ImageVerifierCode 换一换
格式:PDF , 页数:30 ,大小:1.15MB ,
资源ID:456942      下载积分:10000 积分
快捷下载
登录下载
邮箱/手机:
温馨提示:
如需开发票,请勿充值!快捷下载时,用户名和密码都是您填写的邮箱或者手机号,方便查询和重复下载(系统自动生成)。
如填写123,账号就是123,密码也是123。
特别说明:
请自助下载,系统不会自动发送文件的哦; 如果您已付费,想二次下载,请登录后访问:我的下载记录
支付方式: 支付宝扫码支付 微信扫码支付   
注意:如需开发票,请勿充值!
验证码:   换一换

加入VIP,免费下载
 

温馨提示:由于个人手机设置不同,如果发现不能下载,请复制以下地址【http://www.mydoc123.com/d-456942.html】到电脑端继续下载(重复下载不扣费)。

已注册用户请登录:
账号:
密码:
验证码:   换一换
  忘记密码?
三方登录: 微信登录  

下载须知

1: 本站所有资源如无特殊说明,都需要本地电脑安装OFFICE2007和PDF阅读器。
2: 试题试卷类文档,如果标题没有明确说明有答案则都视为没有答案,请知晓。
3: 文件的所有权益归上传用户所有。
4. 未经权益所有人同意不得将文件中的内容挪作商业或盈利用途。
5. 本站仅提供交流平台,并不能对任何下载内容负责。
6. 下载文件中如有侵权或不适当内容,请与我们联系,我们立即纠正。
7. 本站不保证下载资源的准确性、安全性和完整性, 同时也不承担用户因使用这些下载资源对自己和他人造成任何形式的伤害或损失。

版权提示 | 免责声明

本文(ASME STP-PT-023-2009 GUIDELINES FOR IN-SERVICE INSPECTION OF COMPOSITE PRESSURE VESSELS《复合压力容器运行中检查的指南》.pdf)为本站会员(bowdiet140)主动上传,麦多课文库仅提供信息存储空间,仅对用户上传内容的表现方式做保护处理,对上载内容本身不做任何修改或编辑。 若此文所含内容侵犯了您的版权或隐私,请立即通知麦多课文库(发送邮件至master@mydoc123.com或直接QQ联系客服),我们立即给予删除!

ASME STP-PT-023-2009 GUIDELINES FOR IN-SERVICE INSPECTION OF COMPOSITE PRESSURE VESSELS《复合压力容器运行中检查的指南》.pdf

1、 STP-PT-023 GUIDELINES FOR IN-SERVICE INSPECTION OF COMPOSITE PRESSURE VESSELS Prepared by: John H. Smith Date of Issuance: February 23, 2009 This report was prepared as an account of work sponsored by ASME Pressure Technology Codes this is indicated on the tank marking. This marking should first be

2、 checked to ensure that such tanks are within their designated service lifetime. 7.2 Identification of External Damage The external surface should be inspected for damage to the composite. Any damage is classified into two levels of damage as shown in Section 9 of these guidelines. The acceptance/re

3、jection criteria shown in Section 10 of these guidelines should be followed, as a minimum. The external surface of the tank is subject to mechanical, thermal and environmental damage. The external surface of the tank may show damage from impact, gouging, abrasion, scratching, temperature excursions,

4、 etc. Areas of the surface that are exposed to sunlight may be degraded by ultraviolet light which results in change in the color of the surface and may make the fibers more visible. This discoloration does not indicate a loss in physical properties of the fibers. Overheating may also cause a change

5、 in color. The size (area or length and depth) and location of all external damage should be noted. Tank support structures and attachments should be examined for damage such as cracks, deformation or structural failure. 7.3 Types of External Damage 7.3.1 General Several types of damage to the exter

6、ior of composite tanks have been identified. Examples of specific type of damage are described below. The acceptance/rejection criteria for each type of damage are described in Section 10 of these guidelines. 7.3.2 Abrasion Damage Abrasion damage is caused by grinding or rubbing away of the exterior

7、 of the tank. Minor abrasion damage to the protective outer coating or paint will not reduce the structural integrity of the tank. Abrasion that results in flat spots on the surface of the tank may indicate loss of composite fiber overwrap thickness. 7.3.3 Damage from Cuts Cuts or gouges are caused

8、by contact with sharp objects in such a way as to cut into the composite overwrap, reducing its thickness at that point. 7.3.4 Impact Damage Impact damage may appear as hairline cracks in the resin, delamination or cuts of the composite fiber overwrap. 9 STP-PT-023 In-Service Inspection of Composite

9、 Pressure Vessels 7.3.5 Delamination Delamination is a separation of layers of fibers of the composite overwrap. It may also appear as a discoloration or a blister beneath the surface of the fiber. 7.3.6 Heat or Fire Damage Heat or fire damage will be evident by discoloration, charring or burning of

10、 the composite fiber overwrap, labels or paint. If the composite fiber overwrap is merely soiled by soot or other debris on the surface that can be easily removed, and the underlying fibers are intact with no evidence of charring or burning, the tank may be cleaned and returned to service. 7.3.7 Str

11、uctural Damage Structural damage will be evidenced by bulging, distortion or depressions on the surface of the tank. 7.3.8 Chemical Attack Some chemicals are known to cause damage to composite materials. Environmental exposure or direct contact with solvents, acids, bases, alcohols and general corro

12、sives can cause damage to composite tanks. Long-term contact with water can also contribute to corrosive damage. Chemicals can dissolve, corrode, remove or destroy tank materials. Chemical attack can result in a significant loss of strength in the composite material. Chemical attack can appear as di

13、scoloration and, in more extreme cases, the composite overwrap can feel soft to the touch. 10 In-Service Inspection of Composite Pressure Vessels STP-PT-023 8 PROCEDURES FOR THE INTERNAL VISUAL INSPECTION (IF NECESSARY) 8.1 Requirements for Internal Visual Inspection Internal visual inspection is no

14、rmally not required. The purpose of an internal visual inspection is to determine if corrosion has occurred on the metal liner (for tanks having a metal liner) or on the plastic liner/metal boss assembly (for fully wrapped tanks with non-metallic liners). When the tanks have been filled only with pu

15、re, dry hydrogen, corrosion of the interior of the liner should not occur. Internal visual inspection of the tanks should only be carried out when: (1) There is evidence that any commodity except pure dry hydrogen has been introduced into the tank. In particular, any evidence that water, moisture, c

16、ompressor cleaning solvents, or other corrosive agents have been introduced into the tank will require an internal visual inspection. (2) There is evidence of structural damage to the tank, such as denting or bulging. (3) The tank valve is removed for maintenance or other reason. When an internal vi

17、sual inspection is conducted, the following procedures should be followed. 8.2 Identification of Internal Damage 8.2.1 Tanks with Metallic Liners For tanks with metallic liners, the objective of the internal visual inspection is primarily to detect the presence of any corrosion or corrosion cracks.

18、The internal surface of the tank should be inspected with adequate illumination to identify any degradation or defects present. Any foreign matter or corrosion products should be removed from the interior of the tank to facilitate the inspection. If any chemical solutions are used in the interior of

19、 the tank they should be selected to ensure that they do not adversely affect the liner or composite overwrap materials. After cleaning the tank should be thoroughly dried before it is inspected. All interior surface of the tank should be inspected for any color differences, stains, wetness, roughne

20、ss, or cracks. The location of any degradation should be noted. Any tank showing significant internal corrosion, dents or cracks should be removed from service. 8.2.2 Tanks with Non-metallic Liners or No Liners Tanks with non-metallic liners may show corrosion on the plastic liner or metal boss ends

21、. Tanks with non-metallic liners or no liners may also show internal degradation in the form of cracks, pitting, exposed laminate or porosity. The internal surface of the tank should be inspected with adequate illumination to identify any degradation or defects present. Any foreign matter or corrosi

22、on products should be removed from the interior of the tank to facilitate the inspection. If any chemical solutions are used in the interior of the tank they should be selected to ensure that they do not adversely affect the liner or composite overwrap materials. After cleaning the tank should be th

23、oroughly dried before it is inspected. The inspector should look for cracks, porosity, indentations, exposed fibers, blisters and any other indication of degradation of the liner and/or laminate. Deterioration of the liner may include softening of the matrix or exposed fibers. 11 STP-PT-023 In-Servi

24、ce Inspection of Composite Pressure Vessels 9 LEVELS OF DAMAGE OR DEGRADATION Damage or degradation that is found in composite tanks can be classified according to the severity of the damage or degradation. Two general levels are used describe the severity of damage or degradation. 9.1 Acceptable Da

25、mage Acceptable damage or degradation is minor and is normally found in service and is considered to be cosmetic. This level of damage or degradation does not reduce the structural integrity of the tank. This level of damage or degradation should not have any adverse effect on the continued safe use

26、 of the tank. This level of damage or degradation does not require any repair to be performed at the time of in-service inspection. When there is an external, nonload-bearing, sacrificial layer of filaments on the tank, any damage or degradation should be limited to this layer. There should be no ev

27、idence of any cut filaments. 9.2 Rejectable Damage (CondemnedNot Repairable) Rejectable damage or degradation is so severe that the structural integrity of the tank is reduced enough to consider the tank unfit for continued service. The tank must be condemned and removed from service. No repair is a

28、uthorized for tanks with rejectable damage or degradation. 12 In-Service Inspection of Composite Pressure Vessels STP-PT-023 10 ACCEPTANCE CRITERIA Certain specific types of indications can be identified by the external in-service visual inspection. Indications of certain types and sizes may not sig

29、nificantly reduce the structural integrity of the tanks and may be acceptable enough that the tanks can be left in service. Other types of indications and larger indications may reduce the structural integrity of the tanks and the tanks must be condemned and removed from service. Table 1 is a summar

30、y of the acceptance criteria for the indications that are found by external visual inspection of the tanks. Table 1 - Visual Acceptance Criteria for Composite Pressure Vessels Type of Degradation or Damage Description of Degradation or Damage Acceptable Level of Degradation or Damage Rejectable Leve

31、l of Degradation or Damage Abrasion Damage to the filaments caused by wearing or rubbing of the surface by friction. Less than 0.050 in. depth in the pressure bearing thickness. More than 0.050 in. depth in the pressure bearing thickness. Cuts Linear indications or flaws caused by an impact with a s

32、harp object. Less than 0.050 in. depth in the pressure bearing thickness. More than 0.050 in. depth in the pressure bearing thickness. Impact Damage Damage to the tank caused by striking the tank with an object or by being dropped. This may be indicated by discoloration of the composite or broken fi

33、laments. Slight damage that causes a frosted appearance or hairline cracking of the resin in the impact area. Any permanent deformation of the tank or damaged filaments. Delamination Lifting or separation of the filaments due to impact or a cut. Minor delamination of the exterior coating. Any loose

34、filament ends showing on the surface. Any bulging due to interior delaminations. Heat or Fire Damage Discoloration or melting of the composite due to temperatures beyond the curing temperature of the composite. Merely soiled by soot or other debris, such that the cylinder can be washed with no resid

35、ue. Any evidence of thermal degradation or discoloration or distortion. Structural Damage bulging, distortion, depressions Change in shape of the tank due to severe impact or dropping. None Any visible distortion, bulging, or depression. Chemical attack Environmental exposure that causes a change in

36、 the composite or failure of the filaments. Any attack that can be cleaned off and that leaves no residue. Any permanent discoloration or loss or softening of surface material. Cracks Sharp, linear indications. None None Scratches/gouges Sharp, linear indications caused by mechanical damage. Less th

37、an 0.050 in. depth in the pressure bearing thickness No structural fibers cut or broken. More than 0.050 in. depth in the pressure bearing thickness or structural fibers cut or broken. Soot A deposit on the composite caused by thermal or environmental exposure. Soot that washes off and leaves no res

38、idue. Any permanent marking that will not wash off. Over-pressurization Excessive pressure due to operational malfunction. None reported. Any report of pressurization beyond the MAWP or any indication of distortion. 13 STP-PT-023 In-Service Inspection of Composite Pressure Vessels Type of Degradatio

39、n or Damage Description of Degradation or Damage Acceptable Level of Degradation or Damage Rejectable Level of Degradation or Damage Corrosion Degradation of the composite due to exposure to specific corrosive environments. None visible. Any surface damage identified as corrosion. Dents A depression

40、 in the exterior of the tank caused by impact or dropping. None visible. Any dents with a depth greater than 1/16 in. or with a diameter greater than 2 inches. Reported collision, accident or fire Damage to the tank caused by unanticipated excursion from normally expected operating conditions. None

41、reported. Any indication or report of impact or heat damage. Environmental damage or weathering Ultraviolet or other environmental attack. None Any discoloration that cannot be washed off.* Crazing Hairline surface cracks only in the composite resin. Light hairline cracks only in the resin. Any dama

42、ge to the filaments. Damage to a protective or sacrificial layer Abrasion, cuts, chemical attack, scratches/gouges, corrosion, environmental damage or crazing that are limited only to the protective or sacrificial layer The depth of any damage to the protective or sacrificial layer that does not exc

43、eed the thickness of the protective or sacrificial layer plus 0.050 inch. The depth of any damage to the protective or sacrificial layer that exceeds the thickness of the protective or sacrificial layer plus 0.050 inch. Note: Only damage beyond the sacrificial or coated layer should be considered, a

44、nd any damage to sacrificial or coated layers should be repaired by suitable techniques (i.e., epoxy filler). Refer to ASME data report for sacrificial layer thickness. *Washing off UV scale will accelerate attack into lower composite layers. For this reason, if there is superficial UV damage we rec

45、ommend cleaning and painting the affected area with a UV tolerant paint. If broken, frayed or separated fibers in the non-sacrificial layer are discovered during the cleaning process then the cylinder must be condemned. 14 In-Service Inspection of Composite Pressure Vessels STP-PT-023 11 RECORD KEEP

46、ING A detailed record of external and internal inspections shall be retained by the owner of the tank for the life of the tank. After satisfactory completion of the periodic in-service inspection, the tanks should be permanently marked or labeled with the date of the inspection, the mark of the insp

47、ector and the date of the next periodic in-service inspection. ASME data report shall be kept on file for the life of the vessel. 15 STP-PT-023 In-Service Inspection of Composite Pressure Vessels 12 REMOVAL OF TANKS FROM SERVICE 12.1 At End of the Designated Service Life Tanks that have reached thei

48、r designated service life must be removed from service. These tanks must be condemned and made unserviceable. If residual gas is likely to be present, expired tanks should be flushed with an inert fluid such as water. The tanks can then be rendered unserviceable by cutting, crushing or drilling so t

49、hey can no longer hold pressure. 12.2 Tanks Found to have Rejectable Damage or Degradation Tanks that are found to have rejectable damage or degradation cannot be repaired and must be condemned and removed from service. If residual gas is likely to be present, the tanks should be flushed with an inert fluid such as water. The tanks can then be rendered unserviceable by cutting, crushing or drilling so that they can no longer hold pressure. 16 In-Service Inspection of Composite Pressure Vessels STP-PT-023 REFERENC

copyright@ 2008-2019 麦多课文库(www.mydoc123.com)网站版权所有
备案/许可证编号:苏ICP备17064731号-1