Replacing incandescent lights with energy-efficient fluorescent lights can reduce the lighting energy consumption to one-fourth of what it was before. The energy consumed by the lamps is eventually converted to heat, and thus switching to energy-efficient lighting also reduces the cooling load in summer but increases the heating load in winter. Consider a building that is heated by a natural gas furnace with an efficiency of 80 percent and cooled by an air conditioner with a COP of 3.5. If electricity costs $0.12/kWh and natural gas costs $1.40/therm (1 therm = 105,500 kJ), determine if efficient lighting will increase or decrease the total energy cost of the building (a) in summer and (b) in winter.
Replacing incandescent lights with energy-efficient
fluorescent lights can reduce the lighting energy consumption
to one-fourth of what it was before. The energy consumed
by the lamps is eventually converted to heat, and thus
switching to energy-efficient lighting also reduces the cooling
load in summer but increases the heating load in winter.
Consider a building that is heated by a natural gas furnace
with an efficiency of 80 percent and cooled by an air conditioner
with a COP of 3.5. If electricity costs $0.12/kWh and
natural gas costs $1.40/therm (1 therm = 105,500 kJ), determine
if efficient lighting will increase or decrease the total
energy cost of the building (a) in summer and (b) in winter.
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