M2 PRESSWIRE-August 12, 2019-: Automotive Air Conditioning
Market 2019 Size, Growth, Share, Trends, Competitive, Regional Analysis With Global Industry Forecast To 2023
Nowadays, a wide range of 4th generation pure gases and HFO based blends is commercially available worldwide, and they are perfectly suitable to replace "old" HFCs for any application in residential A/C (split and chillers), Commercial and Industrial Refrigeration, Automotive Air Conditioning
The global air conditioning systems market is segmented on the basis of application such as industrial air conditioning, commercial air conditioning, residential air conditioning, and automotive air conditioning
. Increasing use of air conditioning systems in residential setting is estimated to lead the overall market demand with almost 40% of revenue share and is expected to keep its dominant position during the forecast period.
(NYSE: SMP), an automotive replacement parts manufacturer and distributor, has established a joint venture with Foshan Guangdong Automotive Air Conditioning
Comparitive analysis of an automotive air conditioning
systems operating with C[O.sub.2] and R134a.
According to the company, the R134a market in Europe is set to undergo an inevitable decline from 1 January 2017 following regulatory changes affecting fluorinated gases for automotive air conditioning
taking effect on that date.
All new containers of genuine Honeywell Genetron R-134a, a refrigerant widely used in automotive air conditioning
and other applications, now have a barcode label that allows customers to use their mobile phones to immediately verify that they have received genuine Honeywell refrigerant.
Carbon Dioxide as an Alternative Refrigerant for Automotive Air Conditioning
manufactures automotive air conditioning
systems, diesel fuel injections systems and AT control units in Fukuoka and Hiroshima, and DENSO East Japan Corporation manufactures automotive air conditioning
systems in Fukushima.
Among the topics are reducing thermal losses from automotive lubricant circuits during cold start by applying polymer insulation, using numerical simulation to investigate refrigerant maldistribution in the evaporator of an automotive air conditioning
system and to improve the design of the system, evaluating thermal systems in hybrid electric vehicles by simulation, transient fan modeling and effects of blade deformation in a truck cooling fan installation, and using palliative technologies to minimize heating-ventilating-air conditioning loads and their impact on the range of electric vehicles.