Engineering Fundamentals: An Introduction to Engineering, 4th ed.c

13.5 Efficiency 389

The efficiency of motors is a function of load and speed. The electric motor manufacturers pro-

vide performance curves and tables for their products that show, among other information, the

efficiency of the motor.

You find pumps in hydraulic systems, the fuel system of your car, and systems that deliver

water to a city piping network. Pumps are also used in food processing and in petrochemical

plants. The function of a pump is to increase the pressure of a liquid entering the pump. The

pressure rise in the fluid is used to overcome pipe friction and losses in fittings and valves and

to transport the liquid to a higher elevation. Pumps themselves are driven by motors and

engines. The efficiency of a pump is defined by

(13.19)

The efficiency of a pump, at a given operating speed, is a function of flow rate and the pressure

rise (head) of the pump. Manufacturers of pumps provide performance curves or tables that

show, among other performance data, the efficiency of the pump.

Efficiency of Heating, Cooling, and Refrigeration Systems

Before we discuss the efficiency of heating, cooling, and refrigeration systems, let us briefly

explain the main components of these systems and how they operate. We begin with the cool-

ing and refrigeration systems because their designs and operations are similar. Most of today’s

air-conditioning and refrigeration systems are designed according to a vapor – compression cycle.

A schematic diagram of a simple vapor – compression cycle is shown in Figure 13.11. The main

components of the vapor – compression cycle include a condenser, an evaporator, a compressor,

and a throttling device, such as an expansion valve or a capillary tube, as shown in Figure 13.11.

Refrigerant is the fluid that transports thermal energy from the evaporator, where thermal

energy or heat is absorbed, to the condenser, where the thermal energy is ejected to the sur-

roundings. Referring to Figure 13.11, at state 1, the refrigerant exists as a mixture of liquid and

gas. As the refrigerant flows through the evaporator, its phase completely changes to vapor. The

phase change occurs because of the heat transfer from the surroundings to the evaporator and

consequently to the refrigerant. The refrigerant enters the evaporator tube in a liquid /vapor mix-

ture phase at very low temperature and pressure. The temperature of the air surrounding the

evaporator is higher than the temperature of the evaporator, and thus heat transfer occurs from

the surrounding air to the evaporator, changing the refrigerant’s phase into vapor.

efficiency

power input to the fluid by the pump

power input to the pump by the motor

Jacuzzi

Pump

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