Question 15.3: (a) Estimate the annual energy cost of domestic hot water he...

(a) Using Eq. (15.1), the annual fuel use by the water heater can be estimated. First, the water mass can be determined

E_{w} =m_{w} c_{w,p} (T_{wi}- T_{w,o})/ η_{WH}            (15.1)

m_{w} = 3.0gal/pers/day *1000pers *300days/yr *8.33lbm/gal = 7.497*10^{6} lbm/yr

Therefore, the fuel use required to heat the water from 55°F to 140°F (=120°F + 20°F) is:

FU = 7.497*10^{6} lbm/yr*1.0Btu/lbm⋅°F [(140−55)°F]/(0.75*138*10^{3}Btu/gal)z

or

FU = 6,157gals/yr

Thus, the annual fuel energy cost for water heating is:

Cost =[6,157gals/yr]*$1.20/gal = $7,388/yr

When the temperature decrease across the piping system is reduced from 20°F to 10°F (so that the actual hot water temperature from the heater is reduced from 140°F to 130°F), a reduction in the annual cost of heating the water results and is estimated to be:

ΔCost =[1−(130−55)/(140−55)]*$7,388/yr = $869/yr

It should be noted that the losses through the distribution systems are generally referred to as parasite losses and can represent a significant fraction of the fuel use requirements for water heating.

An economic evaluation analysis should be conducted to determine the cost-effectiveness of insulating the piping system.