、扩建和改建的陆上页岩气田压裂用水及压裂返排液转水系统地面工程设计、施工、验收及运行维护管理。

Shale gas gas field water supply and transfer system technical requirements

NB/T 14015-2023 页岩气 开发动态分析规范

本文件规定了页岩气开发动态分析的基本内容和技术方法。 本文件适用于页岩气开发动态分析。

Shale gas development dynamic analysis specifications

GSO ISO 29001:2023 石油、石化和天然气工业 特定部门的质量管理体系 产品和服务供应组织的要求

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

GSO ISO 10426-3:2023 石油和天然气工业 固井水泥和材料 第3部分：深水井水泥配方的测试

This document provides procedures for testing well cements and cement blends for use in the petroleum and natural gas industries in a deepwater environment, or areas with a low seafloor temperature, or areas where low well temperatures exist. This document supplements API RP 10B-3, 2nd edition (2016), the requirements of which are applicable with the exceptions specified in this document. This document excludes the mitigation of shallow water flow in deepwater wells. NOTE This is addressed in API RP 65.

Petroleum and natural gas industries — Cements and materials for well cementing — Part 3: Testing of deepwater well cement formulations

ISO/DIS 10426-5:2023 包括低碳能源在内的石油和天然气工业 固井用水泥和材料 第 5 部分：油井水泥配方收缩和膨胀的测定

Oil and gas industries including lower carbon energy — Cements and materials for well cementing — Part 5: Determination of shrinkage and expansion of well cement formulations

DB61/T 1722-2023 陆相页岩气井测井评价技术规范

本文件规定了陆相页岩气井测井评价资料收集、实验测试、测井资料预处理、参数解释、页岩气储层识别、储层测井综合评价、测井解释成果。本文件适用于陆相页岩气井测井单井评价。

Technical specifications for logging evaluation of continental shale gas wells

T/LSEPC 003-2023 油基岩屑干渣制备的压裂用支撑剂

本文件规定油基岩屑干渣制备的压裂用支撑剂的定义、分类、技术要求、试验方法、检测规则以及产品包装、运输、存储等内容。

Fracturing proppant prepared from oil-based cuttings dry residue

T/XECP 501-2023 油田小修自动化作业技术规范

      根据小修自动化作业设备操作要求，配合作业的关键重点，参考已发布的传统小修作业技术规范、主要设备技术条件、使用与维护、井下作业安全规程等进行了技术内容的编写。 （1）在小修自动化修井装备部分：主装备修井机执行SY/T 5202-2004《石油修井机》、SY 5202-1991《石油修井机技术条件》、SY/T 6117-2016《石油钻机和修井机使用与维护》等标准，涵盖非自动化装配的主机安装、调试、使用、维护等技术要求。自动化装备部分：关键配套设备执行SY/T 7332-2016《钻井和修井吊卡》、SY/T 6113-2016《修井用气动卡盘》、SY/T 5074-2012《钻井和修井动力钳、吊钳》等标准的相关技术要求，因此对相关技术内容标准中不再重复描述。 （2）在作业条件、施工准备、井控设备参数等内容执行SY/T 7010-2014《井下作业用防喷器》、SY/T 5587.5《常规修井作业规程 第5部分：井下作业井筒准备》等标准，对相关要求直接引用。 （3）在安全环保与资料录取等内容执行SY/T 5727《井下作业安全规程》、SY/T 6690《井下作业井控技术规程》、SY/T 6127《油气水井井下作业资料录取项目规范》等标准，对相关要求直接引用。        本标准主要对小修自动化作业中涉及自动化操控与感知技术内容，结合新技术产品研发设计特点及机械电气性能，对装备适用条件、安装、调试及作业操作做出匹配性、指导性及规范性要求。

Technical specification for oilfield automations workover operation

T/HEBQS 21-2023 油水井用聚丙烯酰胺交联剂

项目　指标 Cr3+含量　≥ 2.5% 凝固点，℃　≤ -10 成胶粘度，mPa?s (室温，6h)　≤ 1000 成胶时间，h (60℃)　≤ 72 最大成胶粘度，mPa?s (60℃)　≥ 10000 脱水率 (60℃、120h)　≤ 1.0%

Polyacrylamide cross-linking agent for oil and water wells

ISO/CD 10426-5:2023 包括低碳能源在内的石油和天然气工业 固井用水泥和材料 第 5 部分：大气压下油井水泥配方收缩和膨胀的测定

Oil and gas industries including lower carbon energy — Cements and materials for well cementing — Part 5: Determination of shrinkage and expansion of well cement formulations at atmospheric pressure

ISO/CD 10903:2023 管道地质灾害监测技术、流程和系统

Pipeline geohazards monitoring technologies, processes and systems

T/SCTX G009-2023 井口零散气橇装回收试验站投运前检查

本标准适用于井口零散气橇装回收试验站投运前的安全检查，规定了井口零散气橇装回收试验站投运前安全检查内容、方法。

Pre-commissioning inspection of skid-mounted recovery test station for scattered gas at wellhead

GSO ISO/TS 3250:2023 石油、石化和天然气行业 运营阶段生产效率的计算和报告

This document provides requirements and guidance for reporting of production performance data and production loss data in the operating phase by use of production loss categorization. It supplements the principles of ISO 20815:2018, Clause E.3 and Annex G by providing additional details. This document focusses on installations and asset elements within the upstream business category. Business categories and associated installations and plants/units, systems and equipment classes are used in line with ISO 14224:2016, Annex A. The production loss categories given in Annex A are given at a high taxonomic level and supplements the reporting of failure and maintenance parameters as defined in ISO 14224:2016, Annex B.

Petroleum, petrochemical and natural gas industries — Calculation and reporting production efficiency in the operating phase

GSO ISO 20074:2023 石油天然气工业 管道运输系统 陆上管道地质灾害风险管理

This document specifies requirements and gives recommendations on the management of geohazard risks during the pipeline design, construction and operational periods. This document is applicable to all operators and pipelines (existing and proposed/under construction). This document applies to onshore gathering and transmission pipelines used in the petroleum and natural gas industries. NOTE This document is not applicable to piping and pipelines within well-defined plants and facilities, such as pump or compressor stations, processing facilities or refineries. It is assumed that the facility site as a whole will be subject to a separate geohazard assessment to evaluate applicable natural and man-made hazards. Nevertheless, this document can provide useful guidance for assessing the geohazard threat to facilities, including the pipelines within the facility. This document is applicable to all reasonable and credible natural hazards induced by natural forces and hazards induced by human activity that manifest similarly to natural hazards collectively referred to as "geological hazards" or "geohazards", or through industry as attributed to "natural forces". Geohazards covered by this document include, but are not limited to (not given in order of significance): — mass wasting processes, including landslides, lateral spreads, rockfalls, debris flows, avalanches, and similar processes whether naturally occurring or anthropogenic; — land subsidence and/or sinkhole formation, whether naturally occurring such as from dissolution of salt or carbonate rock formations (karst formation) or human caused, such as from underground mining or withdrawal of subsurface fluids such as groundwater and oil and gas; — seismic hazards, such as ground shaking, fault rupture, liquefaction, flow failures and lateral spreading or associated secondary effects, such as seismically triggered landslides; — volcanic hazards, such as lahars, pyroclastic flows, lava flows, dam break, and volcanically induced seismicity (excluding ashfall), where such hazards can be reasonably predicted; — hydrologic processes, such as flooding, vertical scour of river bottoms, channel migration and bank erosion, channel avulsion, rapid lake drainage; — permafrost/periglacial processes and geothermal effects, such as thermal degradation, frost heave or thaw settlement, thermal erosion, thermokarst; — surface (overland), trench backfill, or earthwork fill erosion; — expansion or collapsing processes caused by expansive and collapsible soils, such as glaciomarine clays, collapsible loess, etc. This document is not applicable to atmospheric/environmental effects, such as the following: — high winds induced from hurricanes and tornadoes and similar storms, except where such events are reasonably predictable and will induce geohazards such as landslides, erosion, etc.; — lightning; — forest or brush fires; — ashfall from volcanic eruptions. Furthermore, this document is not applicable to cascading events, where one remote event leads to a chain of events that eventually induces a geohazard near the pipeline. It is only applicable to geohazards that directly affect the pipeline or RoW.

Petroleum and natural gas industry — Pipeline transportation systems — Geological hazard risk management for onshore pipeline

ISO 6338:2023 液化天然气工厂温室气体排放量计算方法

This document provides a method to calculate the GHG emissions from an LNG liquefaction plant, onshore or offshore. The frame of this document ranges from the inlet flange of the LNG plant’s inlet facilities up to and including the offloading arms to truck, ship or railcar loading. The upstream supply of gas up to the inlet flange of the inlet facilities and the distribution of LNG downstream of the loading arms are only covered in general terms. This document covers: — all facilities associated with producing LNG, including reception facilities, condensate unit (where applicable), pre-treatment units (including but not limited to acid gas removal, dehydration, mercury removal, heavies removal), LPG extraction and fractionation (where applicable), liquefaction, LNG storage and loading, Boil-Off-Gas handling, flare and disposal systems, imported electricity or on- site power generation and other plant utilities and infrastructure (e.g. marine and transportation facilities). — natural gas liquefaction facilities associated with producing other products (e.g. domestic gas, condensate, LPG, sulphur, power export) to the extent required to allocate GHG emissions to the different products. — all GHG emissions associated with producing LNG. These emissions spread across scope 1, scope 2 and scope 3 of the responsible organization. Scope 1, 2 and 3 are defined in this document. All emissions sources are covered including flaring, combustion, cold vents, process vents, fugitive leaks and emissions associated with imported energy. The LNG plant is considered “under operation”, including emissions associated with initial start-up, maintenance, turnaround and restarts after maintenance or upset. The construction, commissioning, extension and decommissioning phases are excluded from this document but can be assessed separately. The emissions resulting from boil-off gas management during loading of the ship or any export vehicle are covered by this document. The emissions from a ship at berth, e.g. mast venting are not covered by this document. This document describes the allocation of GHG emissions to LNG and other hydrocarbon products where other products are produced (e.g. LPG, domestic gas, condensates, sulphur, etc.). This document defines preferred units of measurement and necessary conversions. This document also recommends instrumentation and estimations methods to monitor and report GHG emissions. Some emissions are measured and some are estimated. This document is applicable to the LNG industry. Applications include the provision of method to calculate GHG emissions through a standardized and auditable method, a means to determine their carbon footprint.

Method to calculate GHG emissions at LNG plant

T/XECP 126-2023 新疆录井企业和队伍资质认定规范

新疆录井企业与队伍资质的术语和定义、资质认定的程序和要求。 新疆登记注册或在新疆辖区内从事石油工程技术服务的各类录井企业与队伍资质的认定、资质审核、资质检查等工作。 

Specifications for Xinjiang Mud Logging Enterprises and Team Qualification Certification