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ENGINEERING STANDARD FOR START-UP SEQUENCE AND GENERAL COMMISSIONING PROCEDURES 试车程序This standard specification is reviewed and updated by the relevant technical committee on May 2004. The approved modifications are included in the present issue of IPS. CONTENTS : PAGE No. 0. INTRODUCTION.2 1. SCOPE.3 2. REFERENCES.3 3. DEFINITIONS AND TERMINOLOGY.3 4. SYMBOLS AND ABBREVIATIONS.4 5. UNITS.4 6. GENERAL REQUIREMENTS.4 7. PREPARATION PRIOR TO INITIAL START-UP.5 7.1 Operational Check-Out.5 7.2 Hydrostatic Testing.6 7.3 Final Inspection of Vessels.9 7.4 Flushing of Lines.9 7.5 Instruments.11 7.6 Acid Cleaning of Compressor Lines.12 7.7 Breaking-In Pumps.12 7.8 Breaking-In Compressors.13 7.9 Dry-Out and Boil-Out.14 7.10 Catalyst Loading.16 7.11 Tightness Test.16 8. NORMAL START-UP PROCEDURES.17 8.1 General.17 8.2 Prestart-Up Check List.18 8.3 Make Area Safe.18 8.4 Utilities Commissioning.18 8.5 Air Purging and Gas Blanketing of Non-Catalytic Sections.18 8.6 Catalytic Units Reactor Section Air Purging and Gas Blanketing.19 8.7 Heat Exchanger Activation.20 8.8 Vacuum Test.20 8.9 Establish Flow in the Unit.20 8.10 Inhibitor/Chemical Injections.20 8.11 Adjust Operation to Obtain Quality.20 APPENDICES :APPENDIX A TYPICAL ACID CLEANING PROCEDURE FOR COMPRESSOR LINES.21APPENDIX B TYPICAL HEATER DRY-OUT PROCEDURE.23APPENDIX C TYPICAL CHEMICAL BOIL-OUT SEQUENCE.25 0. INTRODUCTION The Standard Practice Manuals titled as Fundamental Requirements for the Project Design and Engineering is intended for convenience of use and pattern of follow-up and also a guidance. These Standard Engineering Practice Manuals also indicate the check points to be considered by the process engineers for assurance of fulfillment of prerequisitions at any stage in the implementation of process plant projects. It should be noted that these Iranian Petroleum Standards (IPS), as Practice Manuals do not profess to cover all stages involved in every process project, but they reflect the stages that exist in general in process projects of oil, gas and petrochemical industries of Iran. These preparation stages describe the following three main phases which can be distinguished in every project and include, but not be limited to: Phase I): Basic Design Stages (containing seven Standards). Phase II): Detailed Design, Engineering and Procurement Stages (containing two Standards). Phase III): Start-up Sequence and General Commissioning Procedures (containing two Standards). The process engineering standards of this group include the following 11 Standards: STANDARD CODE STANDARD TITLE I) Manuals of Phase I (Numbers 1-7) IPS-E-PR-150 Basic Design Package and Recommended Practice for Feasibility Studies IPS-E-PR-170 Process Flow Diagram IPS-E-PR-190 Layout and Spacing IPS-E-PR-200 Basic Engineering Design Data IPS-E-PR-230 Piping & Instrumentation Diagrams (P & IDs) IPS-E-PR-250 Performance Guarantee II) Manuals of Phase II (Numbers 8&9) IPS-E-PR-260 Detailed Design, Engineering and Procurement IPS-E-PR-300 Plant Technical and Equipment Manuals (Engineering Dossiers) IPS-E-PR-308 Numbering System III) Manuals of Phase III (Numbers 10-11) IPS-E-PR-280 Start-up Sequence and General Commissioning Procedures IPS-E-PR-290 Plant Operating Manuals This Engineering Standard Specification covers: 1. SCOPE This Engineering Standard Specification covers minimum process requirements for plant start-up sequences and general commissioning procedures for Non-Licensed Units or facilities. For Licensed Units, instructions given by the Licenser shall be followed. Although, the start-up sequences and commissioning procedures differ to some extent from process to process, the basic philosophy and general aspects shall conform to the concepts of this Standard. However, considering the general commissioning and all activities to be performed prior to initial start-up as outlined in this Standard, feed introduction to the Unit shall be according to the stepwise start-up procedure provided by the Contractor in the Unit Operating Manual. Note: This standard specification is reviewed and updated by the relevant technical committee on May 2004. The approved modifications by T.C. were sent to IPS users as amendment No. 1 by circular No. 231 on May 2004. These modifications are included in the present issue of IPS. 2. REFERENCES Throughout this Standard the following dated and undated standards/codes are referred to. These referenced documents shall, to the extent specified herein, form a part of this standard. For dated references, the edition cited applies. The applicability of changes in dated references that occur after the cited date shall be mutually agreed upon by the Company and the Vendor. For undated references, the latest edition of the referenced documents (including any supplements and amendments) applies. API (AMERICAN PETROLEUM INSTITUTE) API Std. 650, Welded Steel Tanks for Oil Storage, English Edition Latest Edition, ASME (AMERICAN SOCIETY OF MECHANICAL ENGINEERS) ASME Code, Section VIII IPS (IRANIAN PETROLEUM STANDARDS) IPS-E-GN-100 “Engineering Standard for Units” IPS-C-PI-350 Plant Piping System Pressure Testing IPS-E-PR-308 Numbering System 3. DEFINITIONS AND TERMINOLOGY Company or Employer/Owner Refers to one of the related affiliated companies of the petroleum industries of Iran such as National Iranian Oil Company (NIOC), National Iranian Gas Company (NIGC), National Petrochemical Company (NPC), etc., as parts of the Ministry of Petroleum. Contractor Refers to the persons, firm or company whose tender has been accepted by the Employer, and includes the Contractors personnel representative, successors and permitted assignees. Licenser or Licensor Refers to a company duly organized and existing under the laws of the said companys country and as referred to in the preamble to the contract. Project Refers to the equipment, machinery and materials to be procured by the Contractor and/or “company” and the works and/or all activities to be performed and rendered by the Contractor in accordance with the terms and conditions of the contract documents. Unit or Units Refer to one or all process, offsite and/or utility Units and facilities as applicable to form a complete operable refinery/ and or plant. 4. SYMBOLS AND ABBREVIATIONS SYMBOL/ABBREVIATION DESCRIPTION DN Diameter Nominal, in (mm). LPG Liquefied Petroleum Gas. NIGC National Iranian Gas Company. NIOC National Iranian Oil Company. NPC National Petrochemical Company. OGP Oil, Gas and Petrochemical. ppm (by mass) Parts per million, in (mg/kg). PSV Pressure Safety/Relief Valves. SSU Saybolt Universal Seconds. 5. UNITS This Standard is based on International System of Units (SI) as per IPS-E-GN-100, except where otherwise specified. 6. GENERAL REQUIREMENTS 6.1 Commissioning shall start from the point at which steps are taken to bring the Unit/facility up to operating pressure and temperature and to cut in the feed. It shall be complete when the Unit/facility is operating at design capacity and producing products to specification. 6.2 For a project involving a number of process Units and offsite facilities, it shall be agreed between the Contractor and Company in the earliest stages of a project the sequence of the commissioning of the Units. It shall be necessary to commission utilities and some of the Units in advance of others, because of their interdependence from a process point of view. 6.3 The responsibilities of the Contractor and Company during commissioning stage should be clarified for the provision of labor, operators, specialists and service engineers, and also for the correction of faulty equipment, etc. 6.4 The general requirements outlined in this Standard for testing of equipment/lines shall be followed. The detail procedures for testing of equipment and lines and other precommissioning steps are not included in this Standard and shall be prepared in accordance with the Companys Engineering Standards by the Contractor and submitted to the Company for approval. However, on completion of testing, vessels, equipment and piping should be vented and drained, and where necessary cleaned and dried to the satisfaction of the Company. Spades, blanks and other equipment installed for testing shall be removed on completion of testing. Wherever a flange joint is broken after testing, e.g.,on heat exchangers, pipework, fired heaters and at machinery, then the joint rings or gaskets must be renewed. Particular attention must be given to heat exchangers employing solid metal or filled gaskets, and great care should be taken to ensure that all gaskets renewed after testing of heat exchangers and are correctly fitted before tightening flanges. Where required, valves are to be repacked with the appropriate grade of material. Any temporary bolting which has been used shall be replaced and any temporary fittings which may have been installed to limit travel, e.g., in expansion joints and pipe hangers, shall be removed. 6.5 Prior to commissioning, each item of equipment should have its name, flowsheet number and identification number painted and/or stamped on it according to the Companys Specifications. For numbering system reference is made to IPS-E-PR-308, Numbering System. 7. PREPARATION PRIOR TO INITIAL START-UP The procedures described in this Section shall be carried out at the completion of construction and before initial operation of the Unit. Appropriate phases should be repeated after any major repair, alteration, or replacement during subsequent shutdowns. The phases of preparation for initial start-up shall be according to the following steps: - Operational checkout list. - Hydrostatic testing. - Final inspection of vessels. - Flushing of lines. - Instruments. - Acid cleaning of compressor lines. - Breaking in pumps. - Breaking in compressors. - Dry-out and boil-out. - Catalyst loading. - Tightness test. 7.1 Operational Check-Out a) Check line by line against flowsheet and locate all items. b) Identify the location of instruments. c) Indicate the location of all critical valves including valves at critical vent and drain locations. d) Check control valves, valves, and globe valves to see that they are installed properly with respect to flow through their respective lines. Special attention must be given to check valves regarding their direction of flow. e) Review all piping and instrument connections for steam tracing. f) Check that the following facilities have been installed so that the plant can be commissioned and put on stream: - Start-up bypass lines. - Purge connections. - Steam-out connections. - Drains. - Temporary jumpovers. - Blinds. - Check valves. - Filters and Strainers. - Bleeders. - Etc. g) Check pumps and compressors for start-up. h) Check sewer system for operability. i) Check blowdown systems. j) Check heater for burner installation, refractories, stack damper controls, burner refractories, etc. 7.2 Hydrostatic Testing 7.2.1 Hydrostatic pressure testing of the Unit shall be performed to prove strength of the materials and weld integrity after completion of the construction. The tests shall be made on new or repaired equipment and pipings. The initial testing is ordinarily done by the Contractor in the course of erection. 7.2.2 Detail procedure for testing the equipment and lines shall be prepared by the Contractor and submitted to the Company for approval. In addition to the specifications outlined herein, the requirements specified in IPS-C-PI-350, Plant Piping System Pressure Testing shall be strictly followed unless otherwise specified in this Standard. 7.2.3 Fresh water containing a corrosion inhibitor which meets the Companys approval shall be used for hydrostatic test purpose unless otherwise specified in this Standard. In systems where residual moisture can not be tolerated, e.g., in SO2, acid, ammonia and LPG service, and where certain catalysts are used, oil is the preferred test medium. If the water has to be used, the system should afterwards be dried out with hot air. Special attention should be given to the points where water may be trapped, such as in valve bodies or low points. 7.2.4 If for any reason it is not practical to carry out a hydraulic test, a pneumatic or partially pneumatic test may be substituted subject to prior agreement with the Company. Full details, including proposed safety precautions, will be required. The following are usually excluded from hydrostatic testing, and are usually tested with compressed air and soap suds: a) Instrument air lines (test with dry air only, if possible). b) Air lines to air-operated valves (test with dry air only). c) Very large (usually over DN 600 or 24 inches) gas or steam overhead lines. d) Pressure parts of instruments in gas or vapor service. 7.2.5 When austenitic or austenitic acid clad or lined equipment and piping are tested, the test fluid chloride ion content shall meet the following conditions: a) If the piping and equipment metal temperature never exceeds 50C during commissioning, operation or nonoperation, water containing up to 30 ppm (by mass) chlorides ion shall be used. The chlorides ion content might be increased up to 150 ppm (by mass) if the equipment or piping can be thoroughly washed out using water containing less than 30 ppm (by mass) chlorides ion as soon as testing is complete if allowed by the Company. In any case, the water must be drained and the equipment thoroughly dried immediately thereafter. b) If the piping and equipment metal temperature exceeds 50C during commissioning, operation or nonoperation, the piping shall be tested using condensate water, demineralized water or oil with minimum flash point of 50C. 7.2.6 The testing medium should not adversely affect the material of the equipment or any process fluid for which the system has been designed. Reference should be made to the applicable codes in the case of pressure vessels to determine the minimum ambient and fluid temperatures at which testing may be carried out. If it is desired to test vessels, tanks or piping at temperatures below 16C, attention shall be made to the danger of brittle fracture occurring in carbon steels and ferritic alloy steels unless the materials have adequate notch ductility properties. For any equipment or piping, water should not be used for testing, when either the water temperature or the ambient temperature is below 5C. Hydrostatic testing at temperatures below this value may be carried out using gas oil, kerosene or antifreeze solution at appropriate strength, provided that, the fluid used to be agreed with the Company. When flammable liquids including gas oil or kerosene are to be used, appropriate safety measures must be observed and a work permit shall be required. 7.2.7 Sea water shall not be used for the testing of equipment and lines on process Units and steam generating plants. Proposals for the use of sea water for the testing of storage tanks and offsite lines shall receive Companys approval. 7.2.8 During the hydrostatic test pressure with water the system loss should not exceed 2% of the test pressure per hour unless otherwise specified. Evidence of water at valves, flanges, etc. will indicate the leaking areas to be repaired if the system fails the test. All welds and piping must be inspected for defects by looking for wet spots, therefore they should be tested before they are insulated. 7.2.9 If piping is tested pneumatically, the test pressure shall be 110% of the design pressure. Any pneumatic test shall be increased gradually in steps, allowing sufficient time for the piping to equalize strains during the test. All joints welded, flanged or screwed shall be swabbed with soap solution during these tests, for detection of leakage. 7.2.10 Vents or other connections shall be opened to eliminate air from lines which are to receive hydrostatic test. Lines shall be thoroughly purged of air before hydrostatic test pressure is applied. Vents shall be open when systems are drained so not to create buckling from a vacuum effect. 7.2.11 Relief valves must be removed
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