NAVY A-A-59782-2005 HEAT EXCHANGER CLEANING COMPOUND《热转换清洁化合物》.pdf

上传人:Iclinic170 文档编号:976462 上传时间:2019-03-13 格式:PDF 页数:6 大小:227.96KB
下载 相关 举报
NAVY A-A-59782-2005 HEAT EXCHANGER CLEANING COMPOUND《热转换清洁化合物》.pdf_第1页
第1页 / 共6页
NAVY A-A-59782-2005 HEAT EXCHANGER CLEANING COMPOUND《热转换清洁化合物》.pdf_第2页
第2页 / 共6页
NAVY A-A-59782-2005 HEAT EXCHANGER CLEANING COMPOUND《热转换清洁化合物》.pdf_第3页
第3页 / 共6页
NAVY A-A-59782-2005 HEAT EXCHANGER CLEANING COMPOUND《热转换清洁化合物》.pdf_第4页
第4页 / 共6页
NAVY A-A-59782-2005 HEAT EXCHANGER CLEANING COMPOUND《热转换清洁化合物》.pdf_第5页
第5页 / 共6页
点击查看更多>>
资源描述

1、Beneficial comments, recommendations, additions, deletions, clarifications, etc. and any data that may improve this document should be sent to: Commander, Naval Sea Systems Command, ATTN: SEA 05Q, 1333 Isaac Hull Avenue, SE, Stop 5160, Washington Navy Yard DC 20376-5160 or emailed to commandstandard

2、snavsea.navy.mil, with the subject line “Document Comment”. Since contact information can change, you may want to verify the currency of this address information using the ASSIST Online database at http:/assist.daps.dla.mil. FSC 6850 NOT MEASUREMENT SENSITIVE A-A-59782 27 September 2005 COMMERCIAL I

3、TEM DESCRIPTION HEAT EXCHANGER CLEANING COMPOUND The General Services Administration has authorized the use of this commercial item description, for all federal agencies. 1. SCOPE. This CID covers a liquid form heat exchanger cleaning compound, hereinafter referred to as “compound”, intended for rem

4、oving scale deposits from heat exchangers and distilling units. 2. SALIENT CHARACTERISTICS. 2.1 Materials . Unless otherwise specified herein, materials shall be in accordance with the manufacturers material specifications. The compound shall be a uniform liquid or be able to be made uniform with mi

5、ld mixing. 2.1.1 Hydrogen-ion concentration (pH). The compound shall be an acid ic solution such that the solution, when prepared for use according to manufacturers recommendations, shall have a pH less than 2.0 when determined in accordance with ASTM E70. 2.1.2 Acid content. The compound, as prepar

6、ed for use, shall contain not mo re than 10% by weight hydrochloric acid (HCl) or 15% by weight orthophosphoric acid (H3PO4) when determined in accordance with the manufacturers standard practice. 2.1.3 Excluded ingredients. The compound shall not contain sulfuric acid or organic solvents. 2.1.4 Tox

7、ins, carcinogens, and reproductive stressors. The material shall have no adverse effect on the health of personnel when used for its intended purpose. Conformance shall be determined by a health hazard assessment (HHA) in accordance with 2.1.4.1. Products meeting this requirement will be issued a le

8、tter of approval by the Naval Sea Systems Command. Letters of approval shall apply solely to those products specifically evaluated for toxicity. The manufacturer is required to notify the Qualifying Activity when there have been formulation changes to the qualified product. Upon approval of any refo

9、rmulation, a new letter of approval shall be issued. Failure to report formulation changes may be cause for revocation of all letters of approval for the specific manufacturer and/or permanent banning of the product. Approval letters will be in effect for a maximum of three years, after which, reiss

10、ue may be requested for the same formulation as the original letter of approval. Manufacturers shall provide a copy of the approval letter applicable to offered products to the contracting activity before the product will be accepted. Source: http:/assist.daps.dla.mil - Downloaded: 2005-11-01T15:34Z

11、Check the source to verify that this is the current version before use.Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-A-A-59782 2 2.1.4.1 Health Hazard Assessment. The manufacturer shall provide sufficient information to permit a toxicological evalu

12、ation of the product to the Navy Environmental Health Center (NEHC), accompanied with a request to perform an HHA. As a minimum, the information shall include name, formula and approximate percentage by weight of each ingredient in the product; identification of its pyrolysis products; and any other

13、 such information as may be needed to permit an accurate appraisal of any toxicity problem associated with the handling, storage, application, use, removal, disposal, or combustion of the product. The request for a HHA shall also include a product material safety data sheet and a copy of the product

14、 label. The manufacturer shall provide any other information requested by NEHC to perform their evaluation. Proprietary data, which is clearly marked as such, will be held in the strictest confidence by NEHC. Any questions regarding toxicity, information required to conduct a HHA, and requests for a

15、 HHA shall be addressed to the Commanding Officer, Navy Environmental Health Center, ATTN: Hazardous Materials Department, Industrial Hygiene Directorate, 620 John Paul Jones Circle, Suite 1100, Portsmouth, VA 23708-2103. Upon receipt of the HHA, the manufacturer shall provide a copy to Commander, N

16、aval Sea Systems Command, ATTN: SEA 05Z9, 1333 Isaac Hull Ave, SE, Stop 5123, Washington Navy Yard, DC 20376-5123. 2.1.4.2 Material Safety Data Sheet (MSDS). The contracting activity shall be provided a material safety data sheet with each contract bid-proposal or prior to contract award. The MSDS s

17、hall be provided in accordance with the requirements of FED-STD-313 and 29 CFR 1910.1200, Hazardous Communication Standard. The MSDS shall also be included with each shipment of the compound. 2.2 Scale dissolving ability. The compound, at usage concentration, shall dissolve calcium carbonate scale a

18、t a rate of one gram of solid calcium carbonate (chalk or clam shell) in 50 milliliters of compound at 25 C in less than one hour. 2.3 Deleterious effects on non-metallic components. The compound shall not cause degradation of the non-metallic components listed in Table I. In order to determine the

19、effects of exposure to the candidate compound, the materials listed in Table I shall be exposed to the compound at usage concentration for a period of 70 hours. The following properties shall be examined: 2.3.1 Hardness change. Durometer and/or Rockwell hardness tests (ASTM D2240 and ASTM D785, resp

20、ectively) shall be performed on non-metallic specimens before and after exposure to the candidate compound. Maximum change in hardness shall be +/-5 points. 2.3.2 Permanent volume change. The change in volume of the non-metallic specimens following exposure to the compound shall be determined using

21、ASTM D471 with the exception that the volume following exposure shall be determined after the specimen has been allowed to equilibrate at ambient conditions for 24 hours. The change in volume determined in this manner shall not exceed +/-3.5%. 2.3.3 Other visual effects. No cracking of the surface w

22、hen viewed through a 7-power magnifying glass shall be permitted. Source: http:/assist.daps.dla.mil - Downloaded: 2005-11-01T15:34ZCheck the source to verify that this is the current version before use.Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-

23、A-A-59782 3 TABLE I. Non-metallic materials list. MATERIAL SPECIFICATION TITLE NATIONAL STOCK NUMBER Synthetic Rubber (Acrylonitrile -butadiene, NBR, 70-hardness) SAE-AMS-R-6855 Class 1, Grade 70 Elastomer, Synthetic, Sheets, Strips, Molded or Extruded Shapes, General Specification For 5330-01-313-3

24、583 Fluorocarbon Rubber (FKM, 75-hardness) SAE-AMS-7276 Rings, Sealing, Fluorocarbon (FKM) Rubber High-Temperature-Fluid Resistant Low Compression Set 70 to 80 5331-01-005-0543 Tetrafluoroethylene Resin (TFE) SAE-AS-8791 Hydraulic and Pneumatic Retainers (Back-Up Rings), Polytetrafluoroethylene (PTF

25、E) Resin 5330-00-171-5779 Nitrile Rubber (Acrylonitrile -butadiene, NBR, 88-hardness) SAE-AMS-P-5516 Class A, Low Flexibility Packing, Preformed, Petroleum Hydraulic Fluid Resistant, 160 F 5330-00-260-9649 Polychloro-trifluoroethylene (PCTFE) SAE-AMS-3650 Rods, Sheets, and Molded Shapes, Polychlorot

26、rifluoroethylene (PCTFE) Unplasticized 4820-01-329-5682 Nylon 101 (Polyamide Type 6/6) Commercial: DuPont Zytel 101, Polymer Corporation Nylatron GS or equivalent 9390-01-113-8890 Delrin AF Commercial: Polymer Corporation DE 588 AS or equivalent 5365-01-497-5732 2.4 Corrosive effect on copper alloys

27、. The compound, at usage concentration, shall have a corrosive effect on copper alloys (UNS C70600, UNS C71500 and UNS C92200) of not more than 20 mils per year (mpy) when determined using ASTM G31 for a 6-hour test at 35 C. 2.5 Effect on protective films . Any candidate compound must not significan

28、tly alter the protective film kinetics of copper alloys, i.e., the compound shall not interfere with the formation of the protective oxide layer that naturally develops on copper alloys exposed to clean natural seawater. In order to quantify/determine the effect(s) of a candidate compound, the follo

29、wing must be performed: 2.5.1 Specimen preparation. A minimum of seven UNS C70600 (70/30) copper alloy specimens, (1 unconditioned, 3 to be cleaned with the candidate compound and 3 controls) each with a minimum total surface area of 17.5 square centimeters shall be prepared by polishing all exposed

30、 surfaces of the specimen first with 240 grit abrasive paper followed by 400 grit abrasive paper to remove surface films (including existing protective layers) and expose a clean metallic surface. No discoloration of the surface shall be visible following polishing. The specimens shall be rinsed in

31、clean deionized water to remove abrasive and abraded particles. 2.5.2 Baseline curve. A potentiodynamic polarization curve shall be obtained for one freshly prepared specimen exposed to seawater for the purpose of the test (not a conditioned or control specimen). The seawater shall be from the same

32、source as the exposure tests in 2.5.3. The specimen shall be allowed to come to equilibrium in non-flowing seawater for a minimum of 30 minutes, but no more than 60 minutes prior to initiation of the scan. An anodic polarization curve shall be generated at a scan rate of 0.6 V/hr from the corrosion

33、potential (Ecorr) to +0.2 V against a saturated calomel electrode (SCE) for this and all subsequent polarization scans. Tests shall be in accordance with ASTM G61 with the following modifications: a. Where 3.56% sodium chloride solution is called for in ASTM G61, clean natural seawater shall be used

34、. Source: http:/assist.daps.dla.mil - Downloaded: 2005-11-01T15:34ZCheck the source to verify that this is the current version before use.Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-A-A-59782 4 b. Do not purge the solution to remove oxygen. c. Do

35、 not perform the reverse polarization scan. 2.5.3 Initial seawater exposure. The remaining six 70/30 copper alloy specimens prepared in 2.5.1 shall be exposed to continuously refreshed, once-through (not recirculated) natural seawater for a minimum of three weeks (21 days). Following the initial min

36、imum 21-day exposure, potentiodynamic polarization curves must be obtained for the control specimens as in paragraph 2.5.2. 2.5.4 Control specimen criteria. The anodic current density over the range of cupronickel potentials shall decrease by a minimum of two orders of magnitude from the specimen te

37、sted in 2.5.2. If this criterion is not met for the control specimens, the test must be repeated starting at 2.5.1. 2.5.5 Test specimens. Following the initial 21-day exposure, three test specimens (not the control specimens in 2.5.4) exposed to natural seawater as described in 2.5.3 above shall be

38、cleaned by immersion in the compound at usage concentration for six hours with 5-minutes stirring each half hour. Following cleaning, the test specimens shall be rinsed with water and reimmersed in continuously refreshed, once-through natural seawater for an additional 30 days. After the 30-day seaw

39、ater exposure, obtain potentiodynamic polarization curves for the test specimens as in 2.5.2. 2.5.6 Pass/fail criteria. For each test specimen, the pass-fail criteria for this test will be that the anodic current density over the range of cupronickel potentials shall meet or exceed that of the contr

40、ol specimens tested in 2.5.3 2.5.7 Seawater properties. Clean, natural seawater with sulfide concentrations less than 0.05 mg/l shall be used. Seawater properties during all portions of the test shall be in accordance with Table II. TABLE II. Seawater properties. TEMPERATURE SALINITY pH DISSOLVED OX

41、YGEN DISSOLVED OXYGEN RESISTIVITY (C) parts per thousand (ppt) mg/L Percent Saturation ohm-cm MINIMUM 16 35 7.8 4 72 16 MAXIMUM 31 41 8.2 7 89 21 2.6 Identification and markings. Identification and markings shall be permanent and legible and shall include, as a minimum, the manufacturers name, telep

42、hone number and Commercial and Government Entity (CAGE) code in addition to labeling with instructions for use, and appropriate hazard warnings. 3. REGULATORY REQUIREMENTS. The offeror/contractor is encouraged to use recovered materials to the maximum extent practicable, in accordance with paragraph

43、 23.403 of the Federal Acquisition Regulation (FAR). 3.1 Hazardous materials . The compound shall meet all applicable Federal codes and regulations concerning hazardous materials, including package marking. 4. PRODUCT CONFORMANCE PROVISIONS. 4.1 Product conformance. The products provided shall meet

44、the salient characteristics of this Commercial Item Description, conform to the producers own drawings, specifications, standards, and quality assurance practices, and be the same product offered for sale in the commercial marketplace. The government reserves the right to require proof of such confo

45、rmance. Source: http:/assist.daps.dla.mil - Downloaded: 2005-11-01T15:34ZCheck the source to verify that this is the current version before use.Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-A-A-59782 5 4.2 Market acceptability. The compound shall h

46、ave been sold previously to the Government or to the commercial market in order to qualify for acceptability under this CID. 5. PACKAGING. Preservation, packing, and marking shall be as specified in the contract or order. 6. NOTES. (This section contains information of a general or explanatory natur

47、e that may be helpful, but is not mandatory.) 6.1 Source of documents. 6.1.1 ASTM. ASTM International standards may be obtained from ASTM International, 100 Barr Harbor Drive, West Conshohocken, PA 19428-2959 or online at http:/www.astm.org/. 6.1.2 CFR. The Code of Federal Regulations may be obtaine

48、d from the Superintendent of Documents, U.S. Government Printing Office, Washington DC 20401 or online at www.gpoaccess.gov/index.html. 6.1.3 FAR. The FAR may be obtained from the Regulatory Secretariat, 1800 F Street NW, Washington DC 20405 or online at www.acqnet.gov. 6.1.4 SAE. Society of Automot

49、ive Engineers (SAE) Aerospace Materials Specifications (AMS) may be obtained from SAE World Headquarters, 400 Commo nwealth Drive, Warrendale, PA 15096-0001 or online at www.sae.org. 6.1.5 Toxins. The most recent Annual Report on Carcinogens may be obtained from the U.S. Department of Health and Human Services, Public Health Service, National Toxicology Program, P.O. Box 12233, Research Triangle Park, NC 27709 or go to URL http:/ntp-server.niehs.nih.gov/ un

展开阅读全文
相关资源
猜你喜欢
相关搜索

当前位置:首页 > 标准规范 > 国际标准 > 其他

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