Pump
power and control requirements
ASHRAE 90.1-2019¶ ↑
G3.1.3.5 Hot-Water Pumps¶ ↑
The baseline building design hot-water pump power shall be 19 W/gpm. The pumping system shall be modeled as primary-only with continuous variable flow and a minimum of 25% of the design flow rate. Hot-water systems serving 120,000 ft2or more shall be modeled with variable-speed drives, and systems serving less than 120,000 ft2 shall be modeled as riding the pump curve.
Exception to G3.1.3.5¶ ↑
The pump power for systems using purchased heat shall be 14 W/gpm.
G3.1.3.10 Chilled-Water Pumps (Systems 7, 8, 11, 12, and 13)¶ ↑
Chilled-water systems shall be modeled as primary/secondary systems with constantflow primary loop and variable-flow secondary loop. For systems with cooling capacity of 300 tons or more, the secondary pump shall be modeled with variable-speed drives and a minimum flow of 25% of the design flow rate. For systems with less than 300 tons cooling capacity, the secondary pump shall be modeled as riding the pump curve. The baseline building constant-volume primary pump power shall be modeled as 9 W/gpm, and the variable-flow secondary pump power shall be modeled as 13 W/gpm at design conditions. For computer room systems using System 11 with an integrated fluid economizer, the baseline building design primary chilled-water pump power shall be increased by 3 W/gpm for flow associated with the fluid economizer.
Exception to G3.1.3.10¶ ↑
For systems using purchased chilled water, the building distribution pump shall be modeled with variable-speed drive, a minimum flow of 25% of the design flow rate, and a pump power of 16 W/gpm.
G3.1.3.11 Heat Rejection (Systems 7, 8, 11, 12, and 13)¶ ↑
The baseline building design condenser-water pump power shall be 19W/gpm and modeled as constant volume. For computer room systems using System 11 with an integrated fluid economizer, the baseline building design condenser water-pump power shall be increased by 3W/gpm for flow associated with the fluid economizer. Each chiller shall be modeled with separate condenser-water and chilled-water pumps interlocked to operate with the associated chiller.
Requirement change:¶ ↑
ASHRAE 90.1-2013 Appendix G:¶ ↑
G3.1.3.5 Hot-Water Pumps:¶ ↑
The baseline building design hot-water pump power shall be 19 W/gpm. The pumping system shall be modeled as primary-only with continuous variable flow. Hot-water systems serving 120,000 ft2 or more shall be modeled with variable-speed drives, and systems serving less than 120,000 ft2 shall be modeled as riding the pump curve.
Exceptions: The pump power for systems using purchased heat shall be 14 W/gpm.
G3.1.3.10 Chilled-Water Pumps (System 7, 8 and 11)¶ ↑
The baseline building design pump power shall be 22 W/gpm. Chilled-water systems with a cooling capacity of 300 tons or more shall be modeled as primary/secondary systems with variable-speed drives on the secondary pumping loop. Chilled-water pumps in systems serving less than 300 tons cooling capacity shall be modeled as a primary/secondary systems with secondary pump riding the pump curve. For computer room systems using System 11 with an integrated water-side economizer, the baseline building design primary chilled-water pump power shall be increased 5 W/gpm for flow associated with the water-side economizer.
Exceptions: The pump power for systems using purchased chilled water shall be 16 W/gpm.
G3.1.3.11 Heat Reject (System 7, 8, 9, 12, and 13)¶ ↑
The baseline building design condenser-water pump power shall be 19 W/gpm. For computer room systems using System 11 with an integrated water-side economizer, the baseline building design condenser water-pump power shall be increased 5 W/gpm for flow associated with the water-side economizer. Each chiller shall be modeled with separate condenser water and chilled-water pumps interlocked to operate with the associated chiller.
ASHRAE 90.1-2016, 2019 Appendix G:¶ ↑
G3.1.3.19: System 5 through 8, The baseline system shall be modeled with a preheat coil controlled to a fixed setpoint 20F less than the design room heating temperature set point.
Key Ruby Methods¶ ↑
Standards.Model.rb
plant_loop_apply_prm_baseline_pump_power() plant_loop_apply_prm_baseline_pumping_type()
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