electric fan

Introduction

CODEP International, Inc.

Mechanical devices that move air and other gases are essential to human comfort and safety and to some industrial processes. Broadly speaking they are of three types. Fans deliver large amounts of air or gas at low pressure, blowers have high rates of delivery at medium pressure, and compressors deliver at high pressure. Electric fans have a motor that moves blades that are attached to a central rotating hub. Other common power sources for fans include internal-combustion engines and steam or gas turbines.

Fans circulate air to cool and ventilate rooms and to control humidity. Heating, ventilating, and air-conditioning systems of all sizes use fans to move air through ducts, coils, filters, and building spaces. Fans exhaust heat, odors, smoke, and noxious, corrosive, or flammable vapors from enclosed areas. They cool motors, transmissions, and industrial products. Fans are also employed for drying and for blowing light materials from one place to another.

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Electric fans have a motor that turns a shaft on which there is an impeller. The turning impeller creates air pressure, causing air flow. If the fan moves air in the same direction as its shaft, it is axial flow. Propeller fans are axial flow. If the fan blows air in a sunburst pattern, or radially, around its shaft, it is centrifugal. There are also mixed-flow fans. They move air in a combined axial and radial direction.

Axial-Flow Fans

The simplest and most familiar axial-flow fan is the freestanding vertically mounted propeller fan used in the home for cooling and ventilation. An open wire enclosure surrounds the blades for safety. Often such fans turn slowly from side to side, widening coverage. The hassock fan is a propeller type mounted horizontally in an open cylindrical enclosure. The ceiling fan with three or four unenclosed horizontal blades at the end of a ceiling-mounted shaft cools rooms in summer and in winter recirculates warm air at the ceiling to save energy.

Wall- or roof-mounted propeller fans exhaust odors from residential kitchens and bathrooms to the outdoors. Larger units remove heat, gases, and odors from commercial spaces such as restaurant kitchens or factories. The enclosures of these exhaust fans often have shutters on the exterior that seal tightly to prevent leakage when the fan is not in use. Since exhaust fans remove much heated or cooled air from buildings, they waste energy. The ductless fan, which is an energy-saving alternative for homes, circulates odor-laden air through a short open-ended tube containing a filter. The air is purified but without changing its temperature.

Most propeller fans develop low air pressures only. Axial-flow fans with short blades squared off at the tip, and a cylindrical housing equipped with a set of guide vanes to direct air flow, are called vaneaxial fans. Singly, or in multiple stages, they can develop higher pressures. Controllable-pitch fans have blades that can be adjusted when the fan is operating or at rest. Changing blade pitch varies the volume and pressure of the air moved.

Centrifugal Fans

Widely used in larger heating, ventilating, and air-conditioning sytems, especially in industry, centrifugal fans move considerable volumes of air over a wide range of pressures. Centrifugal fans are classified according to blade arrangement as radial, airfoil, and forward curved. Radial centrifugal fans have a scroll-shaped housing with a circular inlet at the center and a circular impeller with straight blades arranged like the petals of a daisy. The impeller throws air outward against the interior of the housing. The air exhausts through a volute, or outlet.

Airfoil centrifugal fans have housing, inlet, and exhaust similar to those of radial centrifugal fans, but their 10 to 16 blades are shaped like airplane wings (airfoils) and curved away from the direction of rotation. They are arranged like the blades of a paddlewheel boat.

Forward-curved centrifugal fans, usually smaller, slower, and less efficient than other centrifugal fans, have 24 to 64 shallow blades with both the heel and the tip curved forward. Housing, inlet, exhaust, and blade arrangement resemble the airfoil.

Fans at Work

Fans normally form part—the most important part—of systems that move or condition air. Typical components of such systems include devices called coils that heat or cool air; those that add or remove moisture; filters to trap dust, bacteria, and odors; pipes called ducts that carry air; and flow-regulating devices such as dampers, shutters, and vanes.

Fans are located in systems according to their intended functions. Supply fans, for example, bring in air and must be placed so that air flows through them to the space. Exhaust fans belong at the other end of the airstream. If a fan supplies several spaces at once, it is centrally located. Otherwise flow rates to different spaces will vary, and the fan will operate inefficiently, wasting energy.

In designing systems, engineers account for the temperature of the air that the fan will be moving. Cool air is denser than hot air. This affects fan performance and efficiency.

The way that air flows toward a fan is important to efficiency. If the entire airstream moves at uniform speed, for example, all portions of the fan do equal work, and efficiency is maximum. If air speed is uneven, however, the work is unequally distributed, and efficiency is less. This problem is often solved by placing a length of straight duct at the fan intake. The duct smooths the air flow. Providing clean filters in ductwork also contributes to greater efficiency.