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The U.S. Department of Defense, as well as architects, mechanical engineers and food service consultants who design commercial kitchens, will be the primary users of a proposed new standard, WK25126 , Specification for Recirculating Hood System for Cooking Appliances. WK25126 is being developed by Subcommittee F26.07 on Commercial Kitchen Ventilation, part of ASTM International Committee F26 on…, ASTM Committee F26 Next Meeting:, April 20-21 , April Committee Week, St. Louis, Mo., Technical Contact:, Richard Swierczyna, Architectural Energy Corp., Wood Dale, Ill., Phone: 630-860-1439, rswierczyna@archenergy.com, ASTM Staff Contact:, Christine DeJong, Phone: 610-832-9736, cdejong@astm.org, ASTM PR Contact:, Barbara Schindler, Phone: 610-832-9603; bschindl@astm.org Release #844 4/Dec2009
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ASTM International Committee F26 on Food Service Equipment will hold a free webinar on operating costs of food service equipment on Sept. 17 from 2 to 3:30 p.m. EST. Based on the ASTM standard F2687 , Practice for Life Cycle Cost Analysis of Commercial Food Service Equipment, the webinar will focus on the two new free tools that have been developed by food industry experts to project the total…
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ASTM International Committee E29 on Particle and Spray Characterization has recently approved an extensive revision of ASTM standard E11 , Specification for Wire Cloth and Sieves for Testing Purposes. The revision will lead to better control of the quality of sieve cloths and test sieves. ASTM E11 is under the jurisdiction of Subcommittee E29.01 on Sieves, Sieving Methods and Screening Media.…
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Requests from industry to develop a standard practice for determining the total cost of ownership for commercial food service equipment have led to the formation of F26.05 on Life Cycle Cost, a subcommittee of ASTM International Committee F26 on Food Service Equipment. “An industry standard for analyzing the life cost of commercial food service equipment is needed to help the industry address…
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Plastic pipe and components are used with low pressure oxygen and enriched air for a variety of applications, including medical and healthcare, agriculture (fish farming), welding and fabrication, waste water treatment and others. Despite this widespread use, there are currently no standards that help in the materials selection and design features of these systems. ASTM International Committee…
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A pair of new ASTM International standards developed by ASTM International Committee F26 on Food Service Equipment will be used to replace U.S. Department of Defense military standards. Subcommittee F26.04 on Mechanical Preparation Equipment developed the standards, F 2645 , Specification for Bun Slicing Machines, and F 2646 , Specification for Bread Slicing Machines. According to Richard…
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The heating performance and energy consumption of commercial radiant patio heaters is the subject of a new ASTM International standard. F 2644 , Test Method for Performance of Commercial Patio Heaters, was developed by Subcommittee F26.06 on Energy and Productivity Protocols, which is part of ASTM International Committee F26 on Food Service Equipment. The new standard was originally developed…
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Standards developed by ASTM International Committee F26 on Food Service Equipment are playing an increasingly important role in the industry. F26 standards figure prominently in the Environmental Protection Agency’s Energy Star program, which helps businesses and individuals protect the environment and save money through superior energy efficiency. In addition, F26 has developed a mutually…
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Sieve manufacturers produce testing sieves using various sizes of wire cloth, per ASTM International standard E 11, Specification for Wire Cloth and Sieves for Testing Purposes. They also use ASTM standards E 161, Specification for Precision Electroformed Sieves, and E 323, Specification for Perforated-Plate Sieves for Testing Purposes when producing sieves from perforated plate. These…
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ASTM International Committee G04 on Compatibility and Sensitivity of Materials in Oxygen Enriched Atmospheres originally developed the standard, G 88, Guide for Designing Systems for Oxygen Service, in 1984. Since that time, G 88 has been regarded as one of the leading design guides for oxygen systems throughout all industries that use oxygen. While the original version of the standard contained…