A manufacturer conducted an experiment for an evaporator capacity 543 kW cooling and designed for high COP of 2.0 when u
Posted: Mon May 02, 2022 2:53 pm
A manufacturer conducted an experiment for an evaporator
capacity 543 kW cooling and designed for high COP of 2.0 when using
lithium bromide plus water in an absorption refrigeration system.
The evaporator operates 20 C, condenser 40 C & absorber 45 C
supplying 1.4 kg/s of water plus lithium bromide solution to the
generator. For a condenser size of 611 kW, determine:
Heat provided by the generator & absorber capacity in kW
(equating overall heat balance of all heat exchanger).
Show in the Solution Paper: Heat provided by the generator
Provide in the Answer Box: Absorber Capacity in kW
Answer in two decimal places
capacity 543 kW cooling and designed for high COP of 2.0 when using
lithium bromide plus water in an absorption refrigeration system.
The evaporator operates 20 C, condenser 40 C & absorber 45 C
supplying 1.4 kg/s of water plus lithium bromide solution to the
generator. For a condenser size of 611 kW, determine:
Heat provided by the generator & absorber capacity in kW
(equating overall heat balance of all heat exchanger).
Show in the Solution Paper: Heat provided by the generator
Provide in the Answer Box: Absorber Capacity in kW
Answer in two decimal places