Benefits of Solar Thermal and Solar PV Panels

There are many benefits and incentives to be obtained from installing Solar Thermal and other solar technologies such as Solar PV (photovoltaic) panels on your home, or even a small business. Not only will you contribute to greening your energy consumption, but you can save money on your energy bills, and even earn money from your solar installation.

Benefits of Solar Thermal

Solar thermal panels are designed to produce hot water, for domestic hot water supply or to supply hot water for your heating system.  Some benefits you could enjoy include:

  • You’ll be able to claim the Renewable Heat Incentive from its launch in 2011.
  • Produce up to 1/3 of your hot water.
  • Reduce CO2 emissions by up to 530kg.
  • Reduce heating bills by up to £65 p/a.

Benefits of Solar PV Panels

Solar PV (photovoltaic) panels are designed to produce electricity from sunlight, which can be used to supplement or replace the power needs for your home or small business. With an off-grid installation you are completely independent of the mains power; this requires a battery bank to store power for use at night or on days when production is reduced by cloudy weather. A grid-tied installation allows you to draw electricity from the mains power when needed AND you can sell electricity back to the power company when you are producing more than you need. The benefits you could enjoy from a solar PV installation include:

  • Sell electricity back to the grid via the Feed-In Tariff.
  • Reduce CO2 emissions by up to 1 tonne.
  • Reduce energy bills by up to £200 p/a.
  • Up to 10% tax-free return-on-investment.

You can calculate the potential profit from solar PV panels with the Solar Guide Solar PV Feed-In Tariff Calculator. The calculation can be based either on available roof space, or on proposed system size (in kWp), or on system price. The calculator results include initial system cost, possible income and energy savings, and payback time for the system. It also gives you a projected profit over a 25-year span.

We all have to spend money on energy each month. By installing solar panels, you can start making that money work for you, instead of disappearing each month with no return. Take a little time to check out the possibilities – information doesn’t cost you anything!

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Radiant Flooring Advice

Hydronic radiant floors

Are you aware of the fact that as much as 35% to 45% of residential energy bills go to heating/cooling? Radiant floor designs can save 40% of your heating costs while keeping the house comfortable. It also comes with ‘no-noise ‘ guarantee since heat is broadcast over the floor (it does not make use of mechanical parts like fans or blowers). It can go under the present floor between the rafters or under most finish materials. Radiant floors are a great option during your next home remodeling project.

The choices for the flooring material are virtually inexhaustible; you can use carpet, hardwood, linoleum and laminate, or you can pick ‘high-mass ‘ substances like tile, marble or slate — all with good heat holding properties so that you can cut some more on your energy use. For substantial savings on your power and water bills, you may want to consider thermal mass floor which are wonderful heat holder; and if you want an eco-friendly solution, couple the radiant floor design to a solar thermal system — using the sun-heated water to run around your house through water pipes.

Hydronic radiant floors are designed so that warm water runs underneath it via plastic tubes. This system is made from a water heater (boiler), a circulation pump, a thermostat and a manifold of valves to assist water circulation.

Installation of a hydronic system is usually handled by HVAC contractors or pro plumbers because of the floor area and difficulty concerned. This cost can range from US$6-US$12 per square foot — double or treble that for alternative heating systems.

Nevertheless it offers tremendous operational saving when runs on one entire level (more savings can be done when used on the entire house). With such floor area, savings of about 33% is possible when compared to condition air.

Vinyl, tile and carpet are all acceptable for this system (they can go immediately on top of hydronic masonry floor) but some heat loss is inescapable if employed with materials that do not hold heat relatively well,eg carpet (not so great) vs tile (great). The plastic tubing can run under a wooden floor as well , by positioning itself just underneath the finished flooring or it can get tightened to the bottom of the subfloor, between beams. If you can reach the bottom of the floor, maybe you need to use this option as a part of your home improvement project.

Electrical Radiant Floors

Electric radiant floor design employs tiny heating wires, not unlike those you find in an electric blanket, to warm up the ceramic tiles on top. Due to these fine wires, the required flooring elevation is minimum; making it superb for remodelling.

Usually radiant floor design is applied on kitchens, mudrooms and bathroom, where the touch of warm floor is so desirable. It incorporates its own temperature controls and it is never meant as a replacement to the central heating — instead the electrical radiant floor is intended to play a complimentary role to that central heating.

To add electric-driven radiant floor design to an existing space, another 15- to 20-amp GFCI-protected circuit (to power it), and an additional tile floor are needed. It might be a perfect fit for your remodelled home.

A bathroom-size retrofit will set you back US$400 to US$700 (new tile inclusive). The electricity consumed would be like that of 3 x 100W bulbs.

Archidwell can help you make your house better. With our home remodeling software we guide you through the refurbishment process, showing you exactly how and what you need to do to renovate your home precisely how you would like it to look. If you need kitchen, loo or basement remodeling ideas we can be helpful.

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How can I use the heat from my fireplace to heat my two story home? ?

I posted a question earlier asking about alternative energy sources and it seems to be too expensive to purchase solar panels to offset the electrical cost, now I am trying to figure something else out….

We have a two story home and our fireplace is locate downstairs. The fireplace has an insert an when the fan is running the heat will run you out of our den and it does a good job of heating up the downstairs. Our problem is the master bedroom is upstairs. While our downstairs is pleasantly heated, when we go upstairs it feels like the Arctic! I know heat rises but it doesn’t seem to have enough juice to make it upstairs. What if anything can we do to help the heat rise to the second floor. Any help would be much appreciated.

ALSO…..I know that a wood burning fireplace is not the best for our environment but with alternative energy being so expensive (solar panels, etc.) I am forced to figure out what I can do to try to reduce our cost until there is a better and cheaper alternative.

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The Cost of Home Energy Audits

Most of the time, an energy audit is one of those unseen items that goes unnoticed until an electric bill is received that seems disproportionally large.

Savings on energy is not a real concern when the weather is moderate — typically the spring and autumn times of the year. It is during the summertime that consumers become aware of energy usage. Most homeowners exhibit a sense of urgency at this time and look for ways to reduce their bill. An energy audit is a great way to address this problem and locate ways that a dwelling can reduce its power consumption.

The price of an audit actually depends on how many improvements are made in order to reduce costs. Audits are generally needed in older homes since they were built during a time when energy efficiency was not a concern for builders. This is in direct contrast to those of a newer house which may not benefit greatly since most of them have all of the systems in place for maximum efficiency.

There are some basic guidelines that will be addressed during a home energy audit.

Every home has systems that can suffer due to age and wear, and these include such things as the ventilation of the attic room along with its insulation levels, how old the windows are and if they are in need of repair ratings on the appliance and water heater plus the furnace and air conditioning units.

A good inspector will also generate a report that shows the homeowner the return on investment (ROI). This indicates the greatest areas for improvement and the likely spending places to improve efficiency. It may also depend on the amount of time that the home will be a residence for the current occupant. If energy savings take longer than this figure, it may be wise to look elsewhere.

Another test that needs to be done is a blower door (or air duct) test. A high velocity fan is placed in an exterior door mounted in a covered frame. This will show if there are any leaks in the home so the inspector can pinpoint for sealing at a later time.

The energy audit should also provide some suggestions as the priority of the proposed solutions. It will also provide a breakdown of the costs for each improvement and how long it will take to break even on these investments.

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Would you live in a “Green” house if it cost 10% more than a traditional residence?

Would you live in a LEED (Leaders in Energy & Environmental Design) certified residence if it could reduce your energy costs by 40-50% per year, provide cleaner interior air and reduce commuting needs by being located closer to major employment centers? However, this property would cost you 10% more than a traditional tract home or condo in the area.
Here is a possible scenario:
A typical condo in this area of town averages $300,000 USD and can be mortgaged at 7.25% for $2,050/ month. The Green condo cost $330,000 USD and can be mortgage at 7.25% for $2,250/ mo., an increased cost of $200/ mo. or $2,400/ yr.
Both projects are located in a central urban area that’s a 10 min walk to light rail, and a 5-10 min walk to downtown, grocery stores, sport centers, restaurants, etc. The Green condo promises energy savings of up to 60%, lowering a $2500 annual energy cost to $1,500, a savings of $1,000 or $83 per month. You are still spending $117 more per month to live in the Green condo. Now, you also have things like recycled content materials, an air-purification system, upgraded insulation, open space, non-gassing paints, or formaldehyde products; reducing the societal costs associated with the carbon pollution, waste, and other byproducts associated with housing development.
Now, lets say that you and your spouse lived 15 miles away from your major employment center, where you both work and where you are considering moving. You have two cars that get 20-25 mi/gallon and you drive an average of 12,000 mi/yr., spending approximately $10,000/yr to drive each car. Would you give up one (1) of your two (2) cars and carpool, walk to work, etc. in order to save the additional $10,000/yr? In fact if you took that $10,000 and contributed it to your mortgage every year you would save over $276,000 in interest payments over 30 years, a $9200 interest savings every year and you would pay the loan of in 173 months or 14.4 years.

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Incorporating Passive Solar Energy In Home

My interest in renewable energy stems from the fact that I am planning to build a house from scratch in the very near future. As a new construction it will give me a clean slate to work with. I would like to incorporate as much renewable energy technology as I can in this house. In fact I want to have an off the grid house.

As I will be building the house from scratch I will be able to incorporate the full spectrum of renewable energy in the design of the house from the low-tech to the high-tech.

Passive energy is a “low-tech” approach. When constructing or remodeling a house, a bit of advance planning will yield a considerable amount of possibilities to use solar energy to both heat of cool your home.

The running costs of a building can be reduced if the reliance on mechanical or electrical heating, cooling and lighting can be reduced.

Passive solar energy cannot be tacked on to a building. Passive solar energy is not an addition to a house that can be added later or at the end of the building process. It is therefore essential to consider the possibilities for passive solar energy right from the start of the building process i.e. at the planning stages.

Passive solar energy system must be incorporated into and form an integral part of an energy efficient building and landscape.

The field of passive solar energy involves building design and the placement of appropriate building components to make the best use of sunlight for day lighting, passive heating and/or passive cooling. Besides saving energy, a primary benefit of passive solar is improved comfort for the occupants.

Passive solar energy is a resource that does not require machinery. If properly designed, buildings can use daylight year-round to capture the sun’s heat in the winter and minimize it in the summer. Buildings designed in such a way utilize passive solar energy to help heat, cool, or light them.

Your energy requirements can be reduced considerably through the use of passive solar design, better insulation and energy efficient appliances. The amount of energy saved will naturally vary on the architectural design of the house, the landscaping surrounding it, and the efficiency of the appliances including the illumination.

Many passive solar heating design features also provide day lighting. The use of natural sunlight to light up or brighten a building’s interior is known as day lighting. An open floor plan allows the light to reach throughout the building. This can result in substantial savings on electric bills, and not only provides a higher quality of light, but improves productivity and health. Combining natural day lighting with natural ventilation strategies can considerably reduce energy consumption, making a significant contribution to a sustainable building design.

The most common building component used in passive solar energy is the windows. Over a year, most windows loose more energy than they gain. Advanced windows systems can actually be net energy suppliers, with better net annual energy performance than the most tightly insulated wall.

Advanced windows systems use a combination of double or triple glazings, low-emissive coatings, argon or krypton gas fill, and transparent insulation. Choosing an advanced window system and placing most of them to face southwards can reduce your annual heating load considerably. Studies have shown that houses designed using such passive solar concepts can require less than half the heating energy of the same house using conventional windows with random window orientation.

In winter, when the external temperature cools down in the evening, the thermal mass will radiate that absorbed heat into the rooms. Proper design and selection of shading devices can also result in reduced cooling loads in the summer. Apart from shading devices a passive solar cooling device such as the thermal chimney can be used to help cool down a house. It is of a similar design to that of a smoke chimney but instead of smoke it vents hot air out of the house through the roof.

Another approach for getting more solar energy into your home is to build small additions, sometimes referred to as sun rooms, which are designed to maximize solar intake. If the ventilation for these additions is properly designed the incoming energy not only provide heat to the sun room itself, but can be extended via convection or forced air systems to help heat the rest of your home.

A significant challenge for the next generation of modern dwellings is the integration of advanced window technologies, superior day lighting and passive solar heating for buildings in cold climates. New technology developments, in particular with advanced windows and airtight envelopes, make many older passive solar “rules-of-thumb” obsolete, and require the use of energy performance analysis tools.

The use of environmental modelling, a new and invaluable design tool that provides a detailed computer analysis of the internal environment with predictions of temperature, airflow, CO2 concentrations and daylight levels will help in designing more energy efficient houses.

With a bit of planning, passive solar energy design can reduce your energy requirements which also reduces the amount of energy your micro-solar and wind power plant has to produce.

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Need help with reducing energy costs!?

I have been trying to be more energy conscious because I don’t have a lot of money to spend on electricity. I keep my thermostat set at 60 when I’m not home and turn it up to 65-67 degrees when I’m there. I have been very careful about not turning on more lights than I need and turning them off when I leave the room. However, my bill has gone up steadily over the last three months. I cannot afford for it to increase any more if it gets any colder. Is there any advice on how I can reduce my energy costs? Any information would be very much appreciated.

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Samsung LN32C350 LCD TV | 43% better than Energy Star Standard

LN32C350 Samsung

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The LN32C350 32-inch HDTV from Samsung’s Series 3 line for 2010  provides excellent picture quality and performance at a very affordable price.  It is also up to 43% more energy efficient than minimum Energy Star requirements, so your savings continue throughout the life of this LCD TV.

You might ask why one would post about a flat screen TV under “conservation” or “reducing energy bills”.  Simply put, the small things add up to a significant difference in the long run. This is true for our personal energy use and electrical costs; it is also true of the larger picture, when we consider which way we want our society to move when it comes to responsible management of our resources.

Apart from the vastly improved picture quality, a primary benefit of an LCD TV like the LN32C350 is its long lifespan. Depending on hours of use per day, a good LCD television can last 20 years or longer.  That means less waste, less technology in our landfills — it also presupposes that we will not replace our TV every year just to “keep up” with the latest technology.  This is certainly one drawback of current consumer electronics markets.  Most companies are catering to a market that wants the newest, the latest, the most advanced equipment, even if the equipment they have is perfectly adequate.

That’s another reason to choose the Samsung LN32C350. User reviews indicate that it provides very good quality picture at an affordable price.  Buying “cheap” is not cheap if you’re dissatisfied with the product and end up replacing it within a year. Samsung’s technology is at the forefront nowadays, so it’s possible to plan on keeping that TV for the long haul.

A more concrete reason to choose the LN32C350 if you’re concerned about energy use and conservation is the fact that this model is 43% more energy efficient that required by minimum Energy Star ratings.  That means less energy used, less electricity purchased for each hour that the television is in use.  Multiply that saving over the lifespan of the TV, then multiply that by the number of people who choose this model from Samsung, and it’s not hard to see that it can add up to a substantial total.

Check out complete details for the Samsung LN32C350 – it may be exactly what you’re looking for.

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How Porch Awnings Can Reduce Your Energy Costs

Porch awnings are a great way to keep yourself cool on hot summer days and dry when it is raining on your home’s porch.  Both fixed and retractable awnings share many advantages and very few disadvantages, but retractable awnings are proving to be the better investment thanks to new technology and ease of use.

Many centuries ago, people used to make their own retractable awnings that could be folded up manually when they were not needed.  Nearly every home had some form of awning attached to it.  However, these were crudely made and did not work nearly as well as today’s awnings.  Now that today’s air conditioning costs have skyrocketed, people are beginning to invest in awnings again as a way of keeping themselves cool to save some money.

The key to cutting your air conditioning costs by nearly 50% in the summertime is by installing a porch awning and sun shades over your doors and windows.  Your awning will provide one layer of heat protection, and the window shades will provide a second barrier.  When the air reaches your windows, the awning will have already cooled down, meaning even cooler air will enter your home.

Retractable awnings are very easy to use today because with the flick of a switch they can fold up so that you can soak in the sun if it is not too hot outside.  Plus you will not always have a double layer of protection over your windows.  If it is mild outside, you may want the heat to reach your windows, which can only be done if you collapse your retractable awning.

These awnings are normally made of aluminum or cloth and can be found in a wide array of designs.  This means you can find one that matches your home without a problem, making it an aesthetically-pleasuring addition to your home, which some people worry about when considering installing one.

You can’t go wrong with a porch awning, and your wallet will thank you.  For the easiest possible awning to use, be sure to look into a high quality retractable awning.

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Can you remove solar panels to another home?

So we will be moving to a home out in CA, the desert part where its usually 100* Degrees. So we definitly want to get solar panels to reduce energy costs considering we will have AC all day and heating in winter. But we only to plan to live there about 2- 3years. Can you move solar panels to another house?

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