SAE ARP 6207-2017 Qualifications Required for SAE Type I Aircraft Deicing Anti-Icing Fluids.pdf

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4、70 (outside USA) Fax: 724-776-0790 Email: CustomerServicesae.org SAE WEB ADDRESS: http:/www.sae.org SAE values your input. To provide feedback on this Technical Report, please visit http:/standards.sae.org/ARP6207 AEROSPACE RECOMMENDED PRACTICE ARP6207 Issued 2017-10 Qualifications Required for SAE

5、Type I Aircraft Deicing/Anti-Icing Fluids RATIONALE This ARP documents the steps and processes: (a) to select samples for testing experimental SAE Type I fluids according to AMS1424 and ARP5945, (b) to run field spray tests, (c) to generate holdover time guidelines from endurance time data, and (d)

6、to add and remove fluids from the lists of fluids published by The Federal Aviation Administration and Transport Canada. The intent of this ARP is to help fluid manufacturers and users to understand the overall process that a fluid must go through to be used in aviation. It describes and documents t

7、he processes by which an experimental fluid may become useable fluid. FOREWORD Meeting all of the technical requirements of AMS1424 is not sufficient for a Type I de/anti-icing fluid to be used on an aircraft. For such a fluid to be used commercially, it must further demonstrate that (1) its perform

8、ance is such that it can be used with the Type I generic holdover time guidelines published by the regulators and (2) its name appears on a list of fluids published by regulators1. Before commercialization, it is further recommended that a field spray trial be conducted with the fluid to demonstrate

9、 acceptable operational performance. The intent of this ARP is to help fluid manufacturers and users understand the overall process that a Type I fluid must go through to be used with the Type I holdover time guidelines and be included on the Federal Aviation Administration (FAA) and Transport Canad

10、a (TC) lists of fluids. TABLE OF CONTENTS 1. SCOPE 3 2. REFERENCES 3 2.1 Applicable Documents 3 2.1.1 SAE Publications . 3 2.1.2 FAA Publications . 4 2.1.3 Transport Canada Publications . 4 2.1.4 ASTM Publications 4 2.2 Acronyms 4 2.3 Definitions . 5 3. LABORATORY TESTING AND SAMPLE SELECTION . 5 3.

11、1 Preliminary Work . 5 3.2 Type I Fluid Classification: Glycol (Conventional and Non-Conventional) and Non-Glycol . 6 3.3 Fluid Testing According to AMS1424 6 3.3.1 Purpose . 6 1 The aircraft manufacturers typically identify the types of fluids which can be applied to their aircraft type. This infor

12、mation is usually located in the maintenance manual winter operations section or in the Aircraft Operating Manual (AOM). SAE INTERNATIONAL ARP6207 Page 2 of 14 3.3.2 Sample Selection 6 3.4 Endurance Time Testing According to ARP5945 . 6 3.4.1 SAE Type I Fluids Required to Undergo Endurance Time Test

13、ing 7 3.4.2 Sample Selection 7 3.5 Wind Tunnel Testing . 7 3.6 Water Spray Endurance Test Time Requirements . 7 4. FIELD SPRAY TESTING 7 4.1 Reason for Field Spray Test . 7 4.2 Sample Selection 7 4.3 Test Protocol . 8 4.4 Test Report . 8 5. PREPARATION OF DRAFT HOLDOVER TIME GUIDELINES AND FLUID LIS

14、TS 8 5.1 Holdover Time Guideline Format 8 5.1.1 Columns 8 5.1.2 Rows . 9 5.1.3 Notes . 9 5.1.4 Cautions 9 5.1.5 Date . 9 5.2 Restrictions . 9 5.3 Product Names . 10 5.4 Holdover Time Values and Endurance Time Data . 10 5.5 Generic Holdover Time Guidelines . 10 5.6 Obligation of Fluid Manufacturers t

15、o Provide Information to FAA and Transport Canada . 10 5.6.1 Obligation of Fluid Manufacturers to Notify on Commercial Products 10 5.6.2 Obligation of Fluid Manufacturers to Provide Original Preproduction AMS1424 Test Data for New Fluids . 10 5.6.3 Obligation of Fluid Manufacturers to Provide Period

16、ic AMS1424 Test Data 11 5.6.4 Additional Data Required by FAA and Transport Canada 11 5.7 FAA and Transport Canada Lists of Fluids . 11 5.7.1 Addition of Ready-To-Use Dilutions 12 5.7.2 Addition of a Fluid Licensee 12 5.8 Removal of Obsolete Fluids/Data from FAA and Transport Canada Holdover Time Gu

17、idelines . 12 6. ROLE OF THE SAE G-12 AIRCRAFT DEICING FLUIDS COMMITTEE . 13 7. ROLE OF THE SAE G-12 HOLDOVER TIME COMMITTEE . 13 7.1 Holdover Time Committee Co-Chairs . 13 7.2 Holdover Time Committee Advisory Role . 13 7.3 Holdover Time Committee Meeting Mandatory Agenda Items . 13 8. PUBLICATION O

18、F HOLDOVER TIME GUIDELINES AND FLUID LISTS . 13 9. TIMELINE 13 10. NOTES 14 10.1 Revision Indicator 14 SAE INTERNATIONAL ARP6207 Page 3 of 14 1. SCOPE This document describes: a. the preparatory steps to test experimental Type I fluids according to AMS1424; b. the recommendations for the preparation

19、 of samples for endurance time testing according to ARP5945; c. a short description of the recommended field spray test; d. the protocol to demonstrate that Type I fluid can be used with the Type I holdover time guidelines published by the FAA and Transport Canada, including endurance time data obta

20、ined from ARP5945; e. the protocol for inclusion of Type I fluids on the FAA and Transport Canada lists of fluids; f. the protocol for updating the FAA and Transport Canada lists of fluids; g. the role of the SAE G-12 Aircraft Deicing Fluids Committee; h. the role of the SAE G-12 Holdover Time Commi

21、ttee; and i. the process for the publication of Type I holdover time guidelines. This document does not describe laboratory-testing procedures. This document does not include the qualification requirements for AMS1428 Type II, III, and IV fluids (these are provided in ARP5718). 2. REFERENCES 2.1 App

22、licable Documents The following publications form a part of this document to the extent specified herein. The latest issue of SAE publications shall apply. The applicable issue of other publications shall be the issue in effect on the date of the purchase order. In the event of conflict between the

23、text of this document and references cited herein, the text of this document takes precedence. Nothing in this document, however, supersedes applicable laws and regulations unless a specific exemption has been obtained. 2.1.1 SAE Publications Available from SAE International, 400 Commonwealth Drive,

24、 Warrendale, PA 15096-0001, Tel: 877-606-7323 (inside USA and Canada) or +1 724-776-4970 (outside USA), www.sae.org. AMS14242 Fluid, Aircraft Deicing/Anti-Icing, SAE Type 1 AMS1424/1 Deicing/Anti-Icing Fluid, Aircraft SAE Type I Glycol (Conventional and Non-Conventional) Based AMS1424/2 Deicing/Anti

25、-Icing Fluid, Aircraft SAE Type I Non-Glycol Based AMS1428 Fluid, Aircraft Deicing/Anti-Icing, Non-Newtonian (Pseudoplastic), SAE Types II, III, and IV AMS1428/1 Fluid, Aircraft Deicing/Anti-Icing, Non-Newtonian (Pseudoplastic), SAE Types II, III, and IV Glycol (Conventional and Non-Conventional) Ba

26、sed AMS1428/2 Fluid, Aircraft Deicing/Anti-Icing, Non-Newtonian (Pseudoplastic), SAE Types II, III, and IV Non-Glycol Based 2 AMS1424 section numbers throughout this ARP6207 are from AMS1424M. SAE INTERNATIONAL ARP6207 Page 4 of 14 ARP5485 Endurance Time Tests for Aircraft Deicing/Anti-icing Fluids

27、SAE Type II, III, and IV ARP5718 Process to Obtain Holdover Times for Aircraft Deicing/Anti-Icing Fluids, SAE AMS1428 Types II, III, and IV ARP5945 Endurance Time Tests for Aircraft Deicing/Anti-icing Fluids SAE Type I AS5900 Standard Test Method for Aerodynamic Acceptance of AMS1424 and AMS1428 Air

28、craft Deicing/Anti-Icing Fluids AS5901 Water Spray and High Humidity Endurance Test Methods for SAE AMS1424 and SAE AMS1428 Aircraft Deicing/Anti-icing Fluids 2.1.2 FAA Publications Available from Federal Aviation Administration, 800 Independence Avenue, SW, Washington, DC 20591, Tel: 866-835-5322,

29、www.faa.gov. FAA Holdover Time Guidelines. (These are published every winter. Always use the latest issue; search for “FAA Holdover Time” at www.faa.gov/other_visit/aviation_industry/airline_operators/airline_safety/deicing/.) FAA-Approved Deicing Program Updates, Winter 20XX-20XX. (This document is

30、 published every winter. Always use the latest issue; search for “FAA-Approved Deicing Program” at www.faa.gov/regulations_policies/orders_notices/.) 2.1.3 Transport Canada Publications Transport Canada documents are available from Transport Canada, Tower C, Place de Ville, 330 Sparks Street Ottawa,

31、 Ontario K1A 0N5, Tel: 1-800-305-2059, www.tc.gc.ca. Transport Canada Holdover Time Guidelines. (These are published every winter. Always use the latest issue.) Guidelines for Aircraft Ground Icing Operations. TP14052E, April 2005. 2.1.4 ASTM Publications Available from ASTM International, 100 Barr

32、Harbor Drive, P.O. Box C700, West Conshohocken, PA 19428-2959, Tel: 610-832-9585, www.astm.org. ASTM D1177 Standard Test Method for Freezing Point of Aqueous Engine Coolants ASTM D1193 Standard Specification for Reagent Water 2.2 Acronyms FAA United States Department of Transportation, Federal Aviat

33、ion Administration HOT Holdover Time LOUT Lowest Operational Use Temperature OAT Outside Air Temperature WSET Water Spray Endurance Test SAE INTERNATIONAL ARP6207 Page 5 of 14 2.3 Definitions AERODYNAMIC ACCEPTANCE: A performance test required under 3.5.6 of AMS1424 and defined in AS5900. ALLOWANCE

34、TIME: Time, from the initial application of fluid, that a fluid is expected to provide protection of an aircraft against contamination from conditions of or mixed with ice pellets or small hail. Allowance times are derived from aerodynamic fluid flow off performance data and visual inspection of flu

35、ids exposed to these precipitation types. ENDURANCE TIME: Time that a fluid can endure defined and controlled temperature and precipitation conditions before visual failure. Endurance time tests are defined in ARP5945. FAA/TRANSPORT CANADA LISTS OF FLUIDS: Lists published by FAA and Transport Canada

36、 in their Holdover Time Guidelines which include fluids that have been tested for endurance times (according to ARP5945), anti-icing performance (according to 3.5.2 of AMS1424 using the test method in AS5901) and aerodynamic acceptance (3.5.3 of AMS1424 using the test method in AS5900) only. FLUID-S

37、PECIFIC HOLDOVER TIME (HOT) GUIDELINE: A holdover time guideline that contains holdover times for a specific Type II, III, or IV fluid. A fluid-specific holdover time guideline can only be used with the specific fluid it is intended for; it cannot be used with any other fluid. Currently, no Type I f

38、luids have fluid specific holdover times. GENERIC HOLDOVER TIME (HOT) GUIDELINE: A generic holdover time guideline can be used with any fluid that is qualified to be the same fluid type as the generic guideline. Unlike the Type II/IV generic HOT table values, there is no specific protocol in place f

39、or determining Type I generic HOT table values, however there is an existing and documented process for ensuring that the performance of a new Type I fluid is within the performance limits of historically tested and accepted Type I fluids. Also unlike the Type II/IV values, the Type I generic values

40、 are relatively static and do not change as new Type I fluids are added and removed from the list of qualified fluids. The reason for the static nature of the Type I generic table is that a significant body of research and testing conducted between the years of 1990s and 2000s has shown that all Typ

41、e I fluids formulated with glycol perform in a similar manner from an endurance time perspective. HOLDOVER TIME (HOT): Time, from the initial application of anti-icing fluid, that a fluid is expected to provide protection of an aircraft against freezing or frozen precipitation. Holdover times are de

42、rived primarily from visual inspection of fluids exposed to freezing and frozen precipitation. HOLDOVER TIME GUIDELINE: A table giving the holdover time for various precipitation conditions and temperatures with cautions and notes giving guidance to ground deicing/anti-icing crews and pilots. The “h

43、oldover time guideline” is also often referred to as “holdover time table”. LOWEST OPERATIONAL USE TEMPERATURE (LOUT): The lowest operational use temperature of a Type I fluid is generally recognized as the higher of: a. The lowest temperature at which it meets the aerodynamics acceptance test (AS59

44、00) for a given type of aircraft, or b. The freezing point of the fluid plus the freezing point buffer of 10 C (about 18 F). WATER SPRAY ENDURANCE TEST (WSET): A performance test defined in AS5901. 3. LABORATORY TESTING AND SAMPLE SELECTION 3.1 Preliminary Work In the course of development work, it

45、is normal for fluid manufacturers to prepare various samples and verify the physical and performance properties of the fluids. To do this, they usually perform a certain amount of work within their own laboratories and will verify their results by having samples tested by the various external labora

46、tories performing AMS1424 testing. SAE INTERNATIONAL ARP6207 Page 6 of 14 3.2 Type I Fluid Classification: Glycol (Conventional and Non-Conventional) and Non-Glycol AMS1424 sets the technical, environmentl and quality control provisions for aircraft deicing fluids. AMS1424 is defined as the foundati

47、on specification for SAE Type I fluids. The SAE Type I fluids are divided into two categories, each having its own category specification 1) SAE Type I fluids based on “Glycol (Conventional and Non-Conventional)” and 2) “Non-Glycol” (3.1.1 of AMS1424). Glycol (Conventional) is defined as ethylene gl

48、ycol, diethylene glycol, or propylene glycol. Glycol (Non-Conventional) is defined as organic non-ionic diols and triols. Non-Glycol is defined as all that is not Glycol (Conventional and Non-Conventional); mixtures of Glycol (Conventional and Non-Conventional) and Non-Glycol are also defined as Non

49、-Glycol. SAE Type I fluid based on Conventional and Non-Conventional Gycol freezing point depressant are identified as AMS1424/1 Type I fluids. The purpose of the AMS1424/1 specification is to identify the SAE Type I fluid as a Conventional or Non-Conventianl Glycol based fluid. SAE Type I fluids based on Non-Glycol freezing point depressants are identified as AMS1424/2 fluids. The purpose of the AMS1424/2 specification is to identify the