SY 0009-1993 Specification for preparation of design documents for petroleum surface engineering
Some standard content:
Compile Specification for Design Documents of Petroleum Surface EngineeringSY0009--93
Article Explanation
Petroleum Industry Press
1993·Beijing
Compile Specification for Design Documents of Petroieum Surface EngineeringSY 0009--93
Editor: Jianghan Petroleum Administration Bureau Survey and Design Institute Approval department: China Petroleum Run Natural Gas Corporation Effective date: March 1, 1994
Petroleum Industry Press
1933-Beijing
China Petroleum and Natural Gas Corporation Document
(93) Zhongyoujizi No. 598
Notice on the approval and release of 27 oil and gas industry standards including "Petroleum Surface Engineering Design Document Preparation Procedure"
All relevant units. Relevant Petroleum Professional Standardization Technical Committee: The draft of 27 standards including "Petroleum Surface Engineering Design Document Preparation Procedure" has been reviewed and approved and is now approved as the oil and gas industry standards. The numbers and names of the various standards are as followswww.bzxz.net
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General Principles,
Stamps and Charts
3.1. Seal
Text materials
Format and usage regulations
Preparation of instructions and calculation books
Preparation of design document catalog
Preparation of file numbers
Signature of design documents
Modification of design documents
Reproduction, reuse and reprint
Cover and binding
Preparation of standard design
Preparation regulations for standard design drawings
Standard design drawings
Preparation of computer-aided design files
Appendix A
Formats of various text materials
Appendix B Example of instruction manual writing||tt ||Appendix C Explanation of terms used in this Code
Additional explanation
(3)
(3)
(10)
(21)
(21)
(37)
(41)
(43))
(46)
(46)
Revision explanation
“Code for the Preparation of Design Documents” SYJ9-83 (hereinafter referred to as the original code) has been implemented since May 1, 1984. With the development of my country's petroleum industry and the progress of science and technology, the original code can no longer meet the needs of modern management of design document preparation. On the basis of investigation and research and extensive solicitation of opinions, the practical experience of various design institutes was carefully studied and summarized. According to the requirements of the “Interim Measures for the Preparation of Engineering Construction Technical Standards” and the “Detailed Rules for the Preparation of Engineering Construction Standards”, the original code was revised and supplemented. If you find any need for modification or supplementation during the implementation of this regulation, please send your opinions and relevant information to the Survey and Design Institute of Jianghan Petroleum Administration Bureau, Qianjiang City, Hubei Province, zip code 433123, for reference in future revisions. Jianghan Petroleum Administration Bureau Survey and Design Institute March 1993
10.SY4025—93
11.SY 402693
12.SY 402793
13.SY 402893
14.SY4029--93
15.SY4030.1—93
16.SY 4030.293
17.SY 4031—93
18.SY4033--93
19.SY 4034--93
20.SY 403593
21.SY 4037.-93
Petroleum construction project quality inspection and assessment standards for construction projects (replacing SYJ14025-88)
Petroleum construction project quality inspection and assessment standards for storage tank projects (replacing SYJn4026-88)
Petroleum construction project quality inspection and assessment standards for station steel process pipeline installation projects
(replacing SYJ 4027-88)
Petroleum construction project quality inspection and assessment standards for equipment installation projects (replacing SYJn4028-88)Petroleum construction project quality inspection and assessment standards for long-distance pipeline projects
(replacing SYJn 4029--88)
Petroleum construction project quality inspection and assessment standards for electrical engineering (overhead power line projects)
(replacing SYJn 403088)
Petroleum construction project quality inspection and assessment standard electrical engineering (electrical installation engineering)
(replace SYJn 4030--88)
Petroleum construction project quality inspection and assessment standard automatic instrument installation engineering
(replace SYJn403188)
Petroleum construction project quality inspection and assessment standard road engineering (replace SYJn4033-88)
Petroleum construction project quality inspection and assessment standard bridge engineering (replace SYJn4034-88)
Petroleum construction project quality inspection and assessment standard heating, ventilation, water supply and drainage installation engineering
(replace SYJn 403588)
Petroleum construction project quality inspection and assessment standard oil refinery construction engineering
22.SY4038--93
23.SY 4053—93
24:SY/T 4068--93
25.SY/T 406993
26.SY 4070—93
27.SY/T 4071--93
(replaces SYJn 4037-89)
Standard for Quality Inspection and Assessment of Petroleum Construction Projects Gas Field Construction Projects (Replacement of SY4038-92)
Standard for Quality Inspection and Assessment of Petroleum Construction Projects Oilfield Gathering and Transportation Pipeline Projects
(Replacement of SY4053-92)
Standard for Quality Inspection and Assessment of Petroleum Construction Projects Anticorrosive and Insulated Steel Pipe Manufacturing
Standard for Quality Inspection and Assessment of Petroleum Construction Projects Oilfield Steel Container Manufacturing
Specification for Construction and Acceptance of Petroleum and Natural Gas Pipeline Crossing Projects
Pipeline Downward Welding Process Specification
The above standards shall be implemented from March 1, 1994. China National Petroleum Corporation
September 9, 1993
1 General Provisions
1.0, 1 The surface engineering of CNPC in this article refers to the surface engineering and pipeline engineering of oil and gas fields. The surface engineering of oil and gas fields generally includes production facilities, auxiliary production facilities and supporting systems. Pipeline engineering generally includes lines, stations, crossings and auxiliary production facilities.
1.0.2 This regulation applies to surface construction and arm pipeline engineering of oil and gas fields. The design of small refineries undertaken by famous petroleum system institutes and domestic and foreign cooperative design projects can refer to this regulation for the preparation of design documents.
1.0.3 Regarding the division of design stages (I have not seen the relevant documents of the superiors before), there is controversy over which stage the planning and overall design should be placed. Generally, the overall engineering construction project is divided into three stages: feasibility study, preliminary design and construction drawing design. In the basic construction period, according to the needs of engineering construction, with the approval and entrustment of the competent authorities, the design unit first prepares a plan or overall design before officially carrying out the design work in order to solve the overall plan and overall deployment of large or complex projects. This regulation refers to feasibility study, planning and overall design as the pre-design period.
1.0, 4. In order to emphasize the uniformity of the preparation of design documents, the oil and gas industry should first implement this regulation. Since the preparation of design documents involves many aspects, the contents not specified in this code shall be approved by the relevant national standards. 2 Terminology
2.0.1 Design documents-the general term for the textual materials and drawings of engineering design. 2.0.2 Pre-design period-the general term for planning, feasibility study and overall design. 2.0.3 Preliminary design-the design of the specific implementation plan stage made according to the requirements of the report approved in the pre-design period, the design task book or relevant documents. 2.0.4 Construction drawing design-the process of design calculation, drawing construction drawings and compiling construction instructions based on the approved preliminary design documents. 2.0.5 Standard design-the design document that is common to the entire industry and approved by the competent department after standardization review.
2.0.6 Computer-aided design - design documents compiled using electronic computers. 2.0.7 Base drawing - design documents made on transparent paper or other materials. 2.0.8 Copy - base drawing or blue drawing made by copying the design document in its original form. 3
Charts and diagrams
3.1.1 The stamps commonly used in engineering design documents include drawing title stamp (referred to as diagram stamp), section drawing title stamp (referred to as section diagram stamp), countersignature stamp, revision stamp, reverse block number stamp (referred to as chamfer stamp), copy stamp, reprint stamp and translation stamp. 3.1.2
The format and content of the icon stamp shall comply with Figure 3.1.2-1 and the following provisions: "Sign)
Drawing
(Design unit name)
(Design certificate number)
(Survey certificate number)
(Project name)
(Drawing)
Figure 3.1.2-1
Icon stamp
File number
Project number
3.1.2.10-~3 (including extension) The last drawing drawn in sections shall have an icon stamp set within the drawing frame line in the lower right corner, see Figure 3.1.3-3 and Figure 3.2.5-1. The icon stamp of Figure 4 is divided into two parts, the top of the drawing is the title bar, and the bottom is the signature bar, see Figure 3,1.2 -2.
3.1.2.2 The filling of the icon stamp shall comply with the following provisions: (1) In the column of the name of the design unit, the design unit logo may be placed on the left side of Figures 0 to 3. The name of the design unit shall be placed in the center of the engineering side, and the design certificate, survey certificate 3
tank design data sheet, heat exchanger design data sheet, water jacket heating furnace design data sheet, and tubular heating furnace design data sheet shall be placed below.
3.2.1.3 The specifications in the "Name and Specification" column of the list of buildings (Figure 3.2.1-3) shall be filled in according to the type characteristics of the building (structure). (1) For buildings, fill in the number of floors and add brackets for multi-story buildings (no need to fill in for single-story buildings) 2) For vertical water storage tanks, fill in the volume
(3) For horizontal containers, fill in the diameter and length: (4) For smoke, fill in its bottom (inlet) ) and the size and height of the cross-sectional (end) hole of the top (exit) flue!
(5) For tower structures, fill in the diameter and height, and fill in the volume when necessary. (6) For other types of buildings (structures), fill in the above content according to their physical characteristics.
3.2.2 Mechanism and machine repair are purely named after the professional division of labor. For design units with few professional personnel and unclear division of labor, they are collectively referred to as mechanical majors. The design scope of the mechanical repair profession (abbreviated as machine) includes mechanical repair shops, stations and mechanical manufacturing plants. 3.2.2.1 The use regulations of the mechanical equipment material table (Figure 3.2.2-1) are as follows: When this table is used for component drawings, the number name, quantity, and single piece quality of the drawing in the general drawing or the sub-general drawing can be filled in at the position corresponding to the table header in the blank space at the bottom of the table. In the "Specifications and Models" column, fill in the number name, quantity, and single piece quality of the drawing in the general drawing or the sub-general drawing. For the structure, fill in "assembly* or "weldment". The filling example is shown in Figure (3.2.2).
The filling example in Figure 3.2.2-1 is for the general drawing. If it is used for the sub-general drawing or component drawing, the 'total mass*' in the bottom column of the table should be the mass of a single piece. 3.2.3.9 When using the hole table, the hole size of the circular hole is expressed in diameter, such as $750. In addition to filling in the hole bottom elevation according to the table, the center elevation or hole item elevation can also be filled in as needed, but it should be indicated in the hole bottom elevation column, such as center elevation -0:85. 3.2.3 Each design unit may not set up a detailed list of component steel materials according to the contract or agreement. 3.2.5 The position of stamping (drawing) of stamps and diagrams is as follows: Figure 3.2.5-1 The stamps stamped (drawn) outside the left drawing frame line have their bottom edges coincident with the drawing frame line.
When there are design data sheets and equipment opening description sheets on the drawing, they should be given priority to occupy the "" area.
When the diagram only occupies the first extension area, the text description should be above it. If it cannot be accommodated there, it can be moved to the left "" area and extended from top to bottom. When the diagram occupies the first, second and "③" areas at the same time, and the text description area cannot be accommodated above the second extension area, it can also be moved to the left side of the "④" area. The position of the legend can be handled according to the text description area. When there is no "5* area content, the "③" area can be used. Figure 3.2.5-3, in order to facilitate base map management and printing and publishing, Figure No. 2 and less than No. 2 can be The component drawings or sub-general drawings on the drawing page are combined (puzzled) with their parts drawings and drawn on one or more sheets. The parts on the same general drawing (sub-general drawing or component drawing) can also be combined when they have the same characteristics in structure and processing. The combined drawing should use drawing No. 1 as the basic format. In the combined drawing, the icon stamp can occupy the No. 5 format exclusively. When a certain component drawing in the combined drawing needs to be reused in the design, it should be drawn separately. The two diagrams coded 1 and 2 in the lower right corner of Figure 3.2.5-3 do not exist at the same time. This legend only describes their positions when they are used.5-3, in order to facilitate the management of base maps and printing and publishing, the No. 2 drawing and the component drawing or sub-general drawing with a smaller size than the No. 2 drawing and its component drawing can be combined (jigsaw puzzle) and drawn on one or more sheets. The parts on the same general drawing (sub-general drawing or component drawing) can also be combined when they have the same characteristics in structure and processing. The combined drawing should take the No. 1 drawing as the basic format. In the combined drawing, the icon stamp can occupy the No. 5 format exclusively. When a certain component drawing in the combined drawing needs to be reused in the design, it should be drawn separately. The two diagrams coded 1 and 2 in the lower right corner of Figure 3.2.5-3 do not exist at the same time. This legend only describes their positions when they are used.5-3, in order to facilitate the management of base maps and printing and publishing, the No. 2 drawing and the component drawing or sub-general drawing with a smaller size than the No. 2 drawing and its component drawing can be combined (jigsaw puzzle) and drawn on one or more sheets. The parts on the same general drawing (sub-general drawing or component drawing) can also be combined when they have the same characteristics in structure and processing. The combined drawing should take the No. 1 drawing as the basic format. In the combined drawing, the icon stamp can occupy the No. 5 format exclusively. When a certain component drawing in the combined drawing needs to be reused in the design, it should be drawn separately. The two diagrams coded 1 and 2 in the lower right corner of Figure 3.2.5-3 do not exist at the same time. This legend only describes their positions when they are used.
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