Design Conditions. Pressurization: The ventilation and exhaust system shall be designed and controlled to provide the necessary quantity of outside air to maintain indoor air quality, to satisfy the combustion air requirements, and exhaust requirements in restrooms, and lunch room areas, while maintaining a positive pressure (0.01” to 0.02” of water column) within the building. Ventilation: Ventilation requirements shall meet the minimum specifications contained in the BOCA Mechanical Code for the occupancy areas. The following values shall be
Design Conditions. In general, conductors will be insulated on the basis of a normal maximum conductor temperature of 90 C in 40 C ambient air with a maximum emergency overload temperature of 130 C and a short circuit temperature of 250 C. In areas with higher ambient temperatures, larger conductors will be used or higher temperature rated insulation will be selected. Conductor size and ampacity will be coordinated with circuit protective devices. Cable feeders from medium voltage power equipment will be sized so that a short circuit fault at the terminals of the load will not result in damage to the cable prior to normal operation of fault-interrupting devices. Cables for medium voltage service will be shielded with the shield grounded at both ends, thereby accomplishing the following results:
Design Conditions. Nominal Net Equipment Rating (Refer to the Performance Specifications for Equipment Performance Requirements Site Conditions Site Ambient Temp./Relative Humidity 94oF/39.4%RH (Guarantee Conditions) Site Pressure 14.289psia Elevation 785 feet Location Inland Seismic Criteria 1997 UBC, Zone 2A Wind Design 1997 UBC; Exposure C, Importance Factor = 1.00 Basic Wind Speed = 100 mph Fuel Primary Natural Gas Backup Distillate Fuel Oil Gas Fuel Preheating Not Included. Liquid Fuel Preheating Not Included Treatment Not Included Gas Fuel Booster Compressor Not Included. Minimum required gas pressure is 415 psig at customer connection to gas feed module. Maximum operating pressure is 475 psig.
Design Conditions. Pressurization: The ventilation and exhaust system shall be designed and controlled to provide the necessary quantity of outside air to maintain indoor air quality, to satisfy the combustion air requirements, and exhaust requirements in restrooms, waiting rooms and kitchen areas, while maintaining a positive pressure (0.01 to 0.02 inches of water column) within the building. Ventilation: Ventilation requirements shall meet the minimum specifications contained in the BOCA Mechanical Code for the occupancy areas. The following values shall be considered a minimum acceptable level. Outside Air and Recirculation: Not more than 67% of the ventilation air shall be recirculated. The remaining 33% or 5 cfm/person shall be fresh outside air. Exhaust Air: Exhaust air from kitchen areas and restrooms shall meet the minimum specifications contained in the BOCA Mechanical Code for the occupancy areas.
Design Conditions. All equipment is designed and engineered according to the specified Design Conditions. DASV is not responsible for cooling/heating or dehumidification beyond the Design Conditions or any environmental variations beyond the specified conditions.
Design Conditions a. Design conditions are based on the Buyer installing appropriate roof and wall insulation, and external blinds on glass, particularly north/west facing.
b. Equipment is specified based upon rated conditions. Rated test conditions are based on Australian Standards 1861. Condition A: indoor conditions, cooling dry bulb 27 degrees, west bulb 19 degrees, outdoor dry bulb 35 degrees, 24 degrees wet bulb, heating conditions are based upon 21 degrees dry bulb, outdoor dry bulb 7 degrees, 6 degrees wet bulb.
c. The Buyer acknowledges that they must notify the Seller (when placing an order) in writing of any specific installation requirements or restrictions (including without limitation, heritage overlays) that may impact on the installation location of goods.
Design Conditions. The heating, ventilating and air conditioning systems will be designed and selected to produce the indoor conditions noted below when the outdoor conditions are as stated:
a. Indoor Conditions Summer 75 degrees F. db +/- 2 degrees 50 +/- RH 10% Winter 70 degrees F. db +/- 2 degrees 35 +/- RH 15% b. Outdoor conditions: Summer 91 degrees F. db 74 degrees F. wb Xxxxxx 00 degrees F. db
Design Conditions. Contractor will undertake to design the Project so as to be capable of operating within the range of conditions detailed in Section 1.5
Design Conditions. Geothermal Fluid Specifications and Ambient Temperature for Design Point Design Range GCCU/Brine OEC --------------------------------------------------------------------------------------------------------------- Ambient temperature 12(Degree)C 2 - 22(Degree)C Geothermal Fluid pressure (at wellhead) 21 bar a 19 - 23 bar a Steam flow excluding NCG (after separator) 188 t/hr 150 - 220 t/hr Hot Brine flow 349 t/hr 300 - 400 t/hr Hot Brine temperature (after separator) 207.6(Degree)C 195 - 215(Degree)C Brine and Condensate exit mixture temperature. 96.7(Degree)C 110 - 90(Degree)C NCG % by weight of steam flow 1.0% 0 - 2% Chemical Composition Mostly CO2 and traces Mostly CO2 and of H2S traces of H2Sand As per Section 1.6. below Cold Brine flow 560 t/hr 500-600 Cold Brine temperature at the interface point 143(Degree)C 138-148 (Degree)C Cold Brine Chemical composition As per Mokai I spec As per Mokai I spec Maximum operating current of the 110 kV T-Line Max 590 A ----------------------------------------------------------------------------------------------------------------- *Note: Correction Curves will cover the Design Range
Design Conditions. (a) Outdoor conditions: The HVAC system in the Building shall be capable of maintaining the indoor conditions of 76º at 50% relative humidity within the Premises when the outdoor conditions do not exceed the local 1% design dry-bulb and mean coincident wet-bulb in summer and the local 99% design dry-bulb in winter as specified in the latest edition of the ASHRAE “Handbook of Fundamentals,” climatic conditions for the United States.
(b) Thermal load of occupancy: The HVAC system in the Building shall be capable of maintaining the performance specifications within the Premises when the occupancy of the Premises is not greater than 1 person per 100 square feet of usable area and the electric power consumption by lighting and office equipment in the Premises does not exceed five (5) xxxxx per rentable square foot, demand load.
