|
|
ELECTRICAL FORMULAS Demand for Power (kW) = System Input Wattage (W) ÷ 1,000 Energy Consumption (kWh) = System Input Wattage (kW) x Hours of Operation/Year Hours of Operation/Year = Operating Hours/Day x Operating Days/Week x Operating Weeks/Year Lighting System Efficacy (Lumens per Watt or LPW) = System Lumen Output ÷ Input Wattage Unit Power Density (W/sq.ft.) = Total System Input Wattage (W) ÷ Total Area (Square Feet) Watts (W) = Volts (V) x Current in Amperes (A) x Power Factor (PF) Voltage (V) = Current in Amperes (A) x Impedance (Ohms) [Ohm's Law] ECONOMIC FORMULAS Simple Payback on an Investment (Years) = Net Installation Cost ($) ÷ Annual Energy Savings ($) 5-Year Cash Flow ($) = 5 Years - Payback (Years) x Annual Energy Savings ($) Simple Return on Investment (%) = [Annual Energy Savings ($) ÷ Net Installation Cost ($)] x 100 DESIGN FORMULAS Footcandles & Lumens Footcandles (fc) = Total Lumens (lm) ÷ Area in Square Feet 1 Lux (lx) = 1 Footcandle (fc) x 10.76 Lux = Total Lumens ÷ Area in Square Meters Calculating Light Level at a Point For planes perpendicular to the direction of candlepower (Inverse Square Law): Footcandles (fc) = I ÷ D2 I = Candlepower in candelas (cd) Many workplanes are not perpendicular to the direction of light intensity, which is why calculating light level at a point is useful for such applications. In these cases, we often must determine light levels on workplanes that are not horizontal and perpendicular but tilted or even vertical. For tilted-horizontal or vertical planes: Horizontal Footcandles (fch) = (I ÷ D2) x H Vertical Footcandles (fcv) = (I ÷ D2) x L I = Candlepower in candelas (cd) Calculating Average Light Level Throughout a Space (three formulas) Average Maintained Illumination (Footcandles) = (Lamps/Fixture x Lumens/Lamp x No. of Fixtures x Coefficient of Utilization x Light Loss Factor) ÷ Area in Square Feet Lumen Method Required Light Output/Fixture (Lumens) = (Maintained Illumination in Footcandles x Area in Square Feet) ÷ (Number of Fixtures x Coefficient of Utilization x Ballast Factor x Light Loss Factor) Light Loss Factors Light Loss Factor (LLF) = Ballast Factor x Fixture Ambient Temperature Factor x Supply Voltage Variation Factor x Lamp Position Factor x Optical Factor x Fixture Surface Depreciation Factor x Lamp Burnouts Factor x Lamp Lumen Depreciation Factor x Fixture Dirt Depreciation Factor x Room Surface Dirt Depreciation Factor Lamp Burnout Factor = 1 - Percentage of Lamps Allowed to Fail Without Being Replaced Zonal Cavity Method (determining cavity ratios)Room Cavity Ratio (for regular rooms shaped like a square or rectangle) = [5 x Room Cavity Depth x (Room Length + Room Width)] ÷ (Room Length x Room Width) Room surface reflectances can be predicted in a new design or measured in an existing facility. If existing facility: Room Surface Reflectance (%) = Reflected Reading ÷ Incident Reading Calculating Number of Lamps And Fixtures And Spacing Required No. of Fixtures = (Lumens/Lamp x No. of Lamps x Coefficient of Utilization x Light Loss Factor x Area in Square Feet) ÷ (Lumens/Lamp x Lamps/Fixture x Coefficient of Utilization x Light Loss Factor) Required Lamps = Required Lumens ÷ Initial Lumens/Lamp Maximum Allowable Spacing Between Fixtures= Fixture Spacing Criteria x Mounting Height Fixture Spacing Criteria: See the manufacturer's literature Spacing Between Fixtures = Square Root of (Area in Square Feet ÷ Required No. of Fixtures) Number of Fixtures to be Placed in Each Row (Nrow) = Room Length ÷ Spacing Number of Fixtures to be Placed in Each Column (Ncolumn) = Room Width ÷ Spacing For the above two formulas, round results to the nearest whole integer. Spacingrow = Room Length ÷ (Number of Fixtures/Row - 1/3) Spacingcolumn = Room Width ÷ (Number of Fixtures/Column -1/3) If the resulting number of fixtures does not equal the originally calculated number, calculate impact on the designed light level: % Design Light Level = Actual No. of Fixtures ÷ Originally Calculated No. of Fixtures To calculate fixtures mounted in continuous rows: Number of Luminaires in a Continuous Row = (Room Length ÷ Fixture Length) - 1 Number of Continuous Rows = Total Number of Fixtures ÷ Fixtures Per Row MAINTENANCE Lamp Life Calendar Lamp Life (Years) = Rated Lamp Life (Hours) ÷ Annual Hours of Operation (Hours/Year) Lamp Burnout Factor Lamp Burnout Factor = 1 - Percentage of Lamps Allowed to Fail Without Being Replaced Group Relamping Cost Annualized Cost ($) = A x (B + C) A = Operating Hours/Year ÷ Operating Hours Between Relampings B = (Percentage of Lamps Failing Before Group Relamping x Number of Lamps) x (Lamp Cost + Labor Cost to Spot Replace 1 Lamp) C = (Lamp Cost, Group Relamping + Labor Cost to Group Relamp 1 Lamp) x Number of Lamps
Spot Relamping Cost Average Annual Cost ($) = (Operating Hours/Year ÷ Rated Lamp Life) x (Lamp Cost + Labor Cost to Replace 1 Lamp) x Total Number of Lamps
Cleaning Cost Cleaning Cost ($) = Time to Wash 1 Fixture (Hours) x Hourly Labor Rate ($) x Number of Fixtures in Lighted Space
ENVIRONMENTAL IMPACT Average Reduced Air Pollution (lbs. Carbon Dioxide) = Energy Savings (kWh) x 1.6 lbs. Average Reduced Air Pollution (g. Sulphur Dioxide) = Energy Savings (kWh) x 5.3 g. Average Reduced Air Pollution (g. Nitrogen Oxides) = Energy Savings (kWh) x 2.8 g. Pounds = Grams ÷ 454 Tons = Pounds ÷ 2,000 |
