通用阀门维护检修规程

阀门检修规程阀门检修的一般程序：一、1 检查外观，是否有外观缺陷，零部件缺损，及外漏痕迹。

记录阀门的各参数及标记、落实阀门使用的介质、温度及实际工作的所有的参数，为下一步检修阀门做好一切准备工作2 进入现场要着装整齐，讲话文明礼貌，工具摆放整齐，做好安全防护措施3 对于带有执行机构的（电动，气动）阀门，要与甲方工艺配合人员联系拆除电线，或气源管路，对于不用拆除执行机构的，视情况在做好吊装防护后和阀盖一并拆下4 清理阀门内外表面的污物，解体后检查各部及密封面的缺陷、阀盖、法兰结合面的情况，对密封面损伤严重的、需要补焊的，要选好焊材，确保阀门的使用周期及工艺要求，对于一些特殊材质的阀门，要与甲方及时沟通选用材质确保阀门质量。

5 检查关闭件，补焊缺陷，更换密封圈或对焊密封面后进行修正6 检查填料室，填料压盖是否有缺陷以及间隙是否合适7 对阀门内件解体时应对各个零部件根据不同顺序做好标记（尤其调节阀），以防回装时搞错，影响阀门的正常运行。

为阀门回装做好准备。

8 所有解体零部件清洗、打磨。

对不可修复的零件要更换二、阀门检修的技术要求：1 、阀瓣和阀座密封面研磨后，密封面的表面粗糙度应不小于√1.6，密封线应是环形、光滑、连续的，不得有中断现象，以保证吻合2、阀头的各种防松装置应该牢固可靠3、阀头的升降表面应光滑4、阀杆表面光洁度要小于√，阀杆不得有弯曲，丝杠和丝母啮合和润滑应良好，旋动应灵活，丝母顶丝应紧固可靠，不得松动。

5、阀门密封填料应根据工作压力、温度、介质等选择，保证阀门开关灵活而不泄露三，密封填料的选择1、阀门填料应定期检查更换，小型阀门只需将绳状填料按顺时针方向延阀杆装入填料室内。

将压盖螺栓均匀适当拧紧即可。

大型阀门的填料的断面一般为圆形或方形（方形最好），填料应分成次加入，各层填料全的接口应为45°，圈与圈之间的接缝相互戳开120°或180°并应每层填料间加少许石墨粉。

阀门维修规程与技术措施一、阀门维修规程1 阀门检维修流程阀门维修主要包含维修前检查准备、维修委托、阀门移交、阀门解体、零部件检查修复、试压、交付等步骤。

阀门检维修程序图二、阀门维修技术措施1 检维修准备1.1 技术准备1.1.1 根据检维修的容，收集相关的技术资料及广西石化的相关管理规定，编写《阀门检维修规程》、《阀门检维修通用作业指导书》、《阀门检修专用作业指导书》等相关技术管理文件。

1.1.2 相关技术人员及施工人员认真阅读阀门技术文件和相关的技术规，明确检维修围、技术要求、各项技术指标。

1.1.3 填写阀门检修作业技术交底单和安全交底单，同时向检维修人员进行交底。

1.2 施工人员准备1.2.1 所有施工人员均经过三级安全教育培训，并体检合格，取得上岗证，特殊工种人员均已取得特种工证。

1.2.2 阀门检修作业人员根据阀门检修的需要、实际工程量及施工进度进行调配。

常规人员配备已满足日常阀门检维护的需要，装置大修时根据需要调配充足的作业人员，以满足检维修的需要。

1.2.3 日常检维护人员配置2 阀门一般性检查2.1 对送修阀门进行认真检查，包括阀门外观、手轮、铭牌、法兰面、阀杆、阀体锈蚀程度、螺栓锈蚀程度等。

并进行登记2.2 将阀门外部清理干净，进行外部检查，根据痕迹判断是否有外漏和裂纹，并查阅运行记录。

2.3 把阀门开关一次，松紧是否一致，判断阀杆是否弯曲、卡涩，置阀门于开启位置。

3 阀门解体检查3.1 拆检步骤3.1.1 用手轮将阀门摇开几圈，松开盘根压盖铰接螺栓，将填料压盖压板松活。

松盘根压盖螺母时要用专用标准扳手。

3.1.2 对于电动阀门取下电传动装置。

传动头取下后应水平放好，防止蜗轮箱齿轮油漏入电动机里。

3.1.3 拆卸阀门框架。

a) 对于螺栓连接的截止阀，展平止动垫松开框架固定螺钉。

b) 对于丝扣连接的阀门，应用锯或剔的方法将框架与门体的焊点除去。

剔或锯时一定注意不要损坏门体和框架连接螺纹。

阀门的维护检修规程阀门的维护检修1总则１.1适用范围1。

１。

１本规程规定了通用阀门的检修周期与内容、检修与质量标准、试验与验收、维护与故障处理。

1.1.2本规程适用于公称压力1０MＰa(表压）以下,工作温度—196～＋50０℃的闸阀、截止阀、球阀、止回阀、蝶阀、疏水阀等通用阀门。

1.２编写依据AＰI Std 598 阀的检验和试压API Sｐec 6D 管道阀门ＪB/T9０９2－1９99 阀门的检验与试验GB/T 1２２24-１９89 钢制阀门一般要求ＪB/T ７7４９-199５低温阀门技术条件ＳY/T 41０2-95 阀门的检查与安装规范SH 3０6４-20０3 石油化工钢制通用阀门选用、检验及验收SH 35１８－２00０阀门检验与管理规程２检修周期与检修项目2。

１检修周期2。

1．1通用阀门的检修周期，根据生产装置的特点、介质性质、腐蚀速度和运行周期根据实际情况自行确定。

2。

2检修项目2.２.1清洗、检查阀体和全部阀件。

2．２.２更换、修复损坏阀件.２.2。

3研磨密封面。

2．2.４修复中法兰、端法兰密封面。

（中法兰指连接阀体与阀盖的法兰，端法兰指连接阀体与管道的法兰。

）2。

2．5更换或添加填料，更换垫片。

2。

２.６加注润滑密封脂.2.２.７确认阀门的开关位置。

2.2．8阀门每经过一次修理，应在阀体上做出明显标记。

3检修与质量标准3.1检修前准备工作3．1。

１根据检修方案，备齐有关技术资料、工装、夹具、机具、量具和材料。

3．1.2检查运行工艺流程,将阀门与相关联的工艺流程断开,开具管线与设备打开作业许可证，排放内部介质,进行必要的置换,并应符合安全规程.3。

2检修内容3。

2.1阀门应挂牌，标明检修编号、工作压力、工作温度及介质.３。

2.2如有方向和位置要求的拆卸的阀件应核对或打上标记。

３.2.3用工厂空气吹扫阀门外表面.３.2.４将阀门全部拆卸.3．2。

5全部阀件进行清洗和除垢。

3.2.6检查零件的缺陷：以水压试验检查阀体强度；检查阀座与阀体及关闭件与密封圈的配合情况，并进行严密性试验;检查阀杆及阀杆衬套的螺纹磨损情况;检验关闭件及阀体的密封圈；检查阀盖表面,消除毛刺；检验法兰的接合面.3。

管道阀门维护检修规程1 总则1.1 适用范围1.1.1 本规程适用于化工厂工作压力低于35MPa，工作温度为-20~45℃的碳钢、合金钢、不锈钢和耐热钢的工艺管道以衣工艺阀门的维护和检修。

1.1.2 工作温度低于-20℃或高于450℃的工艺及热力管道，最高工作压力大于35MP a的高压管道的维护和检修可参照本规程。

1.1.3 国外引进和翻牌设计装置中的高压管道、设计未提出特殊要求的也可参照本规程。

1.2 工艺管道及阀门的分类1.2.1 管道分类a、管道按公称压力为主要参数分类见表1表1 管道按公称压力为主要参数分类b、管道按材料及工作参数分类见表21.2.1 阀门分类阀门按公称压力为主要参数分类见表32 设备的维护2.1 日常维护2.1.1 操作人员和检修人员必须按照规定对分管的管道、阀门进行巡回检查。

2.1.2 检查内容a、在用管道，阀门是否超温、超压、过冷及泄漏。

b、管道是否异常振动、管道、阀门内部是否有撞击声。

c、有无积液、积水。

d、安全附件运行是否正常。

2.2 定期检查内容2.2.1 检查周期：中低压管道、阀门每年检查一次，高压管道每季检查一次，对有毒腐蚀介质的管道及阀门应适当缩短检查周期。

2.2.2 检查内容a、管道的法兰、焊缝及阀门有无泄漏。

b、管道之间、管道与相邻物件有摩擦。

c、管道的腐蚀、磨损情况。

d、吊卡的紧固、管道支架的防护是否良好。

e、阀门操作机构的润滑和防护层是否完好。

f、管道、阀门的防腐层、保温层是否完好。

g、输送易燃易爆介质的管道阀门每年测量检查一次防静电接地线。

2.2.3 记录检查结果，如果有不正常，应按及时报告并采取措施进行处理。

2.3 常见故障处理方法见表4表4 常见故障处理方法2.4 紧急情况停车遇到下列情况之一者，应立即采取紧急措施并及报告有关部门：a、管道严重泄漏或裂，泄漏有毒有害介质危及生产时。

b、发生火灾、爆炸或相邻设备、管道发生事故直接威胁管道安全运行时。

Procedure for Petr ochemical Equipment–General EquipmentMaintenance and Service Procedure for Valves阀门爱护检修规程SHS 01030-92(For Trial Implementation)Promulgated by SINOPECSINOPEC Publishing HouseContents1. General2. Period and Content of Maintenance3. Maintenance and Quality Standard4. Testing and Acceptance5. Service and TroubleshootingAppendix A Option of Materials for Abrasive Tools (For Referenc e)Appendix B Codes and Application Ranges of Abrasive Materials Appendix C Size Ranges of Abrasive Materials (For Reference)Appendix D Option of Flanges, Bolts and Gaskets (For Reference)Appendix E Option of Common Packings1. General1.1 Subject Matter and Application Range1.1.1 In this Procedure the period and content of the maintenance, maintenance and quality standard, testing and acceptance, service and trou bleshooting of general-purpose valves are defined or described.1.1.2 This Procedure is applicable to such gate valves, stop valves, ball valves, butterfly valves, check values and safety valves that are used in the Petrochemical industry with the max. working pressure being 98.1 MPa (gauge pressure) and the working temperature ranging from -196 to + 850 C.1.2 Reference for PreparationSY-21019-73 Maintenance and Service Procedure for Valves of Refine riesGB 12241-12243-89 Safety ValvesZBJ16-006-89 Tests and Checks of Valves.2. Period and Content of Maintenance2.1 Maintenance PeriodThe maintenance period of valves shall be determined by all enterpris es themselves in accordance with the features of the production plant, per formances of the medium, corrosion speed and operating cycle.2.2 Maintenance Content2.2.1 Clean and check the valve body and partial valve parts.2.2.2 Replace or repair partial valve parts.2.2.3 Lap the seal surface.2.2.4 Repair the surfaces of the spacer flange and end flange.2.2.5 Replace or add the packing, replace the gasket.3. Maintenance and Quality Standard3.1 Preparatory Work for Maintenance.3.1.1 Get ready all related technical documents.3.1.2 Get ready all necessary machines and tools, measuring tools a nd materials.3.1.3 Thoroughly remove the valve medium as per the related regul ations on safety.3.2 General Requirements.3.2.1 There shall be a label hung on the valve, indicating the maint enance no. working pressure, working temperature and medium.3.2.2 For removed parts which have special requirements for the dir ection and position, such direction and location shall be checked for corre ctness or marked out.3.2.3 Clean all the valve parts, removing all contaminants from the m.3.2.4 Replace all the non-metallic seal surfaces that are damaged.3.2.5 For correct selection and use of the materials for abrasive tool s and abrasive materials, refer to Appendices A (For Reference), B (For Reference) and C (For Reference) respectively.3.2.6 For bolts and gaskets the working temperature of which is ab ove 250C, appropriate anti-seizure agent shall be applied on them.3.2.7 Copper gaskets shall be annealed before installation.3.2.8 All bolts shall be installed neatly. For gate valves and stop va lves, the bolts of the spacer flanges shall be tightened when the valves are in the open state.3.3 Quality standard of Maintenance3.3.1 The valve nameplate shall remain intact and the lead seal of t he safety valve shall keep sound and perfect.3.3.2 The valve casting shall have no such defects as cracks, seriou s shrinkage cavities and slag inclusion.3.3.3 The surface of the valve forging to be machined shall have n o such defects as sandwiching, double-skin, cracking and black spots.3.3.4 The weld joint of valve weldment shall have no such defects as cracks, slug inclusion, gas holes, and poor formation.3.3.5 The bolt of the valve shall not be loosened and the end of the bolt shall be 2-3 threads out of the nut. The parts of the actuating syst em shall be complete and operable.3.3.6 Seal Surface3.3.6.1 The seal surface shall be checked for proper imprint of the contact surface with the developer.a. For gate valves, stop valves and check valves, the imprint lines sh all be continuous with the width being not less than 1mm and the imprin t being uniform. The extreme position of the imprint line of the gate val ve disc on the seal surface shall be no less than 3mm from the excircle (including the width of the imprint line).b. The imprint line of the ball valve shall be continuous with the wi dth being not less than that of the outer diameter of the seal ring of valve body and the imprint being uniform.3.3.6.2 The cumulative decrease in thickness of the seal surface of t he safety valve after lapping shall be not more than 2mm.3.3.6.3 The thickness of the build-up welding layer of the safety val ve’s seal surface shall not be less than 2mm.3.3.6.4 The roughness of the seal surface after lapping shall not be lower than 1.6 and not be lower than 0.4 for safety valves.3.3.7 Valve Body, Valve Bonnet and Gaskets3.3.7.1 The connection between the valve seat and valve body shall be firm, tight and free of leakage.3.3.7.2 The valve disk fits the guide perfectly and there shall be no jamming and derailing at any position.3.3.7.3 The max. out-and-in fit clearance of the spacer flange of the valve shall meet the requirements set out in Table 1.Table 142~85 90-125 130-180 185-250 255-315 320-400 405-500 Spacer FlangeDia.0.40 0.45 0.50 0.55 0.65 0.75 0.80Max.Clearance3.3.7.4 The seal surface of the flange shall be clean and free of scr aps.3.3.7.5 Dyeing inspection shall be made for the contact surface of t he steel gasket and seal box and the imprint line shall be continuous.3.3.7.6 The flanges shall be parallel and the installation distance sha ll be in compliance with the requirements of Table 2.Table 2Nominal Diameter D N100 150~200 250Min. Installation Clearance 2 2.5 33.3.7.7 For selection of flanges, bolts and gaskets, refer to AppendixD (For Reference).3.3.7.8 The bolts for which special requirements for tightening mom ents are set shall be tightened in accordance with such requirements and t he error in respect of the tightening moment shall not be bigger than 5%.3.3.7.9 The max. fit clearance of the packing gland and bottom slee ve with the ports of the stuffing box shall meet the requirements set out in Table 3.Table 33.3.7.10 The max. fit clearance between the inside diameter of the packing gland and the valve stem shall be in compliance with the require ments set out in Table4.Table 43.3.7.11 The packing gland shall be free of any damages and defor mation.3.3.8 Actuating Device3.3.8.1 The connection between the valve stem and actuating device shall be reliable and shall not become loose of itself.3.3.8.2 When the end of the valve stem is connected with the valve disk at the time when the valve is closed, the disk shall aligned with the valve body.3.3.9 Valve Stem3.3.9.1 There shall be no pits, scraps and axial clefts on the surface of the valve stem and the roughness of such surface shall be 1.6.3.3.9.2 The tolerance value of linearity along the whole length of the valve stem shall be in compliance with the requirements set out in Table 5.3.3.9.3 The tolerance value of roundness of the valve stem shall be in compliance with the requirements set out in Table 6.Table 5Table 63.3.9.4 The tolerance value of axiality of the axes of the buttress th read and the upper seal cone with the axis of the valve stem shall be in compliance with the requirements set out in Table 7.Table 73.3.9.5 The head of the valve stem shall be free of any indentations and deformation.3.3.9.6 The sphere at the end of the stem of the safety valve shall be round and smooth.3.3.9.7 The surface of the safety valve spring shall be free of crack s and the bearing planes of both the ends of the spring shall be perpendi cular to the axis.3.3.10 Nuts of Valve Stem3.3.10.1 The max. fit clearance of the excircle of the valve stem and the support opening shall meet the requirements set out in Table 8.3.3.10.2 The hand wheel and bearing gland shall not be loosened.Table 8Outside Diameter 35~50 55~80 >80 Max. Fit Clearance 0.25 0.30 0.353.3.11 Packing Seal3.3.11.1 The packing for miter joint shall have an oblique angle of 30made and the joints of every two neighboring turns of the packing shall be staggered by 120and the packing shall be compressed fast tur n by turn.3.3.11.2 After the stuffing is inserted, the packing gland shall be pr essed into the stuffing box by no less than 2mm. The exposed portion sh all not be less than two thirds of the height of the packing gland that ca n be pressed into the stuffing box.3.3.11.3 After the packing is filled, the valve stem shall rotate, go up and down freely without seizure and leakage.3.3.11.4 For selection of appropriate packing materials, refer to App endix E (For Reference).3.3.12 Assembling of Valve3.3.12.2 The flange and guide bushing of the safety valve body shal l be aligned for fitting.3.3.12.3 The indicating and limit mechanisms shall be correctly loca ted.3.3.12.4 The installation of the actuating device shall ensure flexibili ty and operability of the device and meet the relevant technical requireme nts.4. Testing and Acceptance4.1 General requirements4.1.1 When making the sealing test, no grease shall be applied on t he seal surface. However, it is allowed to have a coat of protecting agent with the viscosity being not greater than that of kerosene applied on it.4.1.2 For valves of Austenitic stainless steel, the test medium shall be mater and the chlorine content of the water shall not exceed 25 ppm. For valves of carbon steel and 16 Mn R, the water temperature shall not be lower than 5℃and for valves of other low-alloy steel, the water tem perature shall not be lower than 15℃.4.1.3 When the gas pressure test is made instead of the hydraulic te st, the approval from the relevant authority shall be obtained and correspo nding preventive measures taken beforehand.4.2 Pressure Test of Common Valves4.2.1 Test Medium4.2.1.1 For test of the valve casing, tests on high-pressure upper sea l and high-pressure seal, the medium shall be water, kerosene or any non -corrosive fluid with the viscosity not bigger that of water.4.2.1.2 For tests on low-pressure seal and low-pressure upper seal, t he medium shall be air or any inert gas.4.2.2 Test Pressure4.2.2.1 For test of the valve casing, the test pressure shall be 1.5 ti mes the nominal pressure.4.2.2.2 For tests on high-pressure seal and high-pressure upper seal, the test pressure shall be 1.1 times the nominal pressure.4.2.2.3 For tests on low-pressure seal and low-pressure upper seal, t he test pressure shall be 0.6 Mpa.4.2.2.4 For the sealing test of the check valve, the test pressure sha ll be the nominal pressure.4.2.3 Test Duration and Permitted Max. Leakage4.2.3.1 The pressure-holding time of the test of the valve casing sha ll be in compliance with the requirements set out in Table 9. There shall be no leakage from and structural damage to the casing (including the st uffing box and spacer flange).4.2.3.2 The pressure-holding time of the seal test and upper seal tes t shall be in compliance with the requirements set out in Table 10. The a llowed max. leakage rate of the seal box shall be in compliance with the requirements of Table 11.* When leakage is measured on the basis of gas, one bubble (volum e under the barometric pressure) = 300mm3 and When measured on the basis of liquid, 16 drops = 1000mm34.3 Pressure Test of Safety Valve4.3.1 Pressure Test on StrengthThe pressure for the strength test shall be 1.5 times the max. workin g pressure. For pressure-holding time, see Table 12. If the results show n o leakage and deformation, the strength shall be considered up to standar d.4.3.2 Test on Setting Pressure (or Cracking Pressure)When PW0.7, PS=Pw+0.05When 0.7<PW 1.8, PS=PW+0.18Nominal Dia.N NNominal Pressure P N, MPa≤4 >4~6.4 >6.4 Pressure-holding Time, min≤50>50~65 >65~80 >80~100 >100~125 >125~150 >150~200 >200~250 >250~300 >300~350 >350~400 >400~450 >450~500 >500~600 222222334444552234455678991012344567911131517192224When 1.8<PW8, PS=1.1PWWhen 8<PW32, PS=1.05PWWhere, PW –max. working pressure of the container, MPa;PS – setting pressure value of the safety valve, MPa.The max. setting pressure value of the safety valve shall not exceed the designed pressure of the container.4.3.2.2 For the test medium, see Table 13.4.3.2.3 During the test, the pressure adjustment through the regulatin g sleeve will be made only when the inlet pressure is reduced below 80% of the setting pressure value.4.3.2.4 The setting pressure test shall be made for three times. 4.3.2.5For the tolerance of the setting pressure value, refer to Table 14.4.3.3 Pressure Test of Seal4.3.3.1 The pressure value for the seal test: When steam is used as the medium, the pressure value shall be 90% of the setting pressure. Wh en a gas or liquid is used as the medium, the pressure value shall be 0.3MPa lower than the setting pressure if the setting pressure is lower than 0.3MPa and 90% of the setting pressure if the setting pressure is higher t han 0.3MPa.4.3.3.2 For media used for seal tests, refer to table 13.4.3.3.3 For pressure tests of seals: If the medium is steam and the test results prove that no leakage has been found and no sound has been heard, the seal shall be considered up to standard; if the medium is a gas, the leakage rate shall be in compliance with the requirements set out in Table 15 and if the medium is a liquid and no leakage occurs within the first 2 minutes, the seal tested shall be considered as qualified.4.4 AcceptanceTable 154.4.1 The valve shall operate with the plant for a week and each in dex set for it shall be in compliance with the relevant technical standard or meet the requirement of production.The valve proves to be perfect and the lead seal of the safety valve is qualified.Two copies of records of the valve pressure test, records of setting p ressure test of the safety valve and the certificate acceptance of the set pr essure test of the safety valve complete with signatures of the user and maintenanceing units shall be submitted with each party holding one copy.5. Service and Troubleshooting5.1 Routine Maintenance5.1.1 Check the oiling cup, nozzles and lubrication conditions of the thread and nut of the valve stem regularly.5.1.3 Regularly clean the pneumatic and hydraulic devices of the val ve.5.2 Common Faults and Remedies (See Table 16)Appendix A Option of Materials for Abrasive ToolsAppendix B Codes and Application Ranges of Abrasive MaterialsAppendix C Size Ranges of Abrasive MaterialsAppendix D Option of Flanges, Bolts and GasketsAppendix E Option of Common Packing MaterialsSupplementary Description:This Procedure was drafted by Dalian Petrochemical Company Limite d.The draftsmen of this Procedure: Wang Lian, Miao Qing’an.。

各种阀门检修方案及规程1 截止阀检修工艺规程1.1截止阀概况及参数业主提供1.1.1 截止阀概况业主提供1。

2 检修步骤、工艺方法及质量标准1。

2.1检修准备1.2。

1。

1确认该阀门已进行有效隔离，工作相关风险预控措施已落实.安全技术交底已完成。

1.2。

1.2工器具、量具、备件已准备好。

1。

2。

1。

3拆除保温，清除杂物，检查阀门外部阀体情况，阀体表面应无砂眼、无裂纹、无重皮、螺栓及零部件完好。

1。

2.1。

4对阀门上需拆卸螺栓处用松动剂进行润滑。

1.2。

2 CONVLA 截止阀检修步骤和工艺1。

2。

2.1阀门解体及检查清理1。

2。

2.2通知热工人员将执行器就地电源插头拆除，并用防雨布包好.1。

2。

2。

3拆卸阀箍法兰与执行器连接螺栓,将执行器从阀杆适配器上拆下,放置合适位置防止淋雨或磕碰;松动阀杆上执行器适配器的锁紧螺母,将适配器从阀杆上拆下。

1.2.2。

4松动盘根压盖调节手柄，将盘根套筒旋至阀箍衬套的最高处。

1。

2.2.5将卡箍锁紧螺钉从卡箍中完全旋出，并将其旋入卡箍螺栓系耳代螺纹的一边，用一块金属板插入阀箍开口处,旋入阀箍螺栓，将阀箍开口顶开约2mm。

逆时针旋转并拆下阀箍，注意保护阀盖密封面，严禁划伤。

1.2.2。

6将阀杆、阀芯连通阀盖从阀体上拆下，阀杆从阀盖中取出；用软棒将阀盖内旧填料拆除，注意保护填料室内壁,严禁划伤;检查阀座与阀芯、阀盖与阀体密封面、盘根腔室底部密封面有无异物、裂纹、砂眼、麻点等并做好记录.1.2.2.7检查盘根套筒、阀箍套管螺纹、阀杆传动铜套螺纹无损伤。

1.2。

2.8阀门密封面检修1.2。

2。

9检查检修阀芯。

如阀芯上有缺陷。

1。

2.2。

10检查检修阀座。

用根据该阀门阀芯尺寸加工的阀座研磨工具研磨阀座密封面，直至阀座密封面产生新的接触面。

1。

2.2。

11将阀芯与阀座适量对研至阀座、阀芯出现平滑封闭的接触线，阀线宽度为1.6mm 左右；禁止过度研磨，防止阀座与阀芯之间由线接触变为完全面接触。

泸州市龙马潭区四通燃料有限公司管道通用阀门操作、维护、检修规程编号：ST-YX- 040编制：审核：审批：泸州市龙马潭区四通燃料有限公司2016年2月20日发布2016年3月20日实施1、目的为了保证阀门处于良好的运转状态，减少设备故障率的发生，确保设备运行的安全性和可靠性，特制定本规程。

2、本规程适用于配气站场输气管道通用阀门。

3、引用标准：3.1.钢制阀门一般要求GB/T 12224—19893.2.阀门的检查与安装规范SY/T 4102—19953.3.普通型阀门电动装置技术条件JB/T 8528—19973.4.阀门手动装置技术条件JB/T 8531—19973.5.管道阀门（闸阀、旋塞阀、球阀和止回阀）规范第20版API Spec 6D 3.6.阀的检验和试压（第5版）API Std 5983.7.阀门通用技术要求CJ/T3056-19953.8.燃气阀门的试验与检验CJ/T3055-19954、阀门的操作4.1.阀门操作的一般原则4.1.1操作阀门时，应缓开缓关。

4.1.2.同时操作多个阀门时，应注意操作顺序，并满足生产工艺要求。

开启有旁通阀门的较大口径阀门时，若两端压差较大，应先打开旁通阀，再开主阀；主阀打开后，应立即关闭旁通阀。

4.1.3.操作球阀只能全开或全关。

4.1.4.收发清管器时，其经过的阀门须全开。

4.2.手动阀门4.2.1.操作前应注意检查阀门开闭标志。

4.2.2.通常情况下，关闭阀门时手轮（手柄）向顺时针方向旋转，开启阀门时手轮（手柄）向逆时针方向旋转。

4.2.3.手轮（手柄）直径（长度）小于或等于320mm时，只允许一人操作。

4.2.4.手轮（手柄）直径（长度）大于320mm时，允许多人共同操作，或者借助适当的杠杆（一般不超过0.5m）操作阀门。

4.2.5.操作阀门时，应均匀用力，不得用冲击力开闭阀门。

4.2.6.操作闸阀、截止阀和平板阀过程中，当关闭或开启到上死点或下死点时，应回转1/2～1圈。

第五篇管道阀门检修规程5.1高加给水联程阀5.1.1高加给水联程阀的作用联程阀与高进水电动门，高加出水电动门，高加给水旁路电动门，高加危急疏水电动门，抽汽逆止门形成一个闭合的联锁保护网，当高加水侧钢管一旦破裂，该联锁保护装置能够迅速及时的做好高加隔离工作，防止汽水倒入高中压缸，并开启高加给水旁路电动门，使之继续维持锅炉正常运行。

Q/118-104.11-985.2抽汽逆止阀5.2.1抽汽逆止阀的作用抽汽逆止阀，电磁阀控制的一种单向流通式阀门，它与诸多阀门构成一套完整闭合的联锁保护装置，当机组启停时，通过电磁阀控制压缩空气，使抽汽逆止阀处于开关状态，特Q/118-104.11-98别是在加热器内部，钢管突然爆裂时，它能通过其它信号的反馈迅速及时的进入关闭状态，防止汽水倒入高，低压缸，造成机组的损坏，起到保护机组的作用。

Q/118-104.11-985.3电动主闸阀5.3.1电动主闸阀特性与作用在热力系统中，电动主闸阀一般作用与公称式通径大于100mm的蒸汽管道及给水管道中，它流通阻力小，减少了局部阻力损失，相对磨损小，可使设备本身延长寿命，结构较非自密封阀门复杂，但免除了门盖各螺栓间，因紧力不均及紧偏阀门盖造成的泄露，由于结构的不同使之较其他类型的阀门，在作隔离时，两侧密封性能更好，但它只适于全开全关的工作程序。

Q/118-104.11-985.4一级旁路减温减压阀5.4.1一级旁路减温减压阀的作用：一级旁路设置于主蒸汽管路，它实际是一种安全，保护系统，它通过与二级旁路协调作用，能保证锅炉的最低负荷蒸发量，维持锅炉的正常，安全运行，当汽轮机启停及突然甩负荷时，能起到保护再热器的作用，即开启一级旁路系统，新蒸汽进入高压缸排汽管路至再热器，使再热器通过定量的蒸汽，避免超温亦避免了机组在非状态下工作，蒸汽排空，起到回收的作用。

Q/118-104.11-985.5二级旁路减温减压阀5.5.5二级旁路减温减压阀的作用二级旁路设置于再热蒸汽管路，它实际是一种安全，保护系统，它通过与一级旁路协调作用，能保证锅炉最低负荷蒸发量，维持机组及锅炉的正常，安全运行，当汽轮机启停及突然甩负荷时，进入中压联合汽门前的再热蒸汽，可通过二级旁路的调节，进行减温减压，排入凝结器。