AIR CONDITIONING SYSTEM
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CONSTRUCTION
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A Global Inner-fin Condenser (GIC) is provided. This condenser has tubes with high-density inner fins, and outer fins which allow the use of thinner cores, contributing to the efficiency of cooling performance.
Figure 1. Except Models with Dual Air Layer Type Air Conditioning Unit for RHD
*1 Inner Fin Tube *2 Outer Fin *3 Fin Louver - - *a A - A Cross Section - - Figure 2. Models with Dual Air Layer Type Air Conditioning Unit for RHD
*1 Inner Fin Tube *2 Outer Fin *3 Fin Louver - - *a A - A Cross Section - - -
The cooler condenser assembly consists of 2 cooling portions: a condensing portion and a super-cooling portion. These portions are integrated with a gas-liquid separator (modulator). This cooler condenser assembly uses a sub-cool cycle that offers excellent heat-exchange performance.
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In the sub-cool cycle, after the refrigerant passes through the condensing portion of the condenser, both the liquid refrigerant and the gaseous refrigerant that could not be liquefied are cooled again in the super-cooling portion. Thus, the refrigerant is sent to the evaporator in an almost completely liquefied state.
Figure 3. Except Models with Dual Air Layer Type Air Conditioning Unit for RHD
*a Gaseous Refrigerant *b Liquid Refrigerant *c Condensing Portion *d Modulator *e Cooler Dryer *f Filter *g Super-cooling Portion - - Figure 4. Models with Dual Air Layer Type Air Conditioning Unit for RHD
*a Gaseous Refrigerant *b Liquid Refrigerant *c Condensing Portion *d Modulator *e Cooler Dryer *f Filter *g Super-cooling Portion - -
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