Exhibit 4 - Design Information and Assumptions

The Design Team shall use the following information and assumptions:

1. Utilities are available on site including Natural Gas (5 psig from street), Electrical Power (480V/3 phase, 208V/3 phase, 208/1 phase and 120/1 phase), City Water (80 psig), and City Sewer. Assume capacities of these utilities are adequate to support your design.
2. Utility Rate Structure
   Design teams shall research the various utility companies (electricity, natural, gas, water, sewer – and any alternative fuels selected) website and determine the appropriate rate schedules.
   
   Links for the Nashville utility companies are listed here:
• Nashville Electric Service: 
  nespower.com/comm_power_rates.aspx
• Metro Water Services:
  nashville.gov/water/rate_schedule.htm
• Nashville Gas:
  piedmontng.com/rates/uploadedRatePages/tncurrentrates.pdf
  
3. Outside Design Conditions (Nashville, Tennessee)
   Summer - (1%) 92 deg F DB; 75 deg F MWB; Daily Range19.1 deg F
   Winter – (99%) 16 deg F; Wind (2.5%) 19 MPH
   All other Climatic Design Information consult Chapter 27,Table 1A of 2001 ASHRAE Fundamentals Handbook.
4. Inside Design Conditions
   Summer – 75 deg F, 50%RH
   Winter – 72 deg F
5. Water table level for the Nashville area is 31 feet below the surface during the month of August.  Information from USGS National Water Information System
6. Building Envelop Material (Location of material and type. See building elevations Sheet A401 and A400 and wall sections A475, A477 and A478. For thermal transmission data not listed, consult 2001 ASHRAE Fundamentals Handbook Chapter 25, Table 4.
   
   Detail description of the envelope follows:
• Roofing
  A. Sloped Roof: Standing seam structural metal roof equal to Centria SDP-175 with 1 3/4” high seams, 16” wide, 22 gauge, pre-coated galvanized steel, on 30 lb. underlayment and composite deck.
  B. Low-Slope ("flat") Roof: Adhered, 60 mil thick, reinforced EPDM roof system equal to “Sure-Seal” by Carlisle Tire and Rubber Company on tapered insulation and composite roof deck.
  C. Composite Roof Deck: Factory manufactured composite cementitious wood-fiber plank with rigid insulation and OSB board, equal to Tectum or  Fibroplank. Total R-value to be minimum R-22
• Exterior Walls
  A. Masonry Veneer Cavity Walls: Combination of integral color split- and smooth-faced CMU (solid grouted – 140 #per sf) and brick veneer, rigid cavity insulation (R 6.25) and CMU backup with exterior face completely damproofed.
  B. Wall above Masonry Veneer Cavity Walls & Translucent Panel Head: 5/8” type X gypsum board on both sides, 6” metal studs at 16” O.C. with fiberglass batts (R-19.0) between the studs.
• Exterior Doors and Windows
  A. Thermally broken aluminum storefront framing system, with Kynar color finish and 1" tinted insulating low-e glass units.
  B. Upper portion of Gym and Pool walls to be 5' tall translucent insulating panels (Kalwall, Skywall, etc.)
  C. Aluminum entrance doors shall be 1 3/4” thick, wide stile, with concealed vertical rod panic devices, offset pivots, concealed overhead door closers.
  D. Service doors to be 16 gauge, 1 3/4” thick flush hollow metal doors; seamless, in 14 gauge hollow metal frames, galvanized, factory primed and field painted.
  E. Overhead door to be 10’-0” by 10’-0”, aluminum, insulated, thermally broken, overhead coiling service door equal to “Rolling Service Doors” by Overhead Door Corporation.  Door curtain shall be composed of interlocking insulated slats, complete with guides and operating hardware.  Finish shall be factory-applied, baked enamel finish.
7. Operational schedule of building
   Administration area             8am to 5 pm 5 days a week
   Gymnasium, Racquetball 6 am to 9 pm 6 days a week
   Natatorium                6 am to 9 pm 6 days a week
   Meeting Rooms             7 pm to 9 pm Flexible Schedule
   Wellness, Aerobics  9 am to 9 pm 5 days a week
8. Lighting
   Administration area                         1.0 watts per square feet
   Lobby, Corridors              0.6 watts per square feet
   Gymnasium, Racquetball Gym 2.0 watts per square feet
   Natatorium                2.0 watts per square feet
   Meeting Rooms                         1.2 watts per square feet
   Wellness, Aerobics              1.0 watts per square feet
9. Occupancy density to be based on the table on architectural Sheet G200
10. Equipment and Process Loads
    Administrative Area (computers/copiers)    0.5 watts per square foot
    Lobby, Corridors                          No load
    Gymnasium, Racquetball                    No Load
    Natatorium                           No load.
    Meeting Rooms (A/V)                        1.0 watts per square feet
    Wellness, Aerobics (A/V)             0.1 watts per square feet
11. Occupancy heat and moisture in different states of activity consult 2001 ASHRAE Fundamentals Handbook, Chapter 29, Table 1. 
12. Pool latent heat gain at a water temperature of 75 deg F, still air and a room temperature of 80 deg F/50% RH. is 61.60 btuh/square feet of water surface.