GEOTHERMAL: WHICH BUILDING SIZE IS BEST SUITED, LARGE OR SMALL?

We've been asked if there is a building or home size that's better suited for geothermal applications. The answer is ... not really ... or perhaps better stated ... it shouldn't matter.  If a building, regardless of size, is well constructed and insulated, a well-designed geothermal system is the best choice above all others for long-life and lower operating costs.

Multiple Government Buildings on Large Closed Loop System

Building size is not the concern; rather it's the quality of the building materials, including insulation quality and tightness, and how these items impact the amount of energy necessary to satisfy heating and cooling demands - i.e. impact on the ability to maintain internal room temperatures in the context of heat loss in winter and heat gain in warmer months. 

                                                       

7000sqft Norwell Home with Natatorium (Pool)

 

This more important consideration, building material quality, directly impacts the required size of the geothermal system and therefore the initial and recurring operating costs.  To minimize these costs, the owner should first invest in minimizing heat loss and heat gain.  It can easily be shown how the investment in building materials offers the greater value.

1750sqft Cape Ranch

If it's not clear why, a quick "how it works" overview might be helpful.  With water-based geothermal exchange systems, water provides or transports energy.  More specifically the system operates in one of two modes; either a supply (in case of heating) or removal of energy (in case of cooling).  The provision or extraction of energy will increase or decrease the temperature of surrounding matter.  The higher or lower the temperature of material, the more, or less, energy it contains. 

Community Geothermal - 10 Buildings on Single Closed Loop

In the case of geothermal energy, we are interested in leveraging or accessing the temperature of the earth’s crust – which has in fact captured and stored the sun’s energy. The rotisserie effect of the earth as it orbits the sun has given the earth’s crust a relatively stable and consistent temperature of 50-55 degF in the Northeast.

When we talk about ground source heat pumps (or geothermal heat pumps) we’re typically referring to a technology that utilizes water to conduct heat or energy from the ground into a heat pump which extracts energy and transfers it to the building through the use and conductive properties of water. 

In conclusion, because the geothermal system depends on water to transport the energy, the more energy required – the greater the water flow needed. The more water, the larger the loop field in the case of a “closed loop” system, or the greater the pump size and well water source needed in the case of an “open loop” system. 

Whether a closed or open loop system, the more water needed the more costly the system and the greater the disparity in initial cost between a traditional heating and cooling system versus a geothermal heating and cooling system.  Therefore it’s not the building size … but rather the building material quality that drive suitability of geothermal technology.

HOME RENOVATION - IS GEOTHERMAL AN OPTION?

We've been asked a number of times whether geothermal heating and cooling can work with an existing home.  The answer is YES ... however ... the context of the discussion needs to be adjusted slightly.

 Geothermal drilling of closed loop wells - each tied into the home to supply water to the geo-heat pumps.

Regardless of what technology you are considering for a replacement to an older less efficient heating system, the most important first step is giving attention to the quality of your home's building materials; more specifically INSULATION - which defines the ability of your home to prevent heat loss in the winter and prevent heat gain in the summer. 

Insulation is by far the least expensive way to improve the efficiency of your home.  Once you’ve improved your insulation in the attic, walls, basement, and basement sill, you’ve now significantly reduced the “size” and cost of the mechanical system necessary to heat and cool your home.

The reason this is more significant for geothermal is simple – the size of the geothermal loop is decreased.  While federal tax credits will typically cover the cost of your geothermal loop, by improving the insulation of your home, the initial system costs and the operating costs will be greatly reduced.

And after all, with insulation being the least expensive way to save money – it seems like an easy first step while you make your decision about which heating and cooling system is best. 

Our recommendation is to approach MassSave for an energy audit and do what you can to access the incentives and 0% heat loans available for upgrading.

New England Renewable Energy Systems - Geothermal, Solar Hot Water, Solar PV

New England Renewable had a nice write up in a Boston magazine "Natural Awakenings" addressing the integration of renewable energy technologies and the cost savings it represents. This coming on the heals of a contributed article for Cape ...Cod's Vitality which highlights the investment value renewable energy represents to home and businesses owners makes us feel we're beginning to help educate the communities we serve.

http://www.naturalawakeningsboston.com/MIDS/April-2012/New-England-Renewable-Energy-Systems-A-Holistic-Approach-to-Green-Energy/

What Is Driving Adoption of Renewable Energy ... Investment Return Savings

What has been driving the adoption of renewable energy technologies?  Perhaps not surprisingly, in this economy, for home owners it's more about savings than going green.  People are realizing that energy costs are too high, too volatile, and too unpredictable as they approach retirement ...

 

With too few safe investments, renewable energy offers a low risk return of consistent savings that, with government incentives, will pay for itself within approximately 5 years ...

 

For example, there are several components the analysis that we overlook when calculating payback for geothermal:

1) when retrofitting an older heating system, or installing for new construction, the buyer must compare the cost to a new non-renewable energy system; it is the difference in price that we shold see paid back over time ... if the older system is still working, consider the pro-rated value and subtract this from the new traditional system ... typically an average quality system over 15yrs has passed it's life expectency, an average quality system over 20yrs is typically in need of replacement and performing below it's original efficiency rating. 

2) consider the value added to the property with renewable energy - the industry estimates an additional $10,000 in value for every $1000.00 in annual energy costs saved

3) apply all government sponsored credits and rebates to the renewable energy systems before calculating the difference in price between the traditional system and the renewable energy system

 

What is meant when we talk about "solar energy"? Why is it important?

While some say it's happening too slow, we must admit we're witnessing a much welcome and desparately needed multi-partisan political (i.e. public, private) response to energy demands across North America.

More importantly there's a growing socio-economic appreciation for renewable energy technologies and the critical role these play for sustainable economic growth ... i.e. JOBS! Predictable PROFIT! Improved GDP!

OK, with that in mind - what do we really mean when we talk about Solar Energy?

Solar Energy has been popularly used to refer to solar panels ... photovoltaic (PV) technology.  This technology uses photons to "excite" electrons which forms the basis producing electricity. 

Solar Energy also encompasses solar hot water. That is, the use of sunlight's thermal energy to heat and ultimately generate hot water for residential and commerical use.

What may surprise many is Solar Energy is also a source of wind and geothermal energy.  That's right!  Solar energy causes uneven heating and cooling across earth's atmosphere and more evenly beneath its surface. 

The air expansion and contraction establishes wind or kinetic energy which is captured by wind turbines.  This wind is due to Solar Energy.  And it's readily available for our consumption.

Geothermal heat is simply the earth's heat.  It is solar energy absorbed by the earth's surface.  For residential and commercial applications it represents a fairly constant 55 degrees F.  Taping into it has enormous benefit.

So when we talk about "Solar Energy" ... we're talking about readily available energy that is brought to us by the sun ... every day.  Most importantly - it's here and available to everyone at an ever decreasing cost.

Solar Energy is smart, profitable, and affordable.  So come join us for the next technology boom!

Thank you and welcome!!

Our mission is to design the highest quality energy systems for commercial and residential applications.
Our goal is simple - reduce your energy costs while optimizing savings, profit, and cost of ownership.
Our objective is to to enable adoption of "smart" energy solutions. 

We invite you to follow us and our community of partners, affiliates, and friends.  We plan to share the realities of available energy and renewable energy solutions; and perhaps why we should or shouldn't adopt certain solutions depending on the nature and objectives of the adopting community or entity.

When we're asked 'what's the best renewable energy solution?' Our answer is "it depends".  Not every renewable solution is right for every situation or circumstance and often times a combination of renewables leads to the best solution for all. 

An important first step before making a decision is to investigate and ask questions.  And be aware, while not always exciting, it's more efficient and less costly to conserve energy than it is to generate (or waste) it! 

Thanks for following!! We look forward to your comments and discussions!