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" 41 42 43 44 45 46 47 48 49 Leaving Chilled Water Temperature (°F)

Fig. 38-13 Energy Input as a Function of Leaving Chilled Water Temperature for Double-Effect LiBr Absorption Chiller. Source: York International

Fig. 38-13 Energy Input as a Function of Leaving Chilled Water Temperature for Double-Effect LiBr Absorption Chiller. Source: York International

I I Dilute Solution [3] Refrigerant Vapor [21 Chilled Water

I I Semiconcentrated Solution Refrigerant Liquid | ■ ■: j Cooling Water

I I Concentrated Solution

Refrigerant Vapor—

Primary Separator

Lift Pipe-

High Temp Generator

I I Dilute Solution [3] Refrigerant Vapor [21 Chilled Water

I I Semiconcentrated Solution Refrigerant Liquid | ■ ■: j Cooling Water

I I Concentrated Solution

Refrigerant Vapor—

Primary Separator

Lift Pipe-

High Temp Generator

I-Heat Exchanger Solution

Gas Burner Pump

Double-Effect Absorption Cycle (Cooling)

I I Dilute Solution I I Concentrated Solution

Refrigerant Vapor

[I Refrigerant Vapor Refrigerant Liquid

I I Hot Water

Primary Separator

Lift Pipe

Chilled Water

_Cooling mWater High Temp Generator

I-Heat Exchanger Solution

Gas Burner Pump

Double-Effect Absorption Cycle (Cooling)

Refrigerant Vapor

[I Refrigerant Vapor Refrigerant Liquid

Renewable Energy 101

Renewable Energy 101

Renewable energy is energy that is generated from sunlight, rain, tides, geothermal heat and wind. These sources are naturally and constantly replenished, which is why they are deemed as renewable. The usage of renewable energy sources is very important when considering the sustainability of the existing energy usage of the world. While there is currently an abundance of non-renewable energy sources, such as nuclear fuels, these energy sources are depleting. In addition to being a non-renewable supply, the non-renewable energy sources release emissions into the air, which has an adverse effect on the environment.

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