Jump to content
Click here to check out this guide.

FAQs | Repair Videos | Academy | Newsletter | Contact


Search the Community

Showing results for tags 'r600a '.

  • Search By Tags

    Type tags separated by commas.
  • Search By Author

Content Type


Forums

  • Appliantology Welcome Center
    • Site Orientation
    • Announcements
  • Professional Appliance Technician Forums
    • Appliance Repair Tech Forum
    • Master Samurai Tech Workshops
    • Samurai's Appliance Repair Video Classroom
    • Samurai’s Appliance Puzzles
    • The Dojo
  • Appliance Service Manual Requests
    • Appliance Service Manual Requests Forum
  • Appliance Repair Trade Resources
    • Looking for a Tech
    • Looking for a Job
    • Appliance Repair B2B Resources
  • DIYer Appliance Repair Forums
    • DIY Appliance Repair Help
    • Appliance Haikus

Blogs

  • Samurai Appliance Repair Man's Blog
  • kdog's Blog
  • Mrs. Samurai's Kitchen
  • DurhamAppliance's Blog
  • applianceman97's Blog
  • LI-NY Tech's Blog
  • tpoindexter's Blog
  • Eugene's blog about stores, fixing, life, and more!
  • Appliance Repair Tech Tips
  • Koi Guy's Amazing Compendium of Timeless Appliantological Wisdom
  • Rhubarb Tau's Sloggy Vlog Blog Bog

Categories

  • Appliance Repair Manual Stash Access File®
  • Appliance Repair Manual Pot Luck Supper

Find results in...

Find results that contain...


Date Created

  • Start

    End


Last Updated

  • Start

    End


Filter by number of...

Found 4 results

  1. Version 1.0.0

    24 downloads

    The use of hydrocarbon (HC) refrigerants R600a (isobutane) and R290 (propane) for replacements for HCFC’s and HFC’s continues around the globe. R600a and R290 have ozone depletion potential (ODP) factors of zero (0.0) and a fraction of the global warming potential of those refrigerants they are intended to replace. Both have acceptable toxicity levels; however, both are flammable. Neither of these refrigerants are “drop-in” replacements for HCFC’s or HFC’s. There are significant differences between R600a and R290, and the non-HC refrigerants that must be considered in handling, processing and application. These guidelines are offered to help understand these differences.
  2. Tecumseh Guidelines for Utilization of R600A and R290 View File The use of hydrocarbon (HC) refrigerants R600a (isobutane) and R290 (propane) for replacements for HCFC’s and HFC’s continues around the globe. R600a and R290 have ozone depletion potential (ODP) factors of zero (0.0) and a fraction of the global warming potential of those refrigerants they are intended to replace. Both have acceptable toxicity levels; however, both are flammable. Neither of these refrigerants are “drop-in” replacements for HCFC’s or HFC’s. There are significant differences between R600a and R290, and the non-HC refrigerants that must be considered in handling, processing and application. These guidelines are offered to help understand these differences. Submitter Samurai Appliance Repair Man Submitted 09/08/2017 Category Appliance Repair Manual Pot Luck Supper  
  3. Version 1.0.0

    17 downloads

    Abstract: Cooling capacities and other parameters were determined for a refrigeration cycle operating between temperature limits of -25oC (evaporator temperature) and 42oC (condenser temperature). The refrigerants used in the refrigeration cycle analysis were R134a and R290/R600a. Compressor capacity of 125W, degree of subcooling of 9K and degree of superheating of 15K were maintained for refrigeration cycles using R134a and a binary mixture of R290/R600a (50% each by mass). Parameters such as refrigerating capacity, mass flow rate, compression work, condenser capacity and Coefficient Of Performance (COP) were computed for each refrigeration cycle. Flow rate of R134a is higher than that of R290/R600a which indicates its low evaporative specific heat. The cooling capacity of R134a (376.41W) is higher than that of R290/R600a (338.11W). COP of the cycle using R134a is 3.01 which is higher than that of R290/R600a. Suction and discharge pressures of the two refrigerants are fairly close. The analysis showed that cooling capacities of the two refrigerants are close enough and are therefore proposed as substitutes in existing R12 refrigeration systems. Keywords: Refrigeration Cycle, R134a, R290/R600a, Cooling Capacities, Binary Refrigerants
  4. Comparison of Cooling Parameters of R134a and R290/R600a View File Abstract: Cooling capacities and other parameters were determined for a refrigeration cycle operating between temperature limits of -25oC (evaporator temperature) and 42oC (condenser temperature). The refrigerants used in the refrigeration cycle analysis were R134a and R290/R600a. Compressor capacity of 125W, degree of subcooling of 9K and degree of superheating of 15K were maintained for refrigeration cycles using R134a and a binary mixture of R290/R600a (50% each by mass). Parameters such as refrigerating capacity, mass flow rate, compression work, condenser capacity and Coefficient Of Performance (COP) were computed for each refrigeration cycle. Flow rate of R134a is higher than that of R290/R600a which indicates its low evaporative specific heat. The cooling capacity of R134a (376.41W) is higher than that of R290/R600a (338.11W). COP of the cycle using R134a is 3.01 which is higher than that of R290/R600a. Suction and discharge pressures of the two refrigerants are fairly close. The analysis showed that cooling capacities of the two refrigerants are close enough and are therefore proposed as substitutes in existing R12 refrigeration systems. Keywords: Refrigeration Cycle, R134a, R290/R600a, Cooling Capacities, Binary Refrigerants Submitter Samurai Appliance Repair Man Submitted 09/08/2017 Category Appliance Repair Manual Pot Luck Supper  
×
×
  • Create New...