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Figure 111 Psychrometric chart for draw-through air conditioning process
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The point de ned by these two differential values can be plotted on the chart, as shown The validity of this point must be veri ed, based on the cooling coil capability and the AHU arrangement, as discussed in Sec 36 For a draw-through arrangement (ie, with the supply fan downstream of the cooling coil), the supply air temperature will be greater than the coil leaving temperature because of heat added by fan work For this example, if 5 hp is required, the temperature difference (TD) will be TD 5 hp 2545 Btu 1 hp h 1 5555 ft3 /min F 21 F (113)
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1 h (ft3 /min) 108 Btu
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Then a coil leaving condition of 559 F db and 555 F wb can be plotted, and this will probably be valid For a blow-through arrangement, the fan work causes an increase in the mixed-air temperature before the air goes through the cooling coil, and the process will be as shown in Fig 112 In this case, it will be necessary to increase the supply air TD to 22 F to get a valid coil leaving condition
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Downloaded from Digital Engineering Library @ McGraw-Hill (wwwdigitalengineeringlibrarycom) Copyright 2004 The McGraw-Hill Companies All rights reserved Any use is subject to the Terms of Use as given at the website
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Equipment: Part 3 Equipment: Part 3 369
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Figure 112 Psychrometric chart for blow-through air conditioning process
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Humidity control is not always required, but some upper limit will be inherent in any refrigeration-type cooling process chilled water, brine, or direct expansion Supply air-handling equipment may be classi ed in several different ways: 1 Type or arrangement The ve basic arrangements are singlezone, multi-zone, double-duct, variable air volume (VAV), and induction 2 Package versus built-up Package equipment is factory-assembled, and when it is installed, it requires only connections for utilities and ductwork The term built-up implies that most of or all the components are eld-assembled and installed 3 Self-contained A self-contained system includes internal thermal energy generation 4 Central station and terminal units Central station equipment is remote from and delivers air through ductwork to the conditioned space Terminal units are installed in or adjacent to the conditioned space Terminal units are used in conjunction with central station equipment
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Downloaded from Digital Engineering Library @ McGraw-Hill (wwwdigitalengineeringlibrarycom) Copyright 2004 The McGraw-Hill Companies All rights reserved Any use is subject to the Terms of Use as given at the website
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Equipment: Part 3 370 Eleven
Exhaust systems may serve a single space or multiple spaces, and may include heat recovery, special ltration, and other special equipment 112 AHU System Arrangements
Air conditioning practice includes only ve basic AHU arrangements, although there are many variations on these basic concepts Singlezone and VAV systems have similar, even identical, physical arrangements but use different control strategies Multizone and double-duct systems are similar in arrangement and concept but are different enough to be considered separately Induction systems are unique
1121 Single-zone AHU
A single-zone AHU is intended to serve only one room, or a group of rooms which are contiguous and which have similar load and exposure characteristics The maximum area served by a single-zone AHU should not exceed 10,000 ft2 The typical single-zone AHU arrangement is shown in Fig 113 This is a draw-through system, with the heating coil in the preheat position to protect the cooling coil from freezing air The system is controlled as explained in Sec 852 It is important to sequence the operation of the control valves to avoid simultaneous heating and cooling When one or more of the rooms served by a single-zone AHU has a load characteristic different from the other rooms, zone reheat must be provided by means of coils in the zone branch ducts (Fig 114), by radiation, or by fan-coil units Because reheat is potentially energywasteful, it may be preferable to use a different type of AHU, as described below
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