Banish ‘Payback’

first_imgPayback Calculations for Energy-Efficiency Improvements The Department of Energy Chooses a Definition for Net ZeroA Business Model for Net-Zero Energy DistrictsCalifornia Leads the Nation in Net-Zero ProjectsMajor U.S. Builder Tests Net-Zero MarketNet-Zero-Energy versus Passivhaus Bruce Sullivan is a building science consultant. This post originally appeared at The Zero Energy Project. A real world exampleFor a real world example. I’ll use my own ZEH. It was completed in September 2015 in Bend, Oregon (Climate Zone 5). It’s a small house, a bit more than 900 square feet. The building shell has extra insulation, including 10-inch thick walls, and a very low rate of air leakage (1.0 ach50). There is a ductless heat pump for space heating and a heat-pump water heater. Efficient appliances include a two-burner induction cooktop. To power all this, there is a 4.3-kW photovoltaic (PV) system. I kept careful records of all the construction costs and, for comparison, estimated the cost to build the house to a minimum code efficiency level.The investment in energy-efficiency measures required to bring the house to zero energy was $39,900. Financial incentives from the electric utility, state, and federal governments covered just under half of that, reducing my cost to $21,206. However, I was able to reduce construction costs by doing most of the air sealing and installing the ventilation system myself. Including sweat equity, my costs for energy improvements dropped to $16,085, so my added monthly mortgage payment was only $77.My energy model predicted energy savings worth $92 per month. Adding the higher mortgage payment and subtracting these monthly energy savings, I’m making a profit of $15 per month. Each year as energy prices increase, I will be making a little more. And if I ever were to sell my home I would get a price premium for the energy upgrades it contains and quality of life it provides. In the meantime I am living in a home that provides more comfort, more quiet, fresher air, and more durability. A hedge against rising energy costsSo far, I’ve shown you the return on investment starting with energy-saving “dividends” on move-in day and ending with a higher return on the day you sell your home. Another security you get with a ZEH is that the home’s features provide insurance against rising energy costs. Electricity price inflation has been steady at about 3% for decades and will undoubtedly continue to increase. Natural gas and petroleum prices are more volatile, but who wants to chain their home to unstable, carbon-emitting fossil fuels for decades to come?There are also many important non-monetary returns with ZEHs that should be taken into account: These homes are more comfortable, healthier, quieter, more durable, and kinder to the planet.The concept of “payback period” complicates and obscures both the solid financial returns from investing in a zero-energy home and distracts from the many non-financial benefits of the home. So let’s banish “payback” from our vocabularies. Every conversation about zero-energy homes (ZEHs) eventually comes around to the question of “cost.” The negative connotation of added cost and, even worse, “payback,” always puts ZEH advocates at a disadvantage. For years, I’ve encouraged advocates to call energy expenditures investments rather than “costs that must be recovered.” So, let’s banish the entire idea of “payback” and “payback period.”Would anyone judge a stock investment or an interest-bearing bank account by calculating how long it would take the earnings to equal the principal? No, that would be absurd. Likewise, it’s counterproductive to consider funds used for energy improvements to be costs. They are investments with a financial return — both immediate and long-term — that is both significant and predictable.When you spend money to reduce energy use, you receive a tangible financial benefit that begins the first month and continues for as long as you own your home. Let’s say that you’re building a new zero-energy home. You can calculate how much it will cost to increase insulation, reduce air leakage, improve equipment efficiency, and add photovoltaic panels. In most cases the investment will be in the tens of thousands of dollars. This investment will return immediate benefits whether you finance the purchase or pay with cash. Savings begin as soon as you move inTo illustrate the idea, let’s use an example of an investment of $40,000 in energy-efficiency measures needed to bring a new house to net zero energy. In my area, financial incentives from the electric utility, state, and federal government cover just under half the costs and reduce the amount to $21,000. If you finance this home with a conventional 30-year mortgage, with current mortgage interest rates at 4%, you’ll pay $50 per month for each $10,000 you add to your principal amount.If we assume that you financed the additional construction cost of $21,000 (after incentives), then your monthly added payment for energy improvements would be $100. Based on energy modeling, let’s assume the home will save $200 per month for energy.That $200 return starts the first month you live in your house, and in this example it exceeds the added monthly mortgage payment whether incentives were used or not. With incentives, the net return after paying for the energy improvements is $100 per month; without incentives the net return is $8 per month.You can also turn this calculation around by first looking at savings and then calculating how much money you could afford to invest. By building a home that saves $200 per month, you could afford to invest $40,000 in energy improvements.In return for your investment, you pay nothing or very little for energy from the day you walk in the door. The monthly savings almost always offset the additional mortgage payment. Many zero-energy homes will realize a profit on their investment during the very first month, as in this example. It’s a very simple idea. If the monthly energy savings exceed the monthly financing cost, you win!Businesses do this all the time, and they call it “leverage.” They borrow money to make an investment. If the return is higher than the outlay, they make a profit. If you think of energy improvements in this way, it opens a new way of thinking about ZEHs.While the figures used in this example will apply to many areas of the U.S., your return will depend on individual circumstances. Home size, local construction costs, local energy costs, interest rates, and locally available incentives are key factors that will need to be considered. The key point to remember is that your investment has an immediate return, as well as a long-term return.With financial investments, in addition to receiving interest and dividends, eventually you will withdraw the principal, when you close your bank account or sell a stock. How does that compare with money invested to improve the energy efficiency of your home? How do you recover the capital?Although there will always be real estate price fluctuations, it’s generally true that homes will grow in value over time. A number of studies show that energy-efficient homes, especially ones with solar collectors, sell faster and receive higher prices than conventional homes in many areas of the country, making highly energy-efficient homes a positive real estate investment. RELATED ARTICLES last_img

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