| Official Course Description:
MCCCD Approval: 02/26/02 |
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HVA210 20024-20035
| LEC
| 3 Credit(s)
| 3 Period(s)
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Facilities Air Conditioning Systems
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Fundamental principles of air conditioning including all-air, all-water
(hydronic) and air-water combination systems. Overview of the physical
principles, including air distribution systems and heating and cooling load
calculation. System components and application theory for boilers,
chillers, pumps, fans, and cooling towers. Theory and application of
central air conditioning systems, air cleaning and humidification devices,
pressure boosting, heat storage, expansion and pressurization equipment.
Properties of water, pressure distribution in hydronic systems, flow in
pipes, pressure drop/head loss, pump applications and pressurization of
open and closed hydronic systems. Fundamentals of low and high temperature
water systems. Prerequisites: (FAC/HVA101, ELC/FAC/HVA105, FAC/HVA110, and
ELC/FAC/HVA115) or permission of department. Corequisites: FAC/HVA210LL or
permission of department.
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| Cross-References:
FAC210
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| 1.
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Identify the abbreviations used to describe the temperature ranges for
heating and cooling systems. (I)
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| 2.
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Convert between the United States customary system (USCS) and the
International Systems (SI) of units measurement. (II)
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| 3.
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List the four environmental conditions controlled by an air
conditioning system. (III)
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| 4.
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Describe the types of zoned air conditioning systems and
characteristics of all-water and air-water systems. (IV)
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| 5.
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Describe the components and their function of a forced air system (V)
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| 6.
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Explain the units of measurements related to air and the use of
specific measuring equipment. (V)
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| 7.
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Determine the amount of cooling or heat required to keep rooms in a
building within their temperature specifications. (VI, VII)
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| 8.
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Identify the variable properties of air using the psychometric chart.
(VIII)
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| 9.
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Determine mixed air conditions, required supply air conditions, and
reheat requirements using the psychometric chart. (VIII)
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| 10.
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Distinguish between different types of commercial fans and select a
fan using manufacturer fan curves. (IX)
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| 11.
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Describe the operation of chilled-water air conditioning systems. (X)
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| 12.
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State the type of compressors and refrigerants used with high-pressure
water chillers (X)
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| 13.
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Explain the purge system used on low-pressure refrigerants. (X)
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| 14.
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State the relationship of cooling capacity of the water tower and the
wet-bulb temperature of the outside air. (XI)
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| 15.
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Describe and calculate the properties of water for specific
conditions. (XII)
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| 16.
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Calculate pressure distribution in hydronic systems. (XIII)
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| 17.
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Calculate fluid flow, pressure loss, and head loss in pipes. (XIV, XV)
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| 18.
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Describe pump operating characteristics and evaluate pump performance.
(XVI)
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| 19.
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Describe the process for pressurization of a closed hydronic system.
(XVII)
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| 20.
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Describe expansion and pressurization equipment and determine correct
tank size. (XVII)
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| 21.
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Describe the process for pressurization and pressure boosting of open
hydronic systems. (XVIII)
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| 22.
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Describe the basic features of warm air furnaces and heating boilers.
(XIX)
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| 23.
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Describe the function of the operating and safety controls for
furnaces and boilers. (XIX)
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| 24.
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Calculate specific applications for heat storage. (XX)
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| 25.
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Explain specific types of terminal users (units) and evaluate coil
performance. (XXI)
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| 26.
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Describe the theory and components related to automatic control.
(XXII)
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| 27.
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Explain specific types of distribution systems and calculate constant
and variable volume. (XXIII)
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| 28.
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Compare and contrast constant volume to variable volume of chilled
water systems. (XXIII)
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| 29.
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Describe the operating temperature and pressures for high and low
temperature water systems. (XXIV)
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| 30.
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Describe the procedure for interconnections of dual temperature
systems. (XXV)
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