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Course: DIV 2, Fall 2009School: UT MD Anderson Cancer...
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Project MDACC No. XX-XXXX A/E Name A/E Project No. MDACC PROJECT NAME Issue Description Month, 00, 0000 SECTION 23 73 24 CUSTOM AIR HANDLING UNITS WITH FAN ARRAY SYSTEMS GENERAL 0.1 RELATED DOCUMENTS A. Drawings and general provisions of the Contract, including General and Supplementary Conditions and Division 01 Specification Sections, apply to this Section. B. Specifications throughout all Divisions of the...
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Project MDACC No. XX-XXXX A/E Name A/E Project No.
MDACC PROJECT NAME Issue Description Month, 00, 0000
SECTION 23 73 24 CUSTOM AIR HANDLING UNITS WITH FAN ARRAY SYSTEMS GENERAL 0.1 RELATED DOCUMENTS A. Drawings and general provisions of the Contract, including General and Supplementary Conditions and Division 01 Specification Sections, apply to this Section. B. Specifications throughout all Divisions of the Project Manual are directly applicable to this Section, and this Section is directly applicable to them. 0.2 SUMMARY A. Perform all Work required to provide and install factory assembled, custom-built air handling units, including factory installed fans, dampers, filters, coils, motors and any specialty equipment as indicated by the Contract Documents with supplementary items necessary for proper installation. B. This Specification applies to all air handling equipment scheduled with over 20,000 cfm capacity and for special applications as scheduled on the Drawings. 0.3 REFERENCE STANDARDS A. The latest published edition of a reference shall be applicable to this Project unless identified by a specific edition date. B. All reference amendments adopted prior to the effective date of this Contract shall be applicable to this Project. C. All materials, installation and workmanship shall comply with the applicable requirements and standards addressed within the following references: 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. AFBMA 9 - Load Ratings and Fatigue Life for Ball Bearings. AFBMA 11 - Load Ratings and Fatigue Life for Roller Bearings. AMCA 99 - Standards Handbook. AMCA 210 - Laboratory Methods of Testing Fans for Rating Purposes. AMCA 300 - Test Code for Sound Rating Air Moving Devices. AMCA 301 - Method of Publishing Sound Ratings for Air Moving Devices. AMCA 500 - Test Methods for Louver, Dampers, and Shutters. ARI 410 - Forced-Circulation Air-Cooling and Air-Heating Coils. ARI 610 - Central System Humidifiers. NEMA MG1 - Motors and Generators. NFPA 70 - National Electrical Code.
The University of Texas M. D. Anderson Cancer Center MS040209
CUSTOM AIR HANDLING UNITS WITH FAN ARRAY SYSTEMS 23 73 24 1 OF 23
MDACC Project No. XX-XXXX A/E Name A/E Project No. 12. 13. 14. 15. NFPA 90A - Flame Spread and Smoke Ratings.
MDACC PROJECT NAME Issue Description Month, 00, 0000
SMACNA - HVAC Duct Construction Standards - Metal and Flexible. UL 900 - Test Performance of Air Filter Units. ANSI/ASHRAE/IESNA Standard 90.1 Energy Standard for Buildings Except Low Rise Residential Buildings. 0.4 QUALITY ASSURANCE A. Manufacturer Qualifications: Company specializing in manufacturing the products specified in this Section with minimum three (3) years documented experience, who issues complete catalog data on total product. 0.5 SUBMITTALS A. Product Data Record Documents:
1.
Provide literature that indicates dimensions, weights, capacities, ratings, fan performance, gages and finishes of materials, electrical characteristics and connection requirements. Refer to detailed list of submittal data in this Section. Provide data of filter media, filter performance data, filter assembly and filter frames as tested and certified per ASHRAE and NFPA 90 flame spread and smoke rating standards. All materials shall have NFPA 90 rating of 25/50 or better. Provide fan curves with specified operating point clearly plotted, as tested and certified per AMCA standards. Ratings to include system effects. Bare fan ratings will not satisfy this requirement but shall be submitted for comparison purposes. All fan array data shall be generated from specified testing. The fan array shall compare favorably with the scheduled data listed in the Drawings. Hagen's Line plots on fan curves are to be provide for fans operating in parallel, to prove that fans will not be operating in the unstable region. Submit sound power level data for both fan outlet and casing radiation at rated capacity, as tested and certified per AMCA standards. Unit manufacturer shall submit full sound performance data to the Project sound consultant for evaluation. Unit shall be finally configured so as not to exceed sound levels as scheduled on Contract Documents. Provide data on all coils as tested and certified per ARI standards. Submit electrical requirements for power supply wiring including wiring diagrams for interlock and control wiring, clearly indicating factory-installed and field-installed wiring. Base Rail Height Calculations: Provide calculations for required base rail heights to allow for proper condensate trapping per condensate drain details. B. Operation and Maintenance Data:
2.
3.
4.
5. 6. 7.
1. 2.
Include instructions for lubrication, filter replacement, motor and drive replacement, spare parts lists and wiring diagrams. Provide Operating and Maintenance (O&M) Manuals for air handling units. In addition to a full set of manuals with closeout documentation, each unit shall ship with its own manual permanently mounted inside the unit casing fan array section in a watertight enclosure.
The University of Texas M. D. Anderson Cancer Center MS040209
CUSTOM AIR HANDLING UNITS WITH FAN ARRAY SYSTEMS 23 73 24 2 OF 23
MDACC Project No. XX-XXXX A/E Name A/E Project No. 3. 4. to Start-up. 0.6 DELIVERY, STORAGE AND HANDLING
MDACC PROJECT NAME Issue Description Month, 00, 0000
Permanently mount condensate trapping calculation instructions within the unit O&M Manual that illustrates the unit casing at the condensate drain connection. Manufacturer's Instructions: Provide Start-up information and maintenance required prior
A. Deliver, store, protect and handle products to the Project Site under provisions of Division 01 and Division 20. B. Accept products on site in factory-fabricated protective containers, with factory-installed shipping skids and lifting lugs. Inspect for damage. C. Store in clean dry place and protect from weather and construction traffic. Handle carefully to avoid damage to components, enclosures, and finish. D. Protect openings in casing and seal them with plastic wrap to keep dirt and debris, also protect coils from entry of dirt and debris with pipe caps or plugs. 0.7 EXTRA MATERIALS A. Provide [one] [two] additional sets of specified filters for each unit, packaged for storage after each unit has been tested and operated for final acceptance by Owner. Tag products to identify associated unit. 0.8 SCHEDULES ON DRAWINGS A. In general, all capacities of equipment and motor and starter characteristics are shown in schedules on the Drawings. Reference shall be made to the schedules for such information. The capacities shown are minimum capacities. Variations in the capacities of the scheduled equipment supplied under this contract will be permitted only with the written direction of the Owner. B. Insofar as is possible, all items of the same type (i.e., coils, fans, etc.) shall be by the same manufacturer. C. Where installation instructions are not included in the Contract Documents, the manufacturers instructions shall be followed. D. Motor and wheel diameters shown on the AHU schedules are the maximum If a larger wheel diameter or horsepower is required, it shall be so quoted and noted on evaluation forms in this section. PART 2 - PRODUCTS 0.1 GENERAL A. All materials shall meet or exceed all applicable referenced standards, federal, state and local requirements, and conform to codes and ordinances of authorities having jurisdiction. B. Configuration: Fabricate with fan array and coil sections plus accessories as indicated on the Drawings, including but not limited to: 1. Preheat coil. The University of Texas M. D. Anderson Cancer Center MS040209 CUSTOM AIR HANDLING UNITS WITH FAN ARRAY SYSTEMS 23 73 24 3 OF 23
MDACC Project No. XX-XXXX A/E Name A/E Project No. 2. 3. 4. 5. 6. 7. 8. 9. Heating coil. Mixing box section. Applicable pre-filter and final filter sections. Cooling coil section. Humidifier section. Motors and variable frequency drives. Access doors. Dampers.
MDACC PROJECT NAME Issue Description Month, 00, 0000
C. Base performance on sea level conditions, unless otherwise scheduled. D. Fabrication: Conform to AMCA 99 in the absence of direction in this Specification. E. Performance: Refer to schedule in Drawings. F. Provide a unit with a total footprint size (length and width) that will not exceed the one shown on the Drawings, including the height of individual unit components. G. Dual duct units shall have separate hot deck and cold deck fan arrays. H. Units shall be a draw-through configuration. 0.2 MANUFACTURERS A. Huntair / Temtrol B. Or accepted substitution. C. Equipment as supplied by any of the acceptable manufacturers or an approved equivalent shall comply with all provisions of the specification. 0.3 UNIT CASING, FRAME, AND GENERAL CONSTRUCTION A. Unit Casing: 1. The casing shall consist of double wall panels, and also have reinforced construction with sufficient internal welded steel structure frame and bracing to prevent excessive deflection of the casing panels.. Exterior walls minimum 16-gage G-90 galvanized steel. Internal insulation shall be minimum R-value of 12 and fire and fungus proof. Protect all internal insulation with solid galvanized sheet metal inner panels of minimum 18-gage G-90 galvanized steel. All sheet metal joints throughout the air-handling unit and between panelized sections shall be gasketed with closed cell, soft rubber gaskets, fabricated from neoprene, EPDM or other approved material.
2. 3. 4. 5.
The University of Texas M. D. Anderson Cancer Center MS040209
CUSTOM AIR HANDLING UNITS WITH FAN ARRAY SYSTEMS 23 73 24 4 OF 23
MDACC Project No. XX-XXXX A/E Name A/E Project No. 6. 7. 8.
MDACC PROJECT NAME Issue Description Month, 00, 0000
Where the air unit casing encloses the building columns, provide airtight enclosure. Leakage rate will not exceed that allowed for the unit casing. Maximum deflection at any point on the unit casing shall be limited to 1/200th of the overall panel width or height. Provide a thermal break between exterior panel and frame to ensure an air-tight fit. Configure casing assembly to eliminate all through-metal portions of the unit so that there will be no external condensation. Panel surfaces shall be non-condensing per ASTM D 4230, Measuring Humidity with Cooled Surface Condensation. B. Drain Pans:
9.
1. 2. 3. 4.
Provide IAQ style drain pan under the entire cooling coil section, which is in compliance with ASHRAE Standard 62. Drain pan shall extend minimum 24 inches downstream of the cooling coil section. Construct drain pan of Type 304 stainless steel; minimum 14-gage on 100 percent outside air handling units and minimum 16-gage on 30 percent and higher recirculation air handling units. Insulate the under side of the entire drain pan with two part sprayed on polyurethane closed cell foam with a minimum of R-14 insulation value. Insulation shall be water impervious rigid type, after curing, and shall occupy all voids and areas between drain pan and outer wall to prevent the occurrence of trapped water, condensation, and microbial growth. Install and seal insulation as is appropriate for the equipment construction. Slope drain pan in all planes to the drain connection to prevent accumulation of standing water. On units over ten (10) feet in width, slope pan to drain on both sides of the unit. Condensate from drain pans shall be piped as indicated on the Drawings. The pipe size shall be 1-inch minimum diameter, insulated as specified for chilled water piping. A trap as required to prevent the escape or entry of air through the drain piping shall be provided as indicated on the Drawings. Provide an insulated intermediate drain pan for all coils above another coil, factory piped to main drain pan. Drain pans shall be sloped and constructed of 16 gage Type 304 stainless steel to match the main drain pan and shall be extended 6 inches from the coil face. C. Base and Floor:
5. 6.
7.
1. 2. 3. 4. 5.
Construct each unit section on a structural base that supports all major components (i.e., fan arrays, coils, etc.). Support with structural steel members. Complete perimeter channel base shall be minimum 6 inches galvanized steel. Select base rail size appropriate to the drain trap depth. Fabricate base of electrically welded structural steel members. Use welding procedures and welders certified for structural steel welding according to AWS D1.1. Base and structural members shall be G120 galvanized steel. Unit floor material thickness is 11-gage, aluminum tread plate insulated with foam insulation equivalent to R-12 or greater. The flooring shall be secured to structural members below. No penetrations through the floor skin shall be acceptable. The University of Texas M. D. Anderson Cancer Center MS040209 CUSTOM AIR HANDLING UNITS WITH FAN ARRAY SYSTEMS 23 73 24 5 OF 23
MDACC Project No. XX-XXXX A/E Name A/E Project No. 6. 7.
MDACC PROJECT NAME Issue Description Month, 00, 0000
A 20-gage galvanized sheet shall enclose the insulation on the bottom of the unit. All points of contact between the floor, vapor barrier and structure shall be thermally isolated with closed-cell soft rubber or EPDM. The soft rubber or EPDM shall be either resistant UV or protected from UV. Neoprene pads shall be located between the support base and the concrete pad to keep the support base from directly contacting the concrete pad. The neoprene pads are to be provided by the manufacturer. D. Access Doors:
8.
1.
Provide access doors to allow access to both sides (upstream and downstream) of filters support frames. Access doors shall be capable of opening full 90 degree swing with allowance to preclude the door from opening into and causing damage to coil, filter bank, etc, or opening out and interfering and causing damage to insulation on the piping connection to a coil. Design Engineer shall determine if the following option is required: (Provide air lock access to both the (upstream and downstream) of the fan array section, and cooling coil section.) The air lock must be large enough to allow for the exchange of fan assemblies and components while preventing the infiltration of unconditioned air or the loss of supply air flow to the respective air conditioned spaces. Each fan/motor cube is designed for quick replacement of the fan/motor assembly, and capable of passing through a minimum 30 inch wide, access door located on the discharge side of the fan wall array. Access doors are double wall, insulated the same as wall panels, and the opening framed with thermal break construction. Door size must be at least 18 inches wide and full panel height up to 72-inch tall units. For units above 72 inches tall, provide, 72-inch high doors. For panels over 36 inches wide, provide 36inch wide doors. Access door construction shall equal or exceed the quality of air handler casing materials as specified herein. Each door has a minimum 8-inch by 6-inch double glazed view port window, capable of withstanding the total developed pressure of the unit. View port windows on access doors to sections shall be made of glass to block UV rays where UV lamps are located. Doors are hinged using a heavy-duty adjustable stainless steel butt hinges, continuous adjustable stainless steel piano hinge, extending along the entire edge of the door, except for a maximum of 2-inches at each end or CAD plated aluminum fully adjustable in 2 axis. If butt hinges are used, provide two (2) per door for up to 36-inch high doors and three (3) per door for taller doors. Provide minimum of two (2) latches on doors taller than 18 inches and three (3) latches on doors over 36 inches long. Latches shall be Ventlok 310, heavy-duty latch. All access doors open against positive air pressure, unless they are the outer doors of the air lock entrances or approved by the Owner in writing. E. Rigging Performance Requirements:
2.
3. 4.
5. 6.
7.
8.
1. 2.
Provide units that include lifting lugs and are suitable for rigging without requiring additional support frames or rails. Provide units that may be lifted without permanent deformation to the housing, base or internal components. The University of Texas M. D. Anderson Cancer Center MS040209 CUSTOM AIR HANDLING UNITS WITH FAN ARRAY SYSTEMS 23 73 24 6 OF 23
MDACC Project No. XX-XXXX A/E Name A/E Project No. 3. 0.4 Indicate physical balance point on unit bases. FANS AND RELATED COMPONENTS
MDACC PROJECT NAME Issue Description Month, 00, 0000
A. Fans and Motors:Fan Array System: The fan array system shall consist of multiple, direct driven, arrangement 4 plenum fan constructed per AMCA requirements for the duty specified, (Class I, II or III). All fans shall be selected to deliver the specified airflow quantity at the specified operating total static pressure and specified motor speed. The fan wall array shall be selected to operate at a system total static pressure that does not exceed 90% of the specified fans peak static pressure producing capability at the specified fan/motor speed. Each fan/motor cube shall include an 11 gage; A60 galvanized steel motor support plate and structure. The fan air inlet cone, and motor support structure shall be powered coated for corrosion resistance. All motors are standard T-frame pedestal mounted type, (TEFC), selected at the specified operating voltage, rpm, and efficiency as specified or as scheduled elsewhere. All motors are to be compatible for inverter duty, and include isolated bearing or shaft grounding. To ease the replacement of the assembled fan/motor, the motor must not to exceed the nominal rating of 10 horsepower. 1. Manufacturers must submit acoustical data for review and approval prior to bid indicating the proposed alternate equipment can meet all specified performance requirements. Proposals submitted which indicate a higher connected fan horsepower than specified or scheduled will not be accepted. Multiple Fan/Motor VFD Control: The fan array shall consist of multiple fan and motor cubes, spaced in the air way tunnel cross section to provide uniform airflow and velocity profile across the entire airway tunnel section and components contained therein. Each individual fan motor and VFD(s) shall be individually wired to a power disconnect. Each VFD using a smart power module shall be driven by a master/slave control scheme and shall be provided with a redundant VFD in the event of a master VFD failure. The manufacturer furnishes a spare VFD of the same make and model as the VFD(s) being used to power the array of fans or a bank of array fans. The VFD(s) and one spare VFD shall be furnished by the AHU manufacturer and shall be protected though a hard wired interlock to allow only one VFD to be energized at a time. Refer to Specification Section 23 05 13 Variable Frequency Drives for requirements. Circuitries for VFD fault /failures, VFD master enable, VFD slave enable, single fan failure or trip conditions are provided by the manufacturer for connecting with the Owners building automated system (BAS) for control and monitoring purposes. Connection to the Owners existing BAS shall be accomplished though hard wire inputs and outputs. Gateway / Interfaces are not allowed. See Fan Array component panel requirements. The fan array shall produce a uniform airflow and velocity profile within the airway tunnel of the air handling unit not to exceed the specified cooling coil and filter bank face velocity when measured 12 inches from the intake side of the fan array intake plenum wall and at a distance of 48 inches from the discharge side of the fan array intake plenum wall. Each fan/motor cube is equipped with a metal grating fan outlet guard. The manufacture of the array is responsible to determine if the addition of vibration isolators are required to meet the vibration requirements within this specification. Each fan array shall also include motor removal rail located on the discharge side of the fan array. The rail shall span the full internal width of the unit. Each fan array shall be provided with a blank off panel to isolate the inlet side of the fan/ motor cube that is on standby or being removed from the fan array. Function is to prevent air bypass through a fan cube when not in operation. One upstream blankoff plate per Fan Array will be provided. The University of Texas M. D. Anderson Cancer Center MS040209 CUSTOM AIR HANDLING UNITS WITH FAN ARRAY SYSTEMS 23 73 24 7 OF 23
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5. 6.
7.
MDACC Project No. XX-XXXX A/E Name A/E Project No. 8.
MDACC PROJECT NAME Issue Description Month, 00, 0000
Each fan array shall include at least one fan assembly with a complete airflow measuring station to indicate airflow in CFM. The flow measuring system shall consist of a flow measuring station with static pressure taps and total pressure tubes located at the fan inlet cone. The flow measuring station shall provide an analog to digital CFM readout using a 4-20ma or 0-10 volt output control signal for use in the BAS. The manufacturer shall provide a complete spare fan/motor assembly with each one for each type of assembly provided on the project.. Plug Fan (PF) SWSI Minimum Class II Fans: single width single inlet arrangement 4 as indicated on the Drawings. Fan wheel has a minimum of 12 blades made from extruded aluminum as a hollow airfoil in shape, and welded to the center and wheel side plates. The fan Inlet cone is made from spun aluminum material. Fan wheel shall be keyed to the shaft. Fans shall be both dynamically and statically balanced. Dynamic fan wheel balancing shall be conducted from 16 Hz to 66Hz to identify and eliminate critical speeds to ensure stable operation through the entire operating range. Each individual fan/motor assembly shall be dynamically balanced to meet AMCA standard 204-96, category BV-5, to meet or exceed Grade 2.5 residual unbalance. Fans shall be rated in accordance with AMCA 210 for performance and AMCA 300 for sound. Fan motors are premium efficiency and compatible for inverter duty per Section 20 05 13. The manufacturer shall provide a complete spare fan/motor assembly for emergency replacement, B. Bearings:
9. 10.
11.
12. 13. 14.
1. 2.
Antifriction type, either ball or roller, lubricated at the factory and extended lubrication lines where necessary to achieve bearing lubrication or solid silicon nitride (ceramic) bearings. Catalogued type as manufactured by Fafnir, SKF, NTN or Sealmaster; bearings shall be stocked locally. L-10 minimum life of 200,000 hours (direct drive application). Grease fittings for bearings shall be remotely mounted within line of sight of the bearing, where possible. Where line of sight is not feasible, then the fitting shall be mounted with an extended lubrication where it is most easily accessible for service. Stainless steel tubing is used for the remote grease fitting. If the motors are equipped with more efficient solid silicon nitride (ceramic) ball bearings, then lubrication lines are not required. 0.5 COIL SECTION A. Coil Casing:
3. 4.
1. 2.
Coil casing shall comply with requirements for general construction. Coil casing reinforcements shall be furnished so that the unsupported casing length is not over 60 inches. Reinforcements shall be of the same material as coil casing.
The University of Texas M. D. Anderson Cancer Center MS040209
CUSTOM AIR HANDLING UNITS WITH FAN ARRAY SYSTEMS 23 73 24 8 OF 23
MDACC Project No. XX-XXXX A/E Name A/E Project No. 3.
MDACC PROJECT NAME Issue Description Month, 00, 0000
Coils shall be individually removable by means of a coil rack. The coil support rack shall not be used to provide structural stability for the coil casing. Coil support racks for chilled water coils are to be made of Type 304 stainless steel materials. Coil support racks for hot water coils are to be made of A-36 carbon steel materials. The assembled carbon steel frames are to be coated with hot dipped galvanized material. Coils shall be factory pre-piped and completely enclosed within the coil casing. All penetrations of the coil casing shall be neatly sealed at the factory using a resilient sealant appropriate for the service temperature. Access doors as specified herein shall be provided for each space between coils, filters, and other components. B. Chilled and Hot Water Coils:
4. 5. 6.
1.
Water coil capacities, pressure drops and selection procedures shall be certified for the capacity scheduled in accordance with ARI Standard 410-87. Non-certified coils will not be accepted. The cooling coil face velocity shall not exceed 500 FPM. Maximum water pressure drop through coil shall not exceed 20 feet and maximum velocity in tubes shall not exceed 8 feet per second. a. 1) Chilled Water Coils: Extended surface type meeting all conditions and having the minimum face area and pressure drops scheduled on the Drawings. Same-end supply and return connections unless otherwise indicated. Coils shall be constructed of copper tubes 5/8-inch [1/2-inch] outside diameter with 0.035-inch thick minimum wall thickness and copper fins permanently bonded to the tubes by mechanical expansion. Chilled water coils scheduled as Copper finned shall have a maximum of eight (8) fins per inch and a maximum of six (6) rows. If additional capacity is necessary, provide an additional coil, with a separate access section between the coils. The coils shall be piped in series, counterflow to the direction of airflow. Copper fins on plate coils shall be 0.006 inch thick. Chilled water coils scheduled as Aluminum finned shall have a maximum of nine (9) fins per inch and a maximum of six (6) rows. If additional capacity is necessary, provide an additional coil, with a separate access section between the coils. The coils shall be piped in series, counterflow to the direction of airflow. Aluminum fins on plate coils shall be 0.006 inch thick. Hot Water Coils: 1) Extended surface type meeting all conditions and having the minimum face area and pressure drops scheduled on the Drawings. Same-end supply and return connections unless otherwise indicated. Coils shall be constructed of copper tubes 5/8-inch outside diameter with 0.035-inch thick minimum wall thickness and aluminum fins permanently bonded to the tubes by mechanical expansion. Aluminum fin thickness shall be .008 inches; if the hot water coil is used for outside air freeze protection the fins shall be copper with a fin thickness of .006 inches.
2)
3)
4)
b.
2)
The University of Texas M. D. Anderson Cancer Center MS040209
CUSTOM AIR HANDLING UNITS WITH FAN ARRAY SYSTEMS 23 73 24 9 OF 23
MDACC Project No. XX-XXXX A/E Name A/E Project No. 3)
MDACC PROJECT NAME Issue Description Month, 00, 0000
Coils shall have a maximum of eight (8) fins per inch and a maximum of six (6) rows. If additional capacity is necessary, provide an additional coil with a separate access section between the coils. The coils shall be piped in series, counterflow to the direction of airflow.
2.
Coil headers and connections shall be of I.P.S. brass or heavy gage seamless hard drawn copper tubing with penetrations for connection of core tubing by die-formed intrusion process with resulting contact depth between the header wall and core tubing of not less than 0.090 inches. Joints between core tubing and header shall be of recess swage design to allow a large mating area for build up of brazing materials to give increased strength to the joint. Supply and return connection of brass or copper shall be terminated with brass flange connections. Each coil section shall be provided with a Type 304 stainless steel frame/casing, including tube sheets, minimum 16-gage. Frame members shall extend over the ends and edges of the coils and shall be constructed with formed holes for tubes, permitting free expansion and contraction of coil sections while supported by an extended surface of the frame. Intermediate tube support sheets of Type 304 stainless steel shall be provided in all coils having tube lengths in excess of 48 inches. On long coil sections the spacing of coil supports shall not exceed 48 inches. All intermediate supports shall be welded to coil frame members and fabricated with formed tube holes to support the penetrating tubes. Coils shall be leak tested with air pressure under water at 325 psig, and shall be designed for operation at pressures on indicated the Drawings. Maximum working pressure classification is 300 psig. Submit certification of leak test and certification that coils are suitable for testing at pressures of 450 psig at 100 degrees F. Provide stainless steel nameplate on each coil indicating: manufacturer, model number, coil designation, coil medium, coil test pressure, coil maximum operating temperature and pressure. 0.6 FILTER SECTION: A. Refer to Section 23 40 00 Filters, and Drawings for additional requirements. B. Filters shall have a maximum width of 24 inches. C. Side Access Housings:
3.
4.
1. 2.
Fabricate of not less than 16-gage galvanized steel. Housings shall each be equipped with hinged access doors at both ends, provision for receiving filters of any manufacturer without alteration to the housings and extruded aluminum channels capable of receiving both the after filters and 2-inch deep panel type prefilters. Housings shall incorporate a permanent provision for sealing filters against leakage around the entire perimeter of each filter, eliminating the need to purchase replacement filters with factory applied gasket strips. Replaceable woven pile seals shall be an integral component of the downstream flange of each extrusion so that the seals are compressed by the pressure drop across the filters, preventing bypass of unfiltered air. Housings shall not exceed 21 inches in direction of airflow and shall be of all welded construction with factory prepunched standing flanges for ease of attachment to adjacent equipment and/ or ductwork. Doors are to be fitted with positive sealing, heavy duty multiple latches and with sponge neoprene gaskets.
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4.
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6.
The University of Texas M. D. Anderson Cancer Center MS040209
CUSTOM AIR HANDLING UNITS WITH FAN ARRAY SYSTEMS 23 73 24 10 OF 23
MDACC Project No. XX-XXXX A/E Name A/E Project No.
MDACC PROJECT NAME Issue Description Month, 00, 0000
D. Unitary front access holding frames shall be fabricated of not less than 16-gage galvanized steel with holes prepunched for convenient assembly into banks. Frames shall be a minimum of 2-5/8 inches deep for maximum structural strength and resistance to racking. All joints in the field-assembled banks of frames shall be thoroughly caulked to prevent bypass of unfiltered air between frames and surrounding ductwork or plenum chambers. Frames shall each be fitted with polyurethane foam gaskets, held in place by long lasting adhesive and with a minimum of four heavy-duty spring type fasteners. Fasteners shall attach to the frames without requiring tools and shall be capable of withstanding 25 pounds of pressure without deflection. E. Housing for disposable carbon panels shall be of modular design with each module designed to hold four (4) carbon panels and four (4) 1-inch type C filters in V shape. Each module shall also be designed to accommodate one 4-inch Type C filter downstream of the four carbon panels and the four Type C filters. Housing shall include all necessary hardware to mount panels and filters. F. Frames for filters with efficiencies greater than 95 percent shall be constructed of not less than 14-gage galvanized steel construction, factory fabricated and assembled. Where the size of the filter bank is larger than can be fabricated in a single unit, the manufacturer shall provide modules to minimize the number of field joints. 0.7 DAMPERS A. Mixing Box Section or Air Inlet Section: 1. Factory built, field mounted, outside air damper shall be Type 304 stainless steel and edge seals in stainless steel frame, with stainless steel axles in self-lubricating synthetic bearings. Return or supply air dampers of heavy gauge extruded aluminum constructed frame and airfoil blades with galvanized steel tube axles, and self-lubricating nylon beargins. Opposed blade arrangement with damper blades positioned across short air opening dimension. 3. Provide removable, full width rack for supporting freeze protection thermostat, with removable end panel to permit rack removal. B. Damper Leakage: 1. 2. 0.8 Maximum 4.0 cfm per square foot at 4-inches w.g. differential pressure. Dampers shall be sized for maximum 2000 FPM face velocity. VAV DUAL DUCT SECTION A. Cold and Hot Decks: Arrange the cold and hot decks to provide maximum recovery of fan discharge velocity head and to ensure uniform airflow across the faces of the cooling and heating coils. 1. 2. Balancing Plates: If required provide perforated balancing plates as required to ensure balanced airway resistance between hot and cold air pathways within the unit. Integral Air Passages: a. Construct air passages and ducts so as to direct air streams from the heating and cooling coils separately with minimum friction loss as possible within the constraints of the allowable dimensions of the air handling units casing. CUSTOM AIR HANDLING UNITS WITH FAN ARRAY SYSTEMS 23 73 24 11 OF 23
2.
The University of Texas M. D. Anderson Cancer Center MS040209
MDACC Project No. XX-XXXX A/E Name A/E Project No. b. 3.
MDACC PROJECT NAME Issue Description Month, 00, 0000
Insulate partitions common to both hot and cold air passages and seal the partition airtight.
Damper Section: a. b. c. 0.9 Provide opposed-blade, interlocking dampers of heavy gage steel, pivoted on their longitudinal axes in nylon bearings. Arrange hot and cold air dampers for opposed action and secure to shafts. Face areas of damper sets will be in proportion to the indicated zone air quantities.
AIR HANDLING UNIT SPECIALTIES A. Steam Grid Humidifiers: Refer to Section 23 84 13. The humidifier section shall be designed and constructed to meet the same criteria as the rest of the air handling unit sections. The humidifier section length shall be as specified on Drawings. [ Note to engineer, if humidifier option is not listed on the equipment schedule then remove this humidifier requirement specialty item. ] B. Variable Frequency Drives (VFD):
1. 2. 3. 4.
Refer to Section 23 05 13. Where indicated on Drawings, furnish as a part of the unit assembly, with drive matched to motor without noise or vibration over the entire operating range. All motors with VFDs shall be compatible with the VFD and tested at the factory. Drives shall be erected on wall where shown on Drawings with support from floor. C. Ultra Violet Germicidal Irradiation Systems:
1.
Where scheduled on the Drawings, provide factory installed Ultra Violet (UV) Germicidal Irradiation lamps. Lamps shall provide a minimum irradiance of 9 Watts per square foot or 96.54 Joules per square meter at the cooling coil surface and at the coil leaving air temperature scheduled on the Drawings. UV lamps shall be located: a. b. c. Downstream of cooling coils. Above condensate drain pans. Up-stream of final filtration sections.
2.
3. 4. 5. 6.
Lamps and ballasts shall be UL listed for application in air handling systems. Lighting systems shall be moisture resistant with electronic ballasts and shall be wired using moisture resistant conduit. UV Light fixtures shall be capable of being switched on and off at the respective AHU section access door. Lamps shall be interlocked with access door position limit switches such that they are deenergize when the doors open. The University of Texas M. D. Anderson Cancer Center MS040209 CUSTOM AIR HANDLING UNITS WITH FAN ARRAY SYSTEMS 23 73 24 12 OF 23
MDACC Project No. XX-XXXX A/E Name A/E Project No. 7. 8. 9. 10.
MDACC PROJECT NAME Issue Description Month, 00, 0000
Lamps shall be installed on a stainless steel grid using stainless steel fasteners in accordance with the manufacturers installation instructions. Units with view port windows from which the lamps can be seen. All access shall be labeled to warn of possible eye damage. Replacement lamps for UV systems shall be standard types which are not proprietary and are available from multiple sources. All penetrations through AHU walls shall be thoroughly sealed to ensure no leakage. All UV susceptible materials in the AHU shall be shielded from line of sight UV. Installer shall remove all foreign matter such as dirt, metal shavings, etc... upon completion of installation. 0.10 SOUND CHARACTERISTICS A. Conduct sound tests at the unit manufacturers test facility under AMCA Guidelines and Conditions. B. Provide sound power level test procedures and data for each unit under scheduled operating pressures. C. The air handling unit sound power levels must not exceed the following criteria sound power levels scheduled on Drawings. D. [Note to Engineer: The sound power levels provided in the following table must be carefully examined for each unit on each project. This table represents a starting point only for coordination between the acoustics specialist and the unit manufacturer.] Location 125 250 500 HZ HZ HZ Units from 10,000-15,000 cfm (Where specifically applicable) Inlet 84 83 81 81 79 Outlet 91 91 84 92 88 Casing 71 85 77 77 66 Units from 15,001-25,000 cfm (Where specifically applicable) Inlet 85 84 86 80 80 Outlet 93 94 90 92 92 Casing 72 84 81 78 68 Units from 25,001-35,000 cfm Inlet 87 84 92 87 83 Outlet 94 92 95 97 92 Casing 73 83 85 78 66 Units from 35,001-45,000 cfm Inlet 93 94 96 90 89 Outlet 95 97 95 96 95 Casing 78 92 88 83 73 Units from 45,001-55,000 cfm Inlet 84 101 97 83 77 Outlet 95 98 98 95 94 Casing 77 94 90 80 68 Units from 55,001-65,000 cfm Inlet 89 92 97 88 87 Outlet 98 103 103 98 96 The University of Texas M. D. Anderson Cancer Center MS040209 Average 63 HZ 1K HZ 78 86 60 81 89 62 81 87 59 89 89 66 75 89 60 84 92 2K HZ 77 80 54 78 82 56 78 82 54 82 82 57 68 80 55 77 90 4K HZ 75 76 51 74 79 53 77 79 52 76 80 53 65 76 53 71 78 8K HZ 73 72 48 67 74 48 73 74 48 72 75 49 64 92 49 68 74
CUSTOM AIR HANDLING UNITS WITH FAN ARRAY SYSTEMS 23 73 24 13 OF 23
MDACC Project No. XX-XXXX A/E Name A/E Project No. Location Average 63 HZ 125 HZ 92 102 102 91 99 103 92 250 HZ 81 95 95 78 85 97 79 500 HZ 71 93 93 66 81 94 67 1K HZ 64 89 89 59 78 90 60
MDACC PROJECT NAME Issue Description Month, 00, 0000 2K HZ 59 86 86 55 70 86 55 4K HZ 49 83 83 53 68 84 54 8K HZ 46 78 78 49 68 79 50
Casing 78 93 Units from 65,001-75,000 cfm Inlet 95 100 Outlet 95 100 Casing 77 96 Units from 75,001-larger cfm Inlet 87 105 Outlet 96 102 Casing 79 99 0.11
FAN ARRAY COMPONENT PANEL REQUIREMENTS A. The AHU component panel shall be designed and constructed to meet the functional intent as follows:
1.
Design of the Component Panel General: a. b. c. d. e. f. g. h. i. j. Compliance with all applicable codes and regulations. DDC or PLC controllers shall not be utilized. Short circuit and over current protection shall be manually reset. All safeties, relays, and field wiring shall be fail-safe. Provide electrical disconnect means for each fan in the fan array. Current sensors shall be split core with LED indicator and field adjustable per fan. Plug in pin relays with status LED shall be provided. Provide Push to Test lamp push button. Panduit or equivalent shall be utilized for panel wiring. Termination strips, contactors, relays, current sensors, switches, and any other apparatus shall be labeled in approved manner as deemed by the Owner.
2.
Design of the Component Panel VFD: a. b. The variable frequency drive LCD displays and H-O-A switch(es) and shall be readily accessible. The variable frequency drive H-O-A switches in the Hand position shall activate all required HVAC apparatus (e.g. outside air damper, isolation damper, etc) The VFD shall start the fan array after apparatus permissive interlocks and safeties are in an acceptable state.
The University of Texas M. D. Anderson Cancer Center MS040209
CUSTOM AIR HANDLING UNITS WITH FAN ARRAY SYSTEMS 23 73 24 14 OF 23
MDACC Project No. XX-XXXX A/E Name A/E Project No. c.
MDACC PROJECT NAME Issue Description Month, 00, 0000
The variable frequency drive H-O-A switch(es) on the VFD in the Auto position shall start and stop the VFD through the BAS. The VFD shall activate all required HVAC apparatus (e.g. outside air damper, isolation damper, etc) The VFD shall start the fan array after apparatus position indications and safeties are in an acceptable state.
3.
Design of the Component Panel Termination Strip: a. A termination strip shall be provided in accordance with Division 26 life safety field wiring. This termination strip shall have an AHU shutdown, supply smoke, and return smoke input terminals. The life safety shutdown relay shall be wired in series to theses terminals. Division 26 shall supply, install, and wire field devices including installing a jumper wire for any life safety terminals not utilized in the project. An indication light mounted in the component panel door shall display the life safety relay status. A termination strip shall be provided in accordance with Division 25 HVAC safety field wiring. This termination strip shall have a high static pressure and coil freeze protection safety input terminals. The equipment safety shutdown relay shall be wired in series to theses terminals. Division 25 shall supply, install, and wire the high static safety and freeze protection devices to the terminal strip, including installing a jumper wire for any HVAC safety terminals not utilized in the project. An indication light mounted in the component panel door shall display the HVAC safety relay status. High static safety and freeze protection status outputs shall be provided in the component panel for the BAS. A termination strip shall be provided for Division 25 BAS field control wiring. This termination strip shall have but not limited to a VFD Start/stop input, VFD speed input, VFD speed feedback output, VFD fault output, VFD control apparatus outputs and inputs. Division 25 shall supply, install and wire to the terminal strip the VFD control apparatus outputs and inputs (e.g. damper end switches, actuators and dampers not supplied with the AHU). Each fan motor in the fan array shall have a current sensor wired to the BAS field wiring terminal strip. Division 25 shall series all current sensor at the termination strip to create one BAS fan status input or series specific fans as necessary to comply with the sequence of operation.
b.
c.
d.
4.
Functional Intent of the Component Panel a. The component panel functional intent is manual operation of the fan array which is independent from the building automation system and automated control for the VFD by the building automation system. The component panel shall provide all life safety and HVAC equipment safeties AHU shutdown interlocks wired to termination blocks. The component panel shall be designed using only ladder logic hard wired methods and shall not execute any programmed logic specified in the sequence of operation which cannot be submitted in a ladder wiring diagram. The component panel shall provide all relevant inputs and outputs necessary for the building automation system to execute the specified sequence of operation. Coordinate component panel design with Division 25. Submit best design for owner approval prior to construction of component panel. Laminate final approved as-built ladder wiring diagram and mount inside component panel door.
b.
The University of Texas M. D. Anderson Cancer Center MS040209
CUSTOM AIR HANDLING UNITS WITH FAN ARRAY SYSTEMS 23 73 24 15 OF 23
MDACC Project No. XX-XXXX A/E Name A/E Project No. 0.12 ELECTRICAL PROVISIONS
MDACC PROJECT NAME Issue Description Month, 00, 0000
A. Fan motors shall be factory mounted and wired to an external disconnect switch within sight of the motor access door. Fan motors shall be interlocked with fan access door to shut down fan when door is opened. B. Disconnect switches and starters shall be mounted independent of the unit to allow for maintenance access and access to AHU components. Locate disconnect switches within close proximity and sight of the electrical component. Interlock fan motor starters with a position limit switch located at the fan section access door. The limit switch shall de-energize the fan motor or other electrical components when the access door is opened. C. Provide moisture proof, two-lamp linear fluorescent light fixtures with electronic ballasts manufactured by Lithonia DM 232 M Volt, and water proof GFI convenience outlets inside sections before and after coil; before filter, at fan and before silencer compartments. Light fixtures in each air handling unit compartment shall be independently switched. Wire lights and outlets to two external 120V, 20A power connections (one for each service) for connection by Division 26. Fixtures and lamps shall comply with Division 26 requirements. D. All wiring shall be 600V rated type MTW/THWN #12 stranded copper in EMT or LiquidTite conduit (maximum three feet). All junction boxes shall be UL approved and gasketed. All conduits installed on the floor inside air handling units shall be rigid steel with steel fittings and diecast boxes. All EMT conduit and fittings on unit walls and ceiling shall be steel, watertight type. E. Provide flexible connection to motor; 36-inch maximum length. F. Conduit penetrations shall not represent through-metal contact. Penetrations shall be made and sealed before unit factory testing. G. Any control wiring being intalled by the contractor or installed by the manufacture needs to shielded. PART 3 - EXECUTION 0.1 INSTALLATION A. Installation shall meet or exceed all applicable federal, state and local requirements, referenced standards and conform to codes and ordinances of authorities having jurisdiction. B. All installation shall be in accordance with manufacturers published recommendations. C. Install in conformance with ARI 435. D. Install factory assembled unit on vibration isolators, where fans are not internally isolated. Refer to Section 20 05 48. E. Do not operate units for any purpose, temporary or permanent, until ductwork is clean, filters are in place, bearings have been lubricated, and fan array has been test run under observation of the Owner's representative(s).
The University of Texas M. D. Anderson Cancer Center MS040209
CUSTOM AIR HANDLING UNITS WITH FAN ARRAY SYSTEMS 23 73 24 16 OF 23
MDACC Project No. XX-XXXX A/E Name A/E Project No.
MDACC PROJECT NAME Issue Description Month, 00, 0000
F. Provide the minimum access space sections for maintenance of individual components such as fans, filters, coils, humidifiers, etc., as scheduled or shown on the Drawings. Arrange these components in a manner that allows for ease of replacement. Provide a plenum section downstream of the cooling coil with sufficient width to contain all the moisture carryover from the cooling coils, before it reaches the next air handler component (such as filters, sound attenuators, etc.). G. Arrange fans and surrounding components in such a way that poor fan performance does not result. H. It is the manufacturer's responsibility to verify opening dimensions and installation methods to ensure unit sections and components can be physically installed into the designated space. 1. The manufacturer has the responsibility to transport sections to the Project Site and to supervise reassembling the sections together for all air handlers. Unload and hoist the sections onto the designated floor space. Reassemble the sections together for all air handlers in their footprint under the direction of the manufacturer. Additional unit section or component splits required for installation during construction shall be the responsibility of the manufacturer without additional cost to the Owner. Units must be bolted together for reassembly. Drive screw construction at unit splits is unacceptable. 5. 6. All internal coil piping shall be extended to casing walls. The unit manufacturer shall provide a written acceptance letter to MDACC stating the unit was assembled and complies with manufacturers assembly requirements. I. Support coil sections independent of piping on steel channel or double angle frames and secure to casings. Provide frames for maximum three coil sections. Arrange supports to avoid piercing drain pains. Provide airtight seal between coil and duct or casing. J. Protect coils to prevent damage to fins and flanges. Comb out bent fins.
2. 3. 4.
K. Install cleanable tube coils with 1:50 pitch. L. Make connections to coils with unions and flanges. M. On water coils, provide shut-off valve on supply line and lockshield balancing valve on return line. Locate water supply at bottom of supply header and return water connection at top. Provide float operated automatic air vents at high points complete with stop valve. Ensure water coils are drainable and provide drain connection at low points. N. On water heating coils and chilled water-cooling coils, connect water supply to leaving airside of coil (counterflow arrangement). O. In steam coils, install vacuum breaker in steam line at header. Install steam traps with outlet minimum 12 inches below coil return connection. Install dirt leg in steam supply. P. Insulate headers located outside airflow as specified for piping. Refer to Section 20 07 19. Q. Ensure sufficient space between coil sections for installation of control devices.
The University of Texas M. D. Anderson Cancer Center MS040209
CUSTOM AIR HANDLING UNITS WITH FAN ARRAY SYSTEMS 23 73 24 17 OF 23
MDACC Project No. XX-XXXX A/E Name A/E Project No. 0.2 TESTING
MDACC PROJECT NAME Issue Description Month, 00, 0000
A. Units with cabinet mounted fans shall be tested and certified at rated conditions using AMCA test procedures with fan mounted in the cabinet. Bare fan data will not be accepted. B. With unit set in place, leveled and ready to receive ductwork connections, unit shall be tested for casing leakage by sealing all openings and pressurizing to 2 inches w.g. above unit rating or the rating of attached ductwork or a maximum of 12 inches w.g. Maximum allowable leakage rate is 1 percent of design airflow. C. Test shall be performed by the manufacturer using certified flow measurement devices and shall be witnessed by a representative of the Test and Balance Firm. Demonstrate deflection limit of 1/200th and confirm fan/motor vibration limits. The cost of testing shall be borne by the manufacturer. D. After assembly, fan and motor shall be given an electronic vibration analysis along with the variable frequency drive) either at the air handling unit or VFD manufacturer's factory, while operating over the entire speed range. E. Vibration amplitude and frequency shall be recorded in the horizontal, vertical and axial planes. 1. Maximum allowable variation amplitude is 1.0 mil. Full range of frequencies (500 to 50,000 cycles per minute) shall be scanned to detect misalignment, bearing defects, mechanical looseness or foundation weakness. Each bearing shall be tested. Fans with VFDs shall be checked from 15 percent to 100 percent of the rated speed. "Lock-out" ranges may be used to correct up to two ranges of excess vibration. The span of each "lock-out" range shall be limited to an effective fan speed of 50 RPM. Any "lock-out" ranges used shall be clearly identified in the test report and shall be prominently displayed on a typed, laminated legend mounted inside the VFD controller cabinet. 0.3 AIR HANDLING UNIT SUBMITTAL DATA A. The information for each item listed below must be furnished as part of these shop drawing submittals. Additional data may be submitted on separate sheets. Submit the requested data on the forms provided. Provide data for the air-handling units noted on the Drawings. B. General Data: 1. 2. Air Handling Unit Manufacturer Maximum Exterior Dimensions (Assembled) a. b. c. d. 3. Length (feet) Width (feet) Height (feet) (Attach general arrangement drawing.)
2. 3. 4.
Operating weight (pounds) The University of Texas M. D. Anderson Cancer Center MS040209 CUSTOM AIR HANDLING UNITS WITH FAN ARRAY SYSTEMS 23 73 24 18 OF 23
MDACC Project No. XX-XXXX A/E Name A/E Project No. C. Filters: 1. 2. 3. 4. 5. Manufacturer Type Efficiency (percent) Quantity Pressure Drop a. b. 6. Clean Dirty
MDACC PROJECT NAME Issue Description Month, 00, 0000
(Attach manufacturer's literature.) D. Final Filters:
1. 2. 3. 4. 5.
Manufacturer Type Efficiency (percent) Quantity Pressure Drop a. b. Clean Dirty
6.
(Attach manufacturer's literature.) E. Preheat Coil:
1. 2. 3. 4. 5. 6. 7. 8. 9. 10.
Manufacturer Air Flow (cfm) Face Velocity Air Entering Temperature (degrees F) Air Leaving Temperature (degrees F) Fins per Inch (8 maximum) Rows (6 maximum) Minimum Capacity (Btuh) Rated Capacity (Btuh) Hot Water Flowrate (gpm) The University of Texas M. D. Anderson Cancer Center MS040209 CUSTOM AIR HANDLING UNITS WITH FAN ARRAY SYSTEMS 23 73 24 19 OF 23
MDACC Project No. XX-XXXX A/E Name A/E Project No. 11. 12. 13. 14. 15. 16. 17. 18. 19. Air Pressure Drop (Inches w.g.) Tube Diameter (Inches) Tube Material Fin Height Fin Material Tube Wall Thickness Coil Section Dimensions (Inches) Coil Weight Frame Material E. Fan Sound Power (at design cfm) 1st Octave 2nd Octave 3rd Octave 4th Octave 5th Octave 6th Octave 7th Octave 8th Octave 20. at AHU Inlet _____________ _____________ _____________ _____________ _____________ _____________ _____________ _____________ at AHU Outlet
MDACC PROJECT NAME Issue Description Month, 00, 0000
_____________ _____________ _____________ _____________ _____________ _____________ _____________ _____________
Fan BHP (at design cfm) a. (with clean filters)
21.
Fan BHP (at design cfm) a. (with fully loaded filters)
22. 23. 24. 25. 26. 27.
Motor Horsepower Motor Efficiency (at design cfm) Motor Efficiency (at 50 percent of design) Motor Manufacturer and Model Number Bearing Manufacturer and Model Number Attach Manufacturer's Literature on: a. b. c. d. Fan Fan Curve at full RPM (design cfm) Fan Curve at minimum recommended RPM Motor CUSTOM AIR HANDLING UNITS WITH FAN ARRAY SYSTEMS 23 73 24 20 OF 23
The University of Texas M. D. Anderson Cancer Center MS040209
MDACC Project No. XX-XXXX A/E Name A/E Project No. e. f. g. h. i. Fan Bearings Fan Drive Vibration Isolation cfm vs. Total Unit kW Curve with Clean Filters for Fan
MDACC PROJECT NAME Issue Description Month, 00, 0000
cfm vs. Total Unit kW Curve with Fully Loaded Filters for Fan
F. Cooling Coil: 1. 2. 3. 4. Manufacturer Air Flow (cfm) Face Velocity Air Entering Temperature (degrees F) a. b. 5. Dry Bulb Wet Bulb
Air Leaving Temperature (degrees F) a. b. Dry Bulb Wet Bulb
6. 7. 8. 9. 10. 11. 12. 13. 14. 15. 16. 17. 18. 19.
Fins per Inch (8 Cu, 9 Al maximum) Rows (6 maximum) Minimum Coil Capacity Sensible/Total (Btuh) Rated Coil Capacity (Btuh) Entering Water (gpm) Entering Water Temperature (degrees F) Leaving Water Temperature (degrees F) Water Side Pressure Drop (Feet w.g.) Air Side Pressure Drop (wet) (Inches w.g.) Water Velocity (ft/min) Number of Sections Tube Diameter (Inches) Tube Material Fin Height The University of Texas M. D. Anderson Cancer Center MS040209 CUSTOM AIR HANDLING UNITS WITH FAN ARRAY SYSTEMS 23 73 24 21 OF 23
MDACC Project No. XX-XXXX A/E Name A/E Project No. 20. 21. 22. 23. 24. 25. Fin Material Tube Wall Thickness Coil Section Dimensions (Inches) Coil Weight Frame Material Finish G. Heating Coil: 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. 15. 16. 17. 18. 19. 20. 21. 22. Manufacturer Air Flow (cfm) Face Velocity Air Entering Temperature (degrees F) Air Leaving Temperature (degrees F) Fins per Inch (8 maximum) Rows (2 maximum) Minimum Coil Capacity Sensible/Total (Btuh) Rated Coil Capacity (Btuh) Entering Water (gpm) Entering Water Temperature (degrees F) Leaving Water Temperature (degrees F) Water Side Pressure Drop (Feet w.g.) Air Side Pressure Drop (wet) (Inches w.g.) Water Velocity (ft/min) Number of Sections Tube Diameter (Inches) Tube Material Fin Height Fin Material Tube Wall Thickness Coil Section Dimensions (Inches) The University of Texas M. D. Anderson Cancer Center MS040209
MDACC PROJECT NAME Issue Description Month, 00, 0000
CUSTOM AIR HANDLING UNITS WITH FAN ARRAY SYSTEMS 23 73 24 22 OF 23
MDACC Project No. XX-XXXX A/E Name A/E Project No. 23. 24. 25. Coil Weight Frame Material Finish
MDACC PROJECT NAME Issue Description Month, 00, 0000
END OF SECTION 23 73 24
The University of Texas M. D. Anderson Cancer Center MS040209
CUSTOM AIR HANDLING UNITS WITH FAN ARRAY SYSTEMS 23 73 24 23 OF 23
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UT MD Anderson Cancer Center - DIV - 2
MDACC Project No. XX-XXXX A/E Name A/E Project No. SECTION 23 82 19 FAN COIL UNITSMDACC PROJECT NAME Issue Description Month, 00, 0000PART 1 - GENERAL 0.1 RELATED DOCUMENTS A. Drawings and general provisions of the Contract, including General an
UT MD Anderson Cancer Center - DIV - 2
MDACC Project No. XX-XXXX A/E Name A/E Project No. SECTION 25 08 10 BAS COMMISSIONING - RETROFITMDACC PROJECT NAME Issue Description Month, 00, 0000PART 1 - GENERAL 0.1 RELATED DOCUMENTS A. Drawings and general provisions of the Contract, includ
UT MD Anderson Cancer Center - DIV - 2
MDACC Project No. XX-XXXX A/E Name A/E Project No. SECTION 25 11 09 BAS OPERATOR INTERFACESMDACC PROJECT NAME Issue Description Month, 00, 0000PART 1 - GENERAL 0.1 RELATED DOCUMENTS A. Drawings and general provisions of the Contract, including G
UT MD Anderson Cancer Center - DIV - 2
MDACC Project No. XX-XXXX A/E Name A/E Project No. SECTION 25 14 00 BAS FIELD PANELSMDACC PROJECT NAME Issue Description Month, 00, 0000PART 1 - GENERAL 0.1 RELATED DOCUMENTS A. Drawings and general provisions of the Contract, including General
UT MD Anderson Cancer Center - DIV - 2
MDACC Project No. XX-XXXX A/E Name A/E Project No. SECTION 25 14 10 BAS FIELD PANELS - RETROFITMDACC PROJECT NAME Issue Description Month, 00, 0000PART 1 - GENERAL 0.1 RELATED DOCUMENTS A. Drawings and general provisions of the Contract, includi
UT MD Anderson Cancer Center - DIV - 2
MDACC Project No. XX-XXXX A/E Name A/E Project No. SECTION 25 15 10 BAS SOFTWARE AND PROGRAMMING - RETROFITMDACC PROJECT NAME Issue Description Month, 00, 0000PART 1 - GENERAL 0.1 RELATED DOCUMENTS A. Drawings and general provisions of the Contr
UT MD Anderson Cancer Center - DIV - 2
MDACC Project No. XX-XXXX A/E Name A/E Project No. SECTION 25 30 00 BAS COMMUNICATION DEVICESMDACC PROJECT NAME Issue Description Month, 00, 0000PART 1 - GENERAL 0.1 RELATED DOCUMENTS A. Drawings and general provisions of the Contract, including
UT MD Anderson Cancer Center - DIV - 2
MDACC Project No. XX-XXXX A/E Name A/E Project No. SECTION 25 30 10 BAS COMMUNICATION DEVICES - RETROFITMDACC PROJECT NAME Issue Description Month, 00, 0000PART 1 - GENERAL 0.1 RELATED DOCUMENTS A. Drawings and general provisions of the Contract
UT MD Anderson Cancer Center - DIV - 2
MDACC Project No. XX-XXXX A/E Name A/E Project No. SECTION 26 01 00 - BASIC ELECTRICAL REQUIREMENTS PART 1 GENERAL 0.1 RELATED DOCUMENTSMDACC PROJECT NAME Issue Description Month, 00, 0000A. Drawings and general provisions of the Contract, inclu
UT MD Anderson Cancer Center - DIV - 2
MDACC Project No. XX-XXXX A/E Name A/E Project No. SECTION 26 05 13 CABLE AND TERMINATIONS (MEDIUM VOLTAGE)MDACC PROJECT NAME Issue Description Month, 00, 0000PART 1 - GENERAL 0.1 RELATED DOCUMENTS A. Drawings and general provisions of the Contr
UT MD Anderson Cancer Center - DIV - 2
MDACC Project No. XX-XXXX A/E Name A/E Project No. SECTION 26 05 26 GROUNDINGMDACC PROJECT NAME Issue Description Month, 00, 0000PART 1 - GENERAL 0.1 RELATED DOCUMENTS A. Drawings and general provisions of the Contract, including General and Sup
UT MD Anderson Cancer Center - DIV - 2
MDACC Project No. XX-XXXX A/E Name A/E Project No. SECTION 26 05 33 RACEWAYS, CONDUITS, AND BOXESMDACC PROJECT NAME Issue Description Month, 00, 0000PART 1 - GENERAL 0.1 RELATED DOCUMENTS A. Drawings and general provisions of the Contract, inclu
UT MD Anderson Cancer Center - DIV - 2
MDACC Project No. XX-XXXX A/E Name A/E Project No. SECTION 26 08 00 ELECTRICAL SYSTEMS COMMISSIONING GENERAL 0.1 RELATED DOCUMENTSMDACC PROJECT NAME Issue Description Month, 00, 0000A. Drawings and general provisions of the Contract, including G
UT MD Anderson Cancer Center - DIV - 2
MDACC Project No. XX-XXXX A/E Name A/E Project No. SECTION 26 09 13 POWER STATUS AND MONITORING SYSTEMMDACC PROJECT NAME Issue Description Month, 00, 0000PART 1 - GENERAL 0.1 RELATED DOCUMENTS A. Drawings and general provisions of the Contract,
UT MD Anderson Cancer Center - DIV - 2
MDACC Project No. XX-XXXX A/E Name A/E Project No. SECTION 26 22 13 NON-K-FACTOR DRY-TYPE TRANSFORMERSMDACC PROJECT NAME Issue Description Month, 00, 0000PART 1 - GENERAL 0.1 RELATED DOCUMENTS A. Drawings and general provisions of the Contract,
UT MD Anderson Cancer Center - DIV - 2
MDACC Project No. XX-XXXX A/E Name A/E Project No. SECTION 26 28 13 FUSES, 600 VOLTMDACC PROJECT NAME Issue Description Month, 00, 0000PART 1 - GENERAL 0.1 RELATED DOCUMENTS A. Drawings and general provisions of the Contract, including General a
UT MD Anderson Cancer Center - DIV - 2
MDACC Project No. XX-XXXX A/E Name A/E Project No. SECTION 26 29 14 MOTOR STARTERSMDACC PROJECT NAME Issue Description Month, 00, 0000PART 1 - GENERAL 0.1 RELATED DOCUMENTS A. Drawings and general provisions of the Contract, including General an
UT MD Anderson Cancer Center - DIV - 2
MDACC Project No. XX-XXXX A/E Name A/E Project No. SECTION 26 32 13 PACKAGED ENGINE GENERATOR SYSTEMSMDACC PROJECT NAME Issue Description Month, 00, 0000PART 1 - GENERAL 0.1 RELATED DOCUMENTS A. Drawings and general provisions of the Contract, i
UT MD Anderson Cancer Center - DIV - 2
MDACC Project No. XX-XXXX A/E Name A/E Project No.MDACC PROJECT NAME Issue Description Month, 00, 0000SECTION 27 05 20 COMMON WORK RESULTS FOR COMMUNICATIONS (VENDOR AGREEMENT)PART 1 - GENERAL 0.1 RELATED DOCUMENTS A. Provisions, requirements,
UT MD Anderson Cancer Center - DIV - 2
MDACC Project No. XX-XXXX A/E Name A/E Project No.MDACC PROJECT NAME Issue Description Month, 00, 0000SECTION 27 08 20 ACCEPTANCE OF COMMUNICATIONS COPPER CABLING PART 1 - GENERAL 0.1 RELATED DOCUMENTS A. Drawings and general provisions of the C
UT MD Anderson Cancer Center - DIV - 2
MDACC Project No. XX-XXXX A/E Name A/E Project No. SECTION 27 11 00 COMMUNICATIONS EQUIPMENT ROOM FITTINGSMDACC PROJECT NAME Issue Description Month, 00, 0000PART 1 - GENERAL 0.1 RELATED DOCUMENTS A. Drawings and general provisions of the Contra
UT MD Anderson Cancer Center - DIV - 2
MDACC Project No. XX-XXXX A/E Name A/E Project No. SECTION 32 12 16 HOT MIXED ASPHALT PAVINGMDACC PROJECT NAME Issue Description Month, 00, 0000PART 1 - GENERAL 0.1 RELATED DOCUMENTS A. Drawings and general provisions of the Contract, including
UT MD Anderson Cancer Center - DIV - 2
MDACC Project No. XX-XXXX A/E Name A/E Project No. SECTION 32 13 13 PORTLAND CEMENT CONCRETE PAVINGMDACC PROJECT NAME Issue Description Month, 00, 0000PART 1 - GENERAL 0.1 RELATED DOCUMENTS A. Drawings and general provisions of the Contract, inc
UT MD Anderson Cancer Center - DIV - 2
MDACC Project No. XX-XXXX A/E Name A/E Project No. SECTION 32 31 13 CHAIN LINK FENCES AND GATESMDACC PROJECT NAME Issue Description Month, 00, 0000PART 1 - GENERAL 0.1 RELATED DOCUMENTS A. Drawings and general provisions of the Contract, includi
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Washington - CHEM - 520
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Homework #1Due date: Feb 23, 2009. Show all working for the long answer questions. Work individually, and remember to put your name on your submitted answers. Part A: Short answers and multiple choice. 8. (2pts) Which of the following describe a dis
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How to do well in Chem 455 Recognize that this is a demanding course; budget the time needed. Read the material before class. Ask questions about what you dont understand. Master problem solving! Work all questions and problems in text. (Sta
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ChromatographyENVH 432 (2/23/08)Reading: Chapters 23-25 in Harris, Quantitative Chemical AnalysisChromatography The separation of analytes for individual detection in a complex matrixGC LCSample (extract)ColumnPeaks with area proportional
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AGRI101 IntroductiontoAgricultureDr.MartinStoneAgricultureScience,art,orpracticeofcultivatingsoil producingcrops,andraisinglivestock,andthe preparationandmarketingoftheresulting productsAgricultureHorticulture *mostdiverseandinteresti
Western Kentucky University - AGRI - 101
ByProductsForLivestockFeedingCotton GinCottonCottonseed MealWhole Cotton SeedCottonseed Oil Cottonseed HullsByProductsForLivestockFeedingSoybeans Soybean SeedSoybean ProcessingSoybean HullsSoybean MealSoybean OilByProductsForLiv
Western Kentucky University - AGRI - 101
CaloriesFood measured in calories per gram of foodstuff Carbohydrates have 4 calories per gram Proteins have 4 calories per gram Fats have 9 calories per gramCalories454 grams per pound ~ 30 grams per oz Calculate calories in an 8 OZ glass of m
Western Kentucky University - AGRI - 101
Sheep and Goat Overview An expanding industry in Kentucky Goats growing faster than sheep Partially due to increased ethnic groups in larger cities (Bowling Green*) and Hispanic workers Markets are developing* There are 26 languages spoken at h
Western Kentucky University - AGRI - 101
Food Safety Movement of food around the world makes food safety more difficult. Milk from farm in Michigan to processing plant in Kentucky Beef from farm in Kentucky to instate customers Strawberries from a ranch in Leon, Mexico to U. S. grocery s
Western Kentucky University - AGRI - 101
Dreaming about a big steak?Better know your beef! Cow calf, stocker, feedlotPart of 150 cow WKU beef herdBeef cattle are raised for meat The primary feed for the cows (mothers) is pasture or hay Calves get their main nutrition from their mother
Western Kentucky University - AGRI - 101
Class Rules No ExceptionsSleeping if you must sleep do it in your bed not in this class If you must talk you can: teach the class or be excused to the hall with no return to the class Only people on the first 3 rows are eligible for a grade of A Yo
Western Kentucky University - GEOG - 412
DepartmentofGeographyandGeologyGEOG412/512 GEOSCIENCETECHNICALWRITINGCourse Meets: Summer Session, MTWRF 12:00 - 3:00 pm Room: Room 306 Professor: Dr. David Keeling and Ms DJ Urquhart Email: david.keeling@wku.edu, Phone: 745-4555, or dj.urquhart@wk
Western Kentucky University - GEOG - 500
Geog 500 Geoscience Research Methods Midterm Fall 2006 Submit electronically (david.keeling@wku.edu) or in hard copy no later than October11. Student _Short Answers (there are 6 questions, each worth 15 pts) Be brief yet comprehensive:1. What is
Western Kentucky University - CHAPTER - 2
Western Kentucky University Office of Institutional Research Fall 2003 Majors and 2002/03 Graduates by College and DepartmentCollege: Potter College of Arts, Humanities & Social Sciences Degree Type BACCALAUREATE GRAD 2002/03 N Department ART COLL A
Western Kentucky University - CHAPTER - 2
164.290 State universities recognized - Names - Status of Kentucky State University. (1) The state colleges formerly designated as Eastern Kentucky State College, Morehead State College, Murray State College, Western Kentucky State College, Northern
Western Kentucky University - CHAPTER - 2
164.295 Programs of state universities. The six (6) state universities shall provide: (1) Upon approval of the Council on Postsecondary Education, associate and baccalaureate programs of instruction; (2) Upon approval of the Council on Postsecondary
Western Kentucky University - CHAPTER - 2
164.350 General powers and duties of boards of regents. (1) The government of each of the state universities and the Kentucky Community and Technical College System is vested in its respective board of regents. Each board of regents, when its members
Western Kentucky University - CHAPTER - 2
Western Kentucky University Four-Year Tuition and Campus Enhancement PlanStudent Charges At Public Four-Year Institutions Academic Years 2002/03 and 2003/042002/03 Student Charges 2003/04 Student ChargesNumber of InstitutionsDollar Percent Cha
Western Kentucky University - CHAPTER - 2
III.Term of AppointmentDistinguished University Professors will be appointed for a term of five years. A Distinguished University Professor may apply for additional appointments through the regular selection procedure. IV. Responsibilities Facult
Western Kentucky University - CHAPTER - 2
Western Kentucky University Roster Of Instructional Staff For Academic Terms: Spring 2004, Summer 2004, Fall 2004*Department/School:=Academic Support Division NameALVAREZ, FABIAN [PART TIME]Term Level Section Title(FA U) DENG055C INTRO FRESHMAN
Western Kentucky University - CHAPTER - 2
Academic Program Review, The Office of Provost & Vice President for Academic Affairs, WKUDefining Principles of Academic Program Review1. The primary purpose of the academic program review process is to ensure that quality is an integral component
Western Kentucky University - CHAPTER - 4
WKU Student HandbookSTUDENT COMPLAINT PROCEDURE The student complaint procedure for resolving a complaint concerning a faculty member is outlined below in four steps. Step 1 (Faculty Member) The first step is for the student to discuss the complain
Western Kentucky University - CHAPTER - 4
The University Complaint Committee makes final decisions on student academic complaints that are unresolved at the department or college level. The Committee is chaired by the Associate Vice President for Academic Affairs (non-voting) and consists of
Western Kentucky University - CHAPTER - 4
Western Kentucky UniversityGraduate Studies and Research 2003-2005 CatalogVisit Career Guidance Foundation at http:/www.collegesource.orgCollegeSourceCopyright & Disclaimer InformationCopyright 1994, 1995, 1996, 1997, 1998, 1999, 2000, 2001,
Western Kentucky University - CHAPTER - 4
Western Kentucky University - CHAPTER - 2
Student IT Survey Results - Fall 20021. Gender of Persons Taking SurveyGender of Persons Taking Survey n = 37839% Male Female 61%2. Classification of Persons Taking SurveyClassification of Persons Taking Survey n = 37840% 30% 20% 10% 0%Fre s