Examples of Lighting Load in a sentence
See ‘IL Res Indoor LED Lighting Load Shape_2018-06-06’ and ‘IL Res Indoor LED Lighting Load Shape Development Methodology_2018-05-18’ for details.
A recipient of a Notice of Appeals Conference should complete and return the Response to Notice of Conference within 15 days of the date Board Proceedings Staff mailed the Notice of Appeals Conference.
Space Type People Load Note 1 Lighting Load Equipment Load Remarks Public Spaces and Office AreasCommon Areas / Lobbies Glasswash EquipmentSpace Note 1: People loads will be based on actual count of people.Note 2: Equipment loads will be based on actual equipment heat gains as published by manufacturer where available.Note 3: Space loads based on estimated equipment heat gain.Note 4: Exhaust and cooling requirements will dictate air flow quantity (minimal cooling load).
Load Calculation sheet having details of Power Load for Server area ( IT Load),Power load for Cooling in Server area, Power Load for other area, Power load for cooling in other area, Lighting Load, Utilities ( Raw power load), Estimation of raw power required UPS REQUIRED with their capacity, Redundancy of UPS on full load, DG REQUIRED with their capacity, Redundancy of DG sets on full load, Overall Redundancy MechanismThe bidder should provide following as their technical solution:I.
Branch-circuit loads shall be calculated as shown in 220.12, 220.14, and 220.16.220.12 Lighting Load for Specified Occupancies.
White BZ-150 Power Pack Red Lighting Load Hot/Line 120/277VAC Black Red Cap both wires, not used Any 24VDC Occupancy Sensor Red Black Blue Control Out Blue +24VDC in Red Common Black Occupancy Input White LVS-1 Switch or Equiv.
Joshi S, Walgankar SS (2004) Epidemiology of malnutrition in a rural field practice area of navi Mumbai.
Connected Lighting Load Reduction [kW] = 9.0 [kW] – 4.3 [kW] = 4.7 [kW](b) Interactive HVAC Demand Savings [kW] = 4.7 [kW] * 0.10= 0.5 [kW](c) Total Demand Savings [kW] = (4.7 [kW] + 0.5 [kW]) * 0.80= 4.2 [kW](d) Lighting Energy Savings [kWh] = {9.0 [kW] – 4.3 [kW]} * 3760 [hrs] * 0.8= 14,138 [kWh](e) Interactive HVAC Energy Savings [kWh] = 14,138 [kWh] * 0.05= 707 [kWh](f) Total Energy Savings [kWh] = 14,138 [kWh] + 707 [kWh]= 14,845 [kWh]The energy savings is then calculated for each usage group.
Typical Summer Day Residential Lighting Load Shape by Data Source100%DSMore90%Pacific Northwest (Metered)80% 70% 60% 50% 40% 30% 20% 10% 0%1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24Hour EndingPercent of Peak Hour LoadFigure 3.
Measure 1 Measure 2 (if applicable) Do nothing Lighting Load Controllers.