Tuesday, May 8, 2012
Solar AC?
Wow! They are using solar for cooling. That is some space age stuff. Um....no. In 1878 a French inventor named Mucot made ice with solar thermal to win a gold medal at the Paris World Exposition. There are centuries-old solar cooling concepts used in modern applications such as passive solar, evaporative cooling, Trombe walls and solar chimneys. Recent technologies include absorption cooling, adsorption cooling and PV assisted air conditioning. The most recent innovation, and what I will briefly discuss, is solar hybrid air conditioning. This technology uses evacuated tube solar collectors, the most efficient solar collectors, to increase the temperature and subsequently the pressure of the refrigerant after it leaves the compressor. This leads to more BTUs of cooling at the evaporator using less power. On a sunny day these units will operate 30%-50% more efficiently. Basically, when you need AC the most, they work the best. Some units can also operate for heating in the winter. Emptor caveat as all solar hybrid AC units are not created equal. Models using DC inverters for the compressor and fan will be more efficient. Units using heat pipe evacuated tubes will be more efficient than thermosiphon evacuated tubes. By law, all air conditioners are required to have a SEER (Seasonal Energy Efficiency Rating) of 13 minimum. The Energy Star label may be used for units that are SEER 14 or higher. Unfortunately, many solar hybrid AC units do not have a SEER rating. Do not be fooled by terms such as "calculated SEER," "EER" or "aBTUs." Taking a conventional AC unit and adding after market evacuated tubes to the unit voids the SEER rating as the unit was not tested that way. Buy only units that have been tested for SEER with the evacuated tubes installed by the factory. Also be cautious about claims indicating a tax credit. I am not aware of any tax credits for solar hybrid AC.
Saturday, July 24, 2010
Comparison of Solar Thermal Collectors
Solar thermal means using the energy from the sun to make hot water. There are two types of solar thermal collectors used in residential applications, flat plate collectors and evacuated tube collectors. I have an hour long presentation that I do on this topic, but I'll keep it brief here.
Flat plate collectors are the same type of collectors commonly installed in the 70's and 80's. They haven't reinvented the wheel. They are basically the same as they were then, but with better insulation and more efficient absorbers. They consist of a 4 ft. by 10 ft. heat collection box (smaller sizes are available) with a series of pipes encased within it beneath a glass cover. These collectors can resemble skylights. As fluid (usually a glycol mix or plain water) flows through the collector it is heated by the sun. The heat of the fluid is transferred to the hot water storage tank. Flat plate collectors are very much affected by the ambient air temperature. They will perform much better in warm conditions than in cold conditions.
Evacuated tube collectors have become increasingly more popular over the last 4-5 years. These collectors use absorber plates on heat tubes to collect solar energy. There can be anywhere from 16 to 30 evacuated tubes in a collector. There is a small amount of water within the tube that boils. The steam rises up the tube and transfers it's energy to a glycol solution in a header assembly which then transfers the heat to the hot water tank. When the steam cools and condenses, it drips back down the tube to repeat the process. The heat tube is encased in a glass vacuum tube. The insulating characteristics of the vacuum shields the heat tube from ambient conditions. Because of this, evacuated tube collectors perform nearly the same in warm conditions as in cold conditions.
The question I hear most is, "Well, which one is better?" It really depends on where you are and what you want to heat. Here, where I am subjected to the chill of the Mid Atlantic winters, I have two evacuated tube collectors, a 24 tube and a 30 tube, heating my hot water as well as the radiant heat and growing table heat for my wife's greenhouse/potting shed. If I was heating a pool in the warm summer months, I'd be using flat plate collectors.
Flat plate collectors are the same type of collectors commonly installed in the 70's and 80's. They haven't reinvented the wheel. They are basically the same as they were then, but with better insulation and more efficient absorbers. They consist of a 4 ft. by 10 ft. heat collection box (smaller sizes are available) with a series of pipes encased within it beneath a glass cover. These collectors can resemble skylights. As fluid (usually a glycol mix or plain water) flows through the collector it is heated by the sun. The heat of the fluid is transferred to the hot water storage tank. Flat plate collectors are very much affected by the ambient air temperature. They will perform much better in warm conditions than in cold conditions.
Evacuated tube collectors have become increasingly more popular over the last 4-5 years. These collectors use absorber plates on heat tubes to collect solar energy. There can be anywhere from 16 to 30 evacuated tubes in a collector. There is a small amount of water within the tube that boils. The steam rises up the tube and transfers it's energy to a glycol solution in a header assembly which then transfers the heat to the hot water tank. When the steam cools and condenses, it drips back down the tube to repeat the process. The heat tube is encased in a glass vacuum tube. The insulating characteristics of the vacuum shields the heat tube from ambient conditions. Because of this, evacuated tube collectors perform nearly the same in warm conditions as in cold conditions.
The question I hear most is, "Well, which one is better?" It really depends on where you are and what you want to heat. Here, where I am subjected to the chill of the Mid Atlantic winters, I have two evacuated tube collectors, a 24 tube and a 30 tube, heating my hot water as well as the radiant heat and growing table heat for my wife's greenhouse/potting shed. If I was heating a pool in the warm summer months, I'd be using flat plate collectors.
Wednesday, January 20, 2010
Energy Raising
There is a new initiative floating around the solar industry called "energy raising." The concept is based on the well-known barn raisings utilized by the Amish. Many hands make for light work. The solar version uses the same idea of neighbors helping neighbors, but instead of raising a barn, a solar thermal hot water system is "raised." Volunteers split into groups to assist in installing the evacuated tubes and rack, the piping and other components. The host of the energy raising pays it forward by helping out on other installations. Participating in an energy raising is a great way to lower the cost of a solar thermal installation. Some professional help will be required in regards to connecting the water tank to the plumbing and electrical systems. A group in Plymouth, NH has pioneered the energy raising concept, but there are other groups that have followed suit. I am a proud contributor to the energy raising efforts of the DFA Task Force for Energy, Environment and Sustainability in Gettysburg.
Wednesday, January 13, 2010
Efficient Seed Propagation Lights
My wife operates a small Certified Naturally Grown farm. She calls me her "farm hand." I guess the title fits as my responsibilities include those similar to what a farm hand would do; rototilling, bark chipping, fetching compost and building hoop houses and cold frames. Since I don't get paid for my services (other that by delicious "locally grown" veggies) I need a title. I don't care too much for the title she gave me, so I am to be known as the self-anointed Director of Energy Consciousness. She has decided to implement lighting for seed propagation. I am leery of using the term "grow lights" in fear of ending up on some DEA watch list, but that is what they are. After much research on lighting of this sort, I have determined that a mix of T5, T8 and T12 fluorescent lights will serve her best. The factors I considered most important were lumens per watt, cost and availability and environmental impact. T5 lights give off more light per watt and are more environmentally conscious in regards to mercury, but they are expensive and not available locally and would have to be ordered. Fortunately, she has a 2' T5 "sunlight" lamp which I modified to be used for her intended purpose. Since we have some older 4' T12 lights, I felt is was best to modify them with reflectors and mount them over a growing table. Their light output per watt is considerably lower than the newer T5's and T8's, but I felt it was best to use them until the end of their lives to avoid prematurely having to contend with the associated mercury issues, plus there was no expense involved. The remaining lights in the growing system are T8 lights. The light output per watt is close to the T5's and are readily available at the local home improvement center. I bought some Energy Star rated 4' T8 fluorescent shop lights with hanging chains and a power cord for less than $10 each. The 32 watt bulbs produce 20,000 lumens. I mixed some 5,000K "sunlight" bulbs with some 6,500K "daylight" bulbs to average the 5,500K needed for optimum growing with a suitable blend of light in the blue and red ranges. Now I just have to build a growing rack to hold the new lights. Oh wait, that is something a farm hand does...
Wednesday, July 15, 2009
Rain Barrels
Rain barrels are a simple and effective way to use rain runoff from your roof to irrigate your gardens and flower beds. The advantages are three-fold. You lessen the amount of runoff which decreases pollution and erosion, you conserve water by decreasing your water usage for outdoor purposes, and you reuse the barrel thereby negating it being disposed of or going through the recycling process. There are many styles of rain barrels available, but the concept is the same, divert the water running down your gutter downspout into a barrel for later use. Your rain barrel should have an overflow pipe which can be directed to where the downspout previously drained, or into another rain barrel. Some rain barrels have an old-fashioned pitcher pump mounted to the top to draw off water while others simply have a hose bib attached to the bottom of the barrel to draw off water. If using the type with the hose bib, I recommend setting the rain barrel op on concrete blocks. This will make it easier to get to the hose bib and also provide a little elevation for pressure if running a hose directly from the barrel to your garden. You can buy 55 gallon plastic barrels from a food service vendor for $5-$10, or you can order an oak barrel with an iron base for $275 online. The food service barrels are usually bright blue, but can be painted to match your house. I installed a rain barrel on my house recently and it took less than 15 minutes. It quickly filled during the following rain storm, so I need to get a few more. Surely, it is time to "roll out the barrel." It is, and don't call me Shirley.
Monday, May 11, 2009
Weather Responsive Heating Controls
There has been a lot of recent interest in weather responsive controls for residential heating systems. This is nothing new. I have been installing them since the early 1990's. Basically, it is a control that connects to your heating plant and provides additional control of your system temperature. A weather responsive control has at least two sensors, one to measure outdoor temperature and one to measure your system temperature. More complex controls can have additional sensors for heating zones, individual rooms and domestic hot water.
Your heating system was installed based on what is known as design temperature, or the coldest expected temperature for your area. Heating systems could be considered oversized, since the temperature may only fall that low for a few days of the year, but when it does, your house will stay warm. Also, your heating plant operates like a teenager with a Mustang, either petal to the metal, or slam on the brakes. When there is a call for heat, your heating plant fires and runs up to it's highest setting. When your thermostat is satisfied, it shuts off. This is perfect, if it is the dead of winter and you are at the design temperature, but how often is that? If it isn't that cold out, it makes sense that you don't need as much heat from your system, right?
A weather responsive control does just that. It modulates your system temperature based on the outdoor temperature. When it isn't that cold out it doesn't let your system get too hot. It only lets your system reach a temperature sufficient to heat your home at the current outdoor temperature. A weather responsive control will work with any type of heating system, but it will work best with radiant floors, cast iron radiators, or radiant baseboard.
It looks like Junior just traded in the sports car for a hybrid!
Your heating system was installed based on what is known as design temperature, or the coldest expected temperature for your area. Heating systems could be considered oversized, since the temperature may only fall that low for a few days of the year, but when it does, your house will stay warm. Also, your heating plant operates like a teenager with a Mustang, either petal to the metal, or slam on the brakes. When there is a call for heat, your heating plant fires and runs up to it's highest setting. When your thermostat is satisfied, it shuts off. This is perfect, if it is the dead of winter and you are at the design temperature, but how often is that? If it isn't that cold out, it makes sense that you don't need as much heat from your system, right?
A weather responsive control does just that. It modulates your system temperature based on the outdoor temperature. When it isn't that cold out it doesn't let your system get too hot. It only lets your system reach a temperature sufficient to heat your home at the current outdoor temperature. A weather responsive control will work with any type of heating system, but it will work best with radiant floors, cast iron radiators, or radiant baseboard.
It looks like Junior just traded in the sports car for a hybrid!
Tuesday, April 28, 2009
Reducing the Pollution From Your Lawn
We know that the nitrates and phosphates found in fertilizers cause tremendous pollution. We know that heavy rains wash these substances into streams, lakes, rivers and bays. We know the devastating environmental damage they cause. We also know we are not doing enough to prevent it. Here are four tips to help you reduce your contribution to this problem.
1. Avoid using commercial phosphate/nitrate laden fertilizers on your lawn. Duh. Use organic fertilizers, manure or compost. If you lessen the pollutants in your lawn and garden, there will be less to wash off, and the problem is lessened.
2. Practice erosion control by covering bare soil with mulch or by planting grass or cover crops. Less exposed soil equates to less erosion, and subsequent pollution, by the actions of wind and rain runoff.
3. Use rain barrels on your gutter downspouts to contain water that would normally be allowed to run off and use it for outdoor watering. You will ease the burden on the streams and also conserve water in the process.
4. Install a rain garden. This rainwater containment area holds a vast amount of storm runoff and any pollutants it would be carrying. The natural actions of plants and soil work to offset the pollution. In some areas, it is required by code to install rain gardens to contain the runoff from large commercial parking lots. Installing one for your home would be an inexpensive and beautiful way to go the extra mile in your conservation efforts.
1. Avoid using commercial phosphate/nitrate laden fertilizers on your lawn. Duh. Use organic fertilizers, manure or compost. If you lessen the pollutants in your lawn and garden, there will be less to wash off, and the problem is lessened.
2. Practice erosion control by covering bare soil with mulch or by planting grass or cover crops. Less exposed soil equates to less erosion, and subsequent pollution, by the actions of wind and rain runoff.
3. Use rain barrels on your gutter downspouts to contain water that would normally be allowed to run off and use it for outdoor watering. You will ease the burden on the streams and also conserve water in the process.
4. Install a rain garden. This rainwater containment area holds a vast amount of storm runoff and any pollutants it would be carrying. The natural actions of plants and soil work to offset the pollution. In some areas, it is required by code to install rain gardens to contain the runoff from large commercial parking lots. Installing one for your home would be an inexpensive and beautiful way to go the extra mile in your conservation efforts.
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