1、UFC 4-133-01N 24 February 2005 Including change 4 and 5, 30 July 2007 UNIFIED FACILITIES CRITERIA (UFC) NAVY AIR TRAFFIC CONTROL FACILITIES APPROVED FOR PUBLIC RELEASE; DISTRIBUTION UNLIMITED Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-UFC 4-133-
2、01N 24 February 2005 Including change 4 and 5, 30 July 2007 UNIFIED FACILITIES CRITERIA (UFC) DESIGN: NAVY AIR TRAFFIC CONTROL FACILITIES Any copyrighted material included in this UFC is identified at its point of use. Use of the copyrighted material apart from this UFC must have the permission of t
3、he copyright holder. U.S. ARMY CORPS OF ENGINEERS NAVAL FACILITIES ENGINEERING COMMAND (Preparing Activity) AIR FORCE CIVIL ENGINEER SUPPORT AGENCY Record of Changes (changes are indicated by 1 . /1/) Change No. Date Location 1 7 March 2007 Figure 1, page 38 2 7 March 2007 Paragraph 2.5, page 15 3 2
4、0 June 2007 Editorial corrections throughout. 4 30 July 2007 Paragraph 2-5.3.11 and 2-5.3.12, page 18 5 30 July 2007 Paragraph 2-5.1, page 15 This UFC supersedes MIL-HDBK-1024/1, in part, dated February 1994. Provided by IHSNot for ResaleNo reproduction or networking permitted without license from I
5、HS-,-,-UFC 4-133-01N 24 February 2005 Including change 4 and 5, 30 July 2007 FOREWORD The Unified Facilities Criteria (UFC) system is prescribed by MIL-STD 3007 and provides planning, design, construction, sustainment, restoration, and modernization criteria, and applies to the Military Departments,
6、 the Defense Agencies, and the DoD Field Activities in accordance with USD(AT requirements must be confirmed by Naval Electronics Systems Security Engineering Center (NESSEC). f. Facility and restroom must conform to the UFAS. 2-3.3.1 Windows. Do not provide windows in operations, NTDS/ACDS system,
7、and electronic equipment/maintenance rooms. Provide insulated glazing for noise reduction in administrative areas. See Paragraph 3-6.3.6. 2-3.4 Mechanical Requirements. Design the mechanical system to meet the criteria in Paragraphs 3-4, UFC 3-420-01 Design: Plumbing Systems, and MIL-HDBK 1003/3 Hea
8、ting, Air Conditioning, and Dehumidification Systems. Provide: a. Automatic thermostatic control. b. A four-pipe chilled/hot water distribution system with separate air handlers for each zone or dehumidifying system to work in conjunction with the air conditioning system. c. Capability for future ex
9、pansion of the heating, ventilation, and air conditioning (HVAC) system. Use piping designed for low friction and velocity losses at the maximum flows expected. 2-3.4.1 Air Conditioning. Provide: a. Two parallel piped air-cooled chillers, each designed for 60 percent of the total building-cooling lo
10、ad. Alternate operation of chillers automatically, on a regular basis, when load is less than 60 percent. Consider cold storage to minimize power peaks. Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-UFC 4-133-01N 24 February 2005 Including change 4
11、 and 5, 30 July 2007 10 b. One chilled water circulation pump for each chiller plus a manifold spare pump. Design chiller circuitry so that the pump must operate and water flow before the chiller is energized. The spare pump may be manually operated. Provide secondary chilled water loops with three-
12、way valves at coils in each circuit to result in constant flow through chiller. c. Divide the building into three cooling zones: administrative areas, operations areas, and the equipment areas. Provide separate air handlers and ducting systems for each zone. Provide sound attenuators for all supply
13、ductwork. Consider more than one air handler for large zones. d. Provide two air handlers for the operations and electronic equipment rooms. Design the air handler controls to regulate the units as primary and secondary with each unit alternating as the primary. Provide air handlers capable of contr
14、olling humidity, equipped with electric heat, and specifically designed for computer room applications. See MIL-HDBK-1012/1, Electronic Facilities Engineering. 2-3.4.2 Heating Provide fuel oil or gas operated boiler heating system designed to accommodate the largest heating load anticipated. Provide
15、 two circulation pumps, each designed for 100 percent of the total building-heating load. Design the pump controls to regulate the pumps as primary and secondary with each pump alternating as the primary. 2-3.5 Electrical Requirements. 2-3.5.1 Uninterrupted Power Supply (UPS). Provide non-redundant
16、UPS with maintenance bypass switchin accordance with Paragraph 3-5.2.3. Use anticipated load to determine the size of UPS. Use a separate plumbing and electrical chase that extends from the ground floor to the cable access level. 2-3.5.2 Emergency Electrical Power. Provide an emergency generator wit
17、h automatic starting and switching capability as described in Paragraph 3-5.2. Provide emergency power to: a. All loads as required by NFPA-101. b. Electronic equipment in operations and with maintenance bypass switch. Provided by IHSNot for ResaleNo reproduction or networking permitted without lice
18、nse from IHS-,-,-UFC 4-133-01N 24 February 2005 Including change 4 and 5, 30 July 2007 11 c. Building mechanical systems supporting electronic equipment. d. Exterior security lighting and security systems. 2-3.5.3 400-Hz Power. Provide 400-Hz (Hz) power in accordance with Paragraph 3-5.2.4, when req
19、uired by the FRS. 2-3.6 Security. The RATCF is normally located within restricted areas that meet the minimum-security measures for external security. When the facility is located within a restricted area of a lower level of security or is located remote and outside of an established restricted area
20、. Provide additional measures to meet the minimum security requirements for the level of security assigned to the facility. Security at the main entrance usually requires a single entry point with visitor control. Remote locks, video cameras, card readers, and/or keypads may be required by NISCOM as
21、 components of the IDS. The level of security and the designers responsibility for particular security elements will be designated in the IDSEP. See Paragraph 3-6. Provide: a. Electronic cipher door locks at all access points to the IFR room and electronic equipment rooms. b. Exterior doors in the I
22、FR room and electronic equipment rooms with no access hardware on the outside. c. Closed circuit TV (CCTV). d. Security fencing and guard post for facilities located outside the secure area of the Naval installation. e. Personnel identification, visitor check-in, and control system to control ingres
23、s and egress. 2-3.7 Additional Design Criteria. Refer to Chapter 3, “General Design Criteria“ for facility design requirements not addressed above. 2-4 JOINT CONTROL FACILITY (JCF). 2-4.1 Function. A combined ATCF and ROC/FACSFAC that may provide airport traffic control, low approach and landing, te
24、rminal area control, and special use airspace control services. Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-UFC 4-133-01N 24 February 2005 Including change 4 and 5, 30 July 2007 12 2-4.2 Location. Locate the JCF building adjacent to the ATCT wher
25、e siting requirements permit. 2-4.3 Architectural and Structural Requirements. See Figures 12 through 18. Provide: a. Removable, modular, access flooring in the operations, and the electronic equipment/maintenance rooms with 457.2 mm (18 in.) of clearance provided between the floor panels and sub fl
26、oor to accommodate wiring and insulated piping. See Paragraph 3-3.5.1. b. Interior and exterior acoustical treatment to attain the Room Criteria described in Paragraph 3-3.1. Soft textured acoustical wall panels and movable sound absorbent partitioning in the operations room. c. A clear ceiling heig
27、ht of 4.2674 m (14 ft) (finished floor to ceiling) in the operations area. d. A tiered seating area in projection auditorium. e. Radio Frequency (RF) shielding throughout the crypto room. See MIL-HDBK-1195, requirements must be confirmed by Naval Electronics Systems Security Engineering Center (NESS
28、EC). f. Facility and restroom areas must conform to the UFAS. g. Cable trays or conduits between the ATCT and the JCF for intra-facility cabling. The exact dimensions of the cable trough or size and number of conduits are specified in the BESEP. 2-4.3.1 Windows. Do not use windows in operations, NTD
29、S/ACDS system, and equipment/maintenance rooms. Provide insulated glazing for noise reduction in administrative areas. See Paragraph 3-6.3.6. 2-4.4 Mechanical Requirements. Design the mechanical system to meet the criteria in Paragraphs 2-2 (RATCF,) UFC 3-420-01 Design: Plumbing, and MIL-HDBK 1003/3
30、 Heating, Air Conditioning, and Dehumidification Systems. Provide a. Automatic thermostatic control. Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-UFC 4-133-01N 24 February 2005 Including change 4 and 5, 30 July 2007 13 b. A four-pipe chilled/hot w
31、ater distribution system with separate air handlers for each zone or dehumidifying system to work in conjunction with the air conditioning system. c. Capability for future expansion of the HVAC system. Use piping designed for low friction and velocity losses at the maximum flows expected. d. Chilled
32、 water requirements will be provided in the SSCC FRS. 2-4.4.1 Air Conditioning. Provide: a. Two parallel piped air-cooled chillers, each designed for 60 percent of the total building-cooling load. Alternate operation of chillers automatically, on a regular basis, when load is less than 60 percent. C
33、onsider cold storage to minimize power peaks. b. One chilled water circulation pump for each chiller plus a manifold spare pump. Design chiller circuitry so that the pump must operate and water flow before the chiller is energized. The spare pump may be manually operated. Provide secondary chilled w
34、ater loops with three-way valves at coils in each circuit to result in constant flow through chiller. c. Divide the building into three cooling zones: administrative areas, operations areas, and the equipment areas. Provide separate air handlers and ducting systems for each zone. Provide sound atten
35、uators for all supply ductwork. Consider more than one air handler for large zones. d. Provide two air handlers for the operations, and electronic equipment/maintenance rooms. Design the air handler controls to regulate the units as primary and secondary with each unit alternating as the primary. Pr
36、ovide air handlers capable of controlling humidity, equipped with electric heat, and specifically designed for computer room applications. See MIL-HDBK-1012/1. 2-4.4.2 Heating. Provide fuel oil or gas operated boiler heating system designed to accommodate the largest heating load anticipated. Provid
37、e two circulation pumps, each designed for 100 percent of the total building-heating load. Design the pump controls to regulate the pumps as primary and secondary with each pump alternating as the primary. 2-4.5 Electrical Requirements. Provided by IHSNot for ResaleNo reproduction or networking perm
38、itted without license from IHS-,-,-UFC 4-133-01N 24 February 2005 Including change 4 and 5, 30 July 2007 14 2-4.5.1 Uninterrupted Power Supply (UPS). Provide non-redundant UPS with maintenance bypass switch in accordance with Paragraph 3-5.2.3. Use anticipated load to determine the size of UPS. 2-4.
39、5.2 Emergency Electrical Power. Provide an emergency generator with automatic starting and switching capability as described in Paragraph 3-5.2. Provide emergency power to: a. All loads as required by NFPA-101. b. Electronic equipment in operations, NTDS/ACDS, and equipment rooms. c. Building mechan
40、ical systems supporting electronic equipment. d. Exterior security lighting and security systems. 2-4.5.3 400-Hz Power. Provide 400-Hz (Hz) power in accordance with Paragraph 3-5.2.4, when required by the FRS 2-4.6 Lighting. Design lighting in accordance with HB-9-00. Provide dimmer adjustable red o
41、r blue lights in the IFR room. See SSCC FRD for additional information. 2-4.7 Security The JCF is normally located within restricted areas that meet the minimum-security measures for external security. If the facility is located within a restricted area of a lower level of security or is located rem
42、ote and outside of an established restricted area, provide additional measures to meet the minimum-security requirements for the level of security assigned to the facility. Security at the main building entrance usually requires a single entry point with visitor control. Remote locks, video cameras,
43、 card readers, and/or keypads may be required by NISCOM as components of the IDS. The level of security and the designers responsibility for particular security elements will be designated in the IDSEP. See Paragraph 3-6. Provide: a. Electronic cipher door locks at all access points to operations ro
44、om. b. Exterior doors in operations, NTDS/ACDS system, equipment/maintenance, and mechanical/electrical rooms with no access hardware on the outside. Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-UFC 4-133-01N 24 February 2005 Including change 4 an
45、d 5, 30 July 2007 15 c. Closed circuit TV (CCTV). d. Security fencing and guard post for facilities located outside of the secure area of the Naval installation. e. Personnel identification, visitor check-in, and control system to control ingress and egress. 2-4.8 Additional Design Criteria. Refer t
46、o Chapter 3, “General Design Criteria“ for facility design requirements not addressed above. 2-5 AIR TRAFFIC CONTROL TOWER (ATCT). 2 Design the Navy-Marine Corps Air Traffic Control Tower to be generally consistent with FAA Order 6480.7, Airport Traffic Control and Terminal Radar Approach Control Fa
47、cility Design Guidelines. If a conflict exists between this UFC and FAA Order 6480.7, this UFC governs. Sizing of cab window mullions, cab glazing and electrical grounding are examples of where most recent FAA criteria should be considered. /2/ 2-5.1 Function. The ATCT building houses equipment and
48、personnel for control of aircraft approaching and departing the terminal area or airport and aircraft and vehicular movement on the runways, taxiways and all other movement areas. 5 Navy ATCT buildings shall be designed consistent with F.A.A. Order 64807, except for cab glazing, due to the normally
49、high wind and structural loads associated with typical Navy ATCT locations. /5/ 2-5.2 Tower Location and Height. 2-5.2.1 The ATCT building houses equipment and air traffic control personnel who provide air traffic control services to aircraft, and vehicles operating in the vicinity of an airport or on the movement areas. 2-5.2.2 An
