An intern of mine just wrote this blog post, which concludes that it makes no sense to use a SEER 26 split AC and you are better off using a SEER 10 window unit. It would take something like 40 years to pay off the split AC IF his calcs are correct....<div>
<br></div><div>Would some of you number people be able to verify his calcs??</div><div><br></div><div>---------------</div><div><br></div><div><p style="margin:1em 0px;padding:0px;font-family:tahoma,arial,sans-serif;font-size:13px;text-align:left;background-color:rgb(255,255,255)">
Last week we installed a split AC in a yoga studio in Carroll Gardens. I was interested to see the price differential between the two in energy costs per year and how long the pay-back period for the split AC/heat pump would be. The <a href="http://www.nationalairwarehouse.com/featured-products/9-000-btu-mitsubishi-26-seer-r-410a-heat-pump-mini-split-system.html" style="color:rgb(133,132,137)">split AC/heat pump </a>cost $2100 to cover the cost of the unit and installation. It has a 9000 Btu/h output and a 26 SEER rating. For this exercise I used the most energy efficient,Energy Star rated, and most purchased <a href="http://www.sears.com/kenmore-8-000-btu-room-air-conditioner/p-04279081000P?prdNo=2&blockNo=2&blockType=G2" style="color:rgb(133,132,137)">window AC unit at Sears</a> that costs around $210. The unit has an output of 8000 Btu/h output and a 10.8 EER rating. I converted EER to SEER in the exercise below. I found out there was a $47/year price differential in energy costs. That would be a 40 year payback period for the split AC.</p>
<p style="margin:1em 0px;padding:0px;font-family:tahoma,arial,sans-serif;font-size:13px;text-align:left;background-color:rgb(255,255,255)">The model I used tries to find the cooling load using the cooling degree days. Here is the formula:<br>
Cooling Load = (Btu/h x 24 x CDD) / change in temperature in the day</p><p style="margin:1em 0px;padding:0px;font-family:tahoma,arial,sans-serif;font-size:13px;text-align:left;background-color:rgb(255,255,255)">To compute the change in temperature I used <a href="http://www.weather.com/weather/wxclimatology/monthly/graph/11204?from=month_bottomnav_undeclared" style="color:rgb(133,132,137)">monthly averages</a> from The Weather Channel for Brooklyn.</p>
<p style="margin:1em 0px;padding:0px;font-family:tahoma,arial,sans-serif;font-size:13px;text-align:left;background-color:rgb(255,255,255)">Here are the results:</p><p style="margin:1em 0px;padding:0px;font-family:tahoma,arial,sans-serif;font-size:13px;text-align:left;background-color:rgb(255,255,255)">
<strong>Split AC</strong></p><p style="margin:1em 0px;padding:0px;font-family:tahoma,arial,sans-serif;font-size:13px;text-align:left;background-color:rgb(255,255,255)">May- (9000 x 24 x 40) / 16 = 540,000 Btu/h<br>
June- (9000 x 24 x 120) / 16 = 1,620,000 Btu/h<br>July- (9000 x 24 x 322) / 15 = 4,636,800 Btu/h<br>August- (9000 x 24 x 207) / 14 = 3,195,714 Btu/h<br>September- (9000 x 24 x 88) /14 = 1,357,714 Btu/h<br>
Total = 11,350,228 Btu/h</p><p style="margin:1em 0px;padding:0px;font-family:tahoma,arial,sans-serif;font-size:13px;text-align:left;background-color:rgb(255,255,255)">(11,350,228 Btu/h) / (SEER= 26 BTU/ Wh) = 436,547 Wh/year<br>
(436,547 Wh/year) / (1000) = 436.547 kW/year x .18 kW/hour = $78.57 a year</p><p style="margin:1em 0px;padding:0px;font-family:tahoma,arial,sans-serif;font-size:13px;text-align:left;background-color:rgb(255,255,255)"> <br>
<strong>Window AC</strong><br>May- (8000 x 24 x 40) / 16 = 480,000 Btu/h<br>June- (8000 x 24 x 120) / 16 = 1,440,000 Btu/h<br>July- (8000 x 24 x 322) / 15 = 4,121,600 Btu/h<br>
August- (8000 x 24 x 207) / 14 = 2,838,857 Btu/h<br>September- (8000 x 24 x 88) /14 = 1,206,857 Btu/h<br>Total = 10,087,314 Btu/h</p><p style="margin:1em 0px;padding:0px;font-family:tahoma,arial,sans-serif;font-size:13px;text-align:left;background-color:rgb(255,255,255)">
Calculation from EER to SEER = -0.02 × 10.8˛ + 1.12 × 10.8 = 14.4</p><p style="margin:1em 0px;padding:0px;font-family:tahoma,arial,sans-serif;font-size:13px;text-align:left;background-color:rgb(255,255,255)">(10,087,314 Btu/h) / (SEER= 14.4 BTU/Wh) = 700,508 Wh/year</p>
<p style="margin:1em 0px;padding:0px;font-family:tahoma,arial,sans-serif;font-size:13px;text-align:left;background-color:rgb(255,255,255)">(700,508 Wh/year) / (1000) = 700.508 kW/year x .18 kW/hour = $126 a year</p></div>