Laserfiche WebLink
Table 6-1 ' <br /> Exteriar Lighting Unit Power Allowances <br /> <br /> Area Description Allowance <br /> Exit (with or without canopy) 20 W/Lin. ft of door opening <br /> Entrance (without canopy) 30 W/Lin. ft of door opening <br /> Entrance (with canopy) <br /> High traffic (retail, hotel, airport, theater, etc.) 10 W/fl <br /> of canopied azea <br /> Light traffic (hospital, office, school, etc.) 4 W/ftz of canopied azea. <br /> Loading azea 0.40 W/fl <br /> Loading door 20 W/Lin. ft of door opening <br /> Building exterior surfaces/facades 0.25 W/ft2 of surface to be <br /> illtuttinated <br /> Storage and nottttumufactuting work areas 0.20 W/ftZ <br /> Other activity azeas for casual use, such as picnic grounds, gardens, <br /> parks, and other landscaped areas 0.10 W/ftz <br /> Private driveways and walkways 0.10 W/ft= <br /> Public driveways and walkways 0.15 W/ft <br /> Private pazking lots 0.12 W/ft~ <br /> Public parking lots [0.10 W/ft=] fL <br /> SECTION 7. Section 5-26.3.(c)(1) of the Hawaii County Code 1983 (1995 Edition) is <br /> hereby amended to read as follows: <br /> "(c) Lighting Power Control Credits <br /> (1) Lighting Power Control Czedit (LPCC). When de~**++i*+i*+g compliance of <br /> the actual design with the lighting power allowance established by either <br /> section 5-26.4 or 5-26.5, the connected lighting power (CLP) for lights <br /> automatically controlled by occupancy sensing, daylight sensing control, <br /> lumen maintenance control, or programmable timing control, may be <br /> reduced by subtracting control credits on a specific area-by-area basis. This <br /> credit is termed the lighting power control credit (LPCC) and shall be <br /> determined in accordance with Equation 6-1: <br /> LPCC = CLP x PAF Equation 6-1 <br /> where: <br /> LPCC =Lighting power control credit (W) <br /> CLP =Connected lighting power for the luminaires controlled <br /> by the automatic control device (W) <br /> PAF =Power adjustment factor <br /> The adjusted lighting power (ALP) is then equal to [CLP x LPCC] CLP -LPCC." <br /> 3 <br /> <br />