ANSI ASABE S613-3.1-2018 Tractors and self-propelled machinery for agriculture - Air quality systems for cabs - Part 3 Filters for environmental cab HVAC systems.pdf

1、 ANSI/ASABE S613-3.1 JUN2018 Tractors and self-propelled machinery for agriculture Air quality systems for cabs Part 3: Filters for environmental cab HVAC systems American Society of Agricultural and Biological Engineers ASABE is a professional and technical organization, of members worldwide, who a

2、re dedicated to advancement of engineering applicable to agricultural, food, and biological systems. ASABE Standards are consensus documents developed and adopted by the American Society of Agricultural and Biological Engineers to meet standardization needs within the scope of the Society; principal

3、ly agricultural field equipment, farmstead equipment, structures, soil and water resource management, turf and landscape equipment, forest engineering, food and process engineering, electric power applications, plant and animal environment, and waste management. NOTE: ASABE Standards, Engineering Pr

4、actices, and Data are informational and advisory only. Their use by anyone engaged in industry or trade is entirely voluntary. The ASABE assumes no responsibility for results attributable to the application of ASABE Standards, Engineering Practices, and Data. Conformity does not ensure compliance wi

5、th applicable ordinances, laws and regulations. Prospective users are responsible for protecting themselves against liability for infringement of patents. ASABE Standards, Engineering Practices, and Data initially approved prior to the society name change in July of 2005 are designated as “ASAE”, re

6、gardless of the revision approval date. Newly developed Standards, Engineering Practices and Data approved after July of 2005 are designated as “ASABE”. Standards designated as “ANSI” are American National Standards as are all ISO adoptions published by ASABE. Adoption as an American National Standa

7、rd requires verification by ANSI that the requirements for due process, consensus, and other criteria for approval have been met by ASABE. Consensus is established when, in the judgment of the ANSI Board of Standards Review, substantial agreement has been reached by directly and materially affected

8、interests. Substantial agreement means much more than a simple majority, but not necessarily unanimity. Consensus requires that all views and objections be considered, and that a concerted effort be made toward their resolution. CAUTION NOTICE: ASABE and ANSI standards may be revised or withdrawn at

9、 any time. Additionally, procedures of ASABE require that action be taken periodically to reaffirm, revise, or withdraw each standard. Copyright American Society of Agricultural and Biological Engineers. All rights reserved. ASABE, 2950 Niles Road, St. Joseph, Ml 49085-9659, USA, phone 269-429-0300,

10、 fax 269-429-3852, hqasabe.org ANSI/ASABE S613-3.1 JUN2018 Copyright American Society of Agricultural and Biological Engineers 1 ANSI/ASABE S613-3.1 JUN2018 Revision approved June 2018 as an American National Standard Tractors and self-propelled machinery for agriculture Air quality systems for cabs

11、 Part 3: Filters for environmental cab HVAC systems Developed by the ASABE Environment within Ag Vehicle Enclosures subcommittee; Approved by the ASABE Power and Machinery Division as an ASABE standard June 2013; approved as an American Nation Standard August 2013; revised June 2018. Keywords: Air q

12、uality, Cabs, Engineering control, Environment, Filters, HVAC, Procedures, Safety, Terminology, Test, Tractors, Ventilation 1 Scope This part of the S613 standard series is concerned with the generally accepted design principles and test procedures that define and qualify a filter for an HVAC system

13、 used in contaminated environments as part of an Occupational Health and Safety Management System (OHSMS). This document is intended to be a guide for engineers who are responsible for designs used in agricultural applications and for application specialists who are looking for a filter to be used w

14、hen operating in a specific hazardous environment. Filter performance specifications for the cab and HVAC system will be a primary consideration in this part of the standard. These performance specifications may be used by cab designers and filter manufacturers to develop air purification devices th

15、at can be used in a specific HVAC system for reduction of application specific air-borne contaminants as part of an OHSMS as defined in ANSI/ASABE S613-1. This standard provides guidance for use of these systems and defines a way to test the level of protection provided, as defined by the OHSMS (See

16、 ANSI/ASABE S613-1 Tractors and self-propelled machinery for agriculture Air quality systems for cabs Terminology and overview). It is expected that other tests may provide cabs that are as well suited for this purpose; it is up to the user to demonstrate equivalency. This standard is not intended t

17、o qualify cabs for use in extreme hazardous or oxygen depleted environments where a pressurized respirator or other high specification protection requirements are required and therefore are not covered by this standard. Note: In this standard, the term “filter” will be used to signify the air purify

18、ing device. 2 Normative References The following referenced documents are indispensable for the application of this document. For dated references, only the edition cited applies unless noted. For undated references, the latest approved edition of the referenced document (including any amendments) a

19、pplies. ANSI/ASABE S613-1, Tractors and self-propelled machinery for agriculture Air quality systems for cabs Terminology and Overview ANSI/ASABE S613-2, Tractors and self-propelled machinery for agriculture Air quality systems for cabs Part 2: Cab P1 and P2 A.4.7 Verify the test mixture concentrati

20、on entering the system, see section A.1.4. A.4.8 Verify the calibration of the response analyzer as specified in section A.1.5. A.4.9 Start the recorder to monitor the response analyzer in the downstream location. A.4.10 Continue testing until the breakthrough concentration reaches 72 7.2 mg/m3(20 2

21、 ppm) or to 30 minutes if no breakthrough occurs. Record the time to breakthrough, time t min., or termination of the test. A.4.11 Record pressures, P1 and P2, and the mixture concentration at the end of the test. A.4.12 Turn off all test items when the test is concluded and purge the test system wi

22、th fresh air. Report the results for each filter tested. A.5 Calculations A.5.1 Rated service life A.5.1.1 The service life of the air purifying device can be estimated with a safety factor of 10. QCWTF10105=W = R t D where: T is the rated service life in hours. Time begins from first exposure and c

23、apture of a pesticide in the filtering device and continues even when the device is not directly exposed to pesticides in other operations. W is the total weight of test agent sorbed during the qualification test, g; CF is the test agent challenge concentration, g/m3; Q is the flow rate through the

24、air purifying device, m3/h; R is the test agent injection rate, 2.83 mL/min (A.4.4); t is the test time, in min (A.4.10); D is the test agent density, 0.902 g/mL (A.4.4). A.5.1.2 The service life of the filter shall be estimated with a safety factor of 10. Tests recording less than 100 g/m3shall hav

25、e T (time) calculated on a minimum value of 100 g/m3, which represents very high pesticide concentrations measured in agricultural applications. Concentrations exceeding 100 g/m3shall have T calculated on measured values. A.5.1.3 The recommended service life shall not exceed T or one use season, whi

26、chever is less. ANSI/ASABE S613-3.1 JUN2018 Copyright American Society of Agricultural and Biological Engineers 7 A.6 Report The results of each of the three tests shall be recorded. A.6.1 Report the breakthrough time, in minutes, to 72 7.2 mg/m3(20 2 ppm). If the breakthrough concentration is not o

27、bserved, report the breakthrough time as 30 minutes. A.6.2 Report the air flow rate (m3/h), temperature (C) and relative humidity (%). A.6.3 Record the pressure drop across the filter at the beginning (A.4.6) and end of test (A.4.11). A.6.4 Report the manufacturers part number, lot number, and any o

28、ther number or designation that will identify the device. A.6.5 Report the laboratory, test date, and laboratory test reference numbers. The test shall be signed by a certified laboratory technician. A.7 Filter Identification and Instructions A.7.1 Filters qualified by these tests shall include the

29、following information: a) Trademark or identified supplier; b) Meets ASABE Standard S613-3 at the protection level the filter will provide; c) Test report number. A.7.2 Suppliers of the filter shall include such other information pertinent to the use and operation of the device. Information may incl

30、ude installation instructions, rated service life recommendations, and leak check procedures. Exclusion of the filter to handle fumigants shall be noted in the information provided. A.7.3 A log for the user to record information should be provided with each filter Information to be recorded or provi

31、ded shall include: a) Date of installation; b) A check list of seals and surfaces to inspect during installation (cab and filter); c) Equipment hour meter reading when installed. Filter life is measured for the total time the filter is installed in a cab from the first hour meter reading until remov

32、ed; d) Special operating procedures which will ensure cab pressurization at all times when pesticides are present. ANSI/ASABE S613-3.1 JUN2018 Copyright American Society of Agricultural and Biological Engineers 8 Bibliography American Conference of Government Industrial Hygienists (ACGIH). (2016). 2

33、016 Threshold limit values for chemical substances and physical agents and biological exposure indices. Cincinnati, OH: ACGIH. American Society of Heating, Refrigerating and Air Conditioning Engineers (ASHRAE). 2007. ASHRAE Standard 52.2, Method of testing general ventilation air cleaning devices fo

34、r removal efficiency by particle size. Atlanta, GA: ASHRAE. American Society of Testing Materials (ASTM). (2001). ASTM F1471-93(2001) Standard test method for air cleaning performance of a high-efficiency particulate air-filter system. West Conshohocken, PA: ASTM. The European Parliament and of the

35、Council of 2009. 2009. EN15695-2 Agricultural tractors and self-propelled sprayers Protection of the operator (driver) against hazardous substances Part 2: Filters, requirements and test procedures The European Parliament and of the Council of 2009. 2009. EN1822 Method of Testing High Efficiency Filters (Note: this standard and ISO 29463-1 are very similar in specification.)