Alternative Energy Today
Alternative energy today are growing in importance today because of environmental reasons and the rising prices of fuel.
With people in most parts of the world experiencing unprecedented high prices of fuel at the gas pumps, and the cost of heating American homes in winter projected to soar by almost fifty percent, the importance of finding ways to lower the costs of energy used for transportation, businesses, homes and schools has been growing. Fossil fuels are our primary sources of energy, and these are depleting at a phenomenal rate, with populations and development increasing around the world, creating an insatiable hunger for them. Some scientists are of the opinion that if fossil fuels continue to be consumed at the rate they are, they will be practically exhausted by the time this century ends. Apart from factors like the cost and the supply, scientists have been warning for long that burning fossil fuels is causing damage to the environment, which will lead to catastrophic results for life on our planet. Hence, it has become a primary concern the world over to find and develop alternative energy sources to power our automobiles, businesses and homes, so that we can preserve the environment of the only home we humans have - Mother Earth!
In order to understand just how alternative energy sources can help in preserving the earth's delicate ecological balance, and also to help in conserving its non-renewable sources of fuel, we need to know what kinds of alternative energy resources we already have, which can be incorporated in our daily lives, along with their advantages and disadvantages. Given below are a few of the most popular ones:
Solar Power: Solar power is generally used for cooking, heating, the generation of electricity, and so on. It works by the sunlight being trapped into solar cells where it is turned into electricity. Silicon is mounted under non-reflective glass, which creates solar panels. These panels collect the photons given off by the sun, which is turned into DC power, which then goes into an inverter. The inverter turns this power into the AC power that is used in homes and other places.
Advantages – This is a practically endless renewable source of energy, because we can get this energy as long as the sun exists. Since there is no chemical reaction due to fuels being combusted, solar power does not create any air or water pollution. This source of energy is already in use for practical purposes like heating pools, water tanks, and spas, and in lighting.
Disadvantages – The biggest disadvantage is that energy cannot be produced when the sun does not shine, such as in cloudy days and during the night. It can be expensive to build solar power stations.
Wind Power: This form of energy is extracted by harnessing the wind's power to propel the blades of wind turbines. The rotary motions of the blades of the turbines are then converted into electricity with the help of an electrical generator. In the windmills of the past, the energy derived from the wind was used for turning mechanical machinery to pump water or crush grain. These days, wind farms containing wind towers are used to generate electricity, which is used in individual homes and national electrical grids.
Advantages – There is no pollution created by wind power, hence there is no damage to the environment. Plus, since there are no chemical processes taking place, as it happens when fossil fuels are burnt, no harmful by-products are left over. Also, as wind power is a renewable energy source, there are no chances of running out of it. Grazing and farming can take place in the land where wind turbines are erected, hence the land is put to other uses too, plus also help in producing another good source of alternative energy, biofuel. Wind farms can also be built off-shore.
Disadvantages – The generation of wind power is sporadic, since consistent and continuous wind is required for generating power continuously. If the speed of the wind decreases, the turbine slows down, resulting in less electricity being generated. Also, many people think that large wind farms affect the scenery negatively.
Geothermal Energy: The word 'geothermal' literally means 'heat from the earth'. This form of energy is derived by harnessing the energy of the heat present beneath the surface of the earth. Water is heated by the hot rocks deep underground, which produces steam. If holes are drilled in the area, steam is released, which is purified and used for driving turbines, which then power electrical generators.
Advantages - Geothermal energy creates no damaging after-effects, when done correctly. The plants, once built, are usually self-sufficient, as far as energy is concerned. These plants are usually small, and hence do not mar the natural landscape.
Disadvantages – Geothermal does have the potential of producing pollutants if not done correctly. If the drilling is done incorrectly, hazardous gases and chemicals can be released. Geothermal sites have a tendency of running out of steam.
Biomass Energy: This is a form of energy that is relatively unused in most parts of the world. However biomass research and production are being funded increasingly. This energy is created by using plant materials. It is another good source of renewable and relatively clean energy.
Advantages - It is an abundant source of energy, since it can be found in every part of the earth as trees, seaweed, or dung. It can be easily converted into fuel like gas or alcohol. Also, it is much cheaper compared to other alternative energy sources. The production of biomass often means the restoration of waste land, such as deforested regions. Since plants absorb carbon dioxide, the production of biomass energy does not result in the net increase of this gas.
Disadvantages - It does have the potential of contributing to global warming as well as lead to particulate pollution if it is burned directly.
These are just a few of the alternative energy resources being thought about and used around the world. As the need for such resources becomes more acute, there will be increased funding for the research and production of many other such sources.
In order to understand just how alternative energy sources can help in preserving the earth's delicate ecological balance, and also to help in conserving its non-renewable sources of fuel, we need to know what kinds of alternative energy resources we already have, which can be incorporated in our daily lives, along with their advantages and disadvantages. Given below are a few of the most popular ones:
Solar Power: Solar power is generally used for cooking, heating, the generation of electricity, and so on. It works by the sunlight being trapped into solar cells where it is turned into electricity. Silicon is mounted under non-reflective glass, which creates solar panels. These panels collect the photons given off by the sun, which is turned into DC power, which then goes into an inverter. The inverter turns this power into the AC power that is used in homes and other places.
Advantages – This is a practically endless renewable source of energy, because we can get this energy as long as the sun exists. Since there is no chemical reaction due to fuels being combusted, solar power does not create any air or water pollution. This source of energy is already in use for practical purposes like heating pools, water tanks, and spas, and in lighting.
Disadvantages – The biggest disadvantage is that energy cannot be produced when the sun does not shine, such as in cloudy days and during the night. It can be expensive to build solar power stations.
Wind Power: This form of energy is extracted by harnessing the wind's power to propel the blades of wind turbines. The rotary motions of the blades of the turbines are then converted into electricity with the help of an electrical generator. In the windmills of the past, the energy derived from the wind was used for turning mechanical machinery to pump water or crush grain. These days, wind farms containing wind towers are used to generate electricity, which is used in individual homes and national electrical grids.
Advantages – There is no pollution created by wind power, hence there is no damage to the environment. Plus, since there are no chemical processes taking place, as it happens when fossil fuels are burnt, no harmful by-products are left over. Also, as wind power is a renewable energy source, there are no chances of running out of it. Grazing and farming can take place in the land where wind turbines are erected, hence the land is put to other uses too, plus also help in producing another good source of alternative energy, biofuel. Wind farms can also be built off-shore.
Disadvantages – The generation of wind power is sporadic, since consistent and continuous wind is required for generating power continuously. If the speed of the wind decreases, the turbine slows down, resulting in less electricity being generated. Also, many people think that large wind farms affect the scenery negatively.
Geothermal Energy: The word 'geothermal' literally means 'heat from the earth'. This form of energy is derived by harnessing the energy of the heat present beneath the surface of the earth. Water is heated by the hot rocks deep underground, which produces steam. If holes are drilled in the area, steam is released, which is purified and used for driving turbines, which then power electrical generators.
Advantages - Geothermal energy creates no damaging after-effects, when done correctly. The plants, once built, are usually self-sufficient, as far as energy is concerned. These plants are usually small, and hence do not mar the natural landscape.
Disadvantages – Geothermal does have the potential of producing pollutants if not done correctly. If the drilling is done incorrectly, hazardous gases and chemicals can be released. Geothermal sites have a tendency of running out of steam.
Biomass Energy: This is a form of energy that is relatively unused in most parts of the world. However biomass research and production are being funded increasingly. This energy is created by using plant materials. It is another good source of renewable and relatively clean energy.
Advantages - It is an abundant source of energy, since it can be found in every part of the earth as trees, seaweed, or dung. It can be easily converted into fuel like gas or alcohol. Also, it is much cheaper compared to other alternative energy sources. The production of biomass often means the restoration of waste land, such as deforested regions. Since plants absorb carbon dioxide, the production of biomass energy does not result in the net increase of this gas.
Disadvantages - It does have the potential of contributing to global warming as well as lead to particulate pollution if it is burned directly.
These are just a few of the alternative energy resources being thought about and used around the world. As the need for such resources becomes more acute, there will be increased funding for the research and production of many other such sources.
Coming soon your very own residential power plant
ReplyDeleteThis is going to drive electric companies crazy: residential fuel cells that run on hydrogen gas (propane works just fine) and generate electricity for the home. Availability of these fuel cells is just around the corner, and when they shift into mass production, you'll see an increasing number of households going off the grid. This is sheer horror for power companies. Fewer customers mean higher per-household overhead for their fixed costs. It also means the companies no longer have a monopole over demand for electricity and now have to compete with an alternative technology. To make matters worse, residential fuel cells have no moving parts, so you can't sock it to consumers with ongoing maintenance costs and $80 / hour repairmen. Residential fuel cells are good for consumers, but hated by power companies. Why? Because they work better. This is stiff competition for power companies. Besides, as the Northeast blackout proved, centralized power coordination is less than perfect. Expect more blackouts to come, and once residential fuel cells are available, every blackout that receives national news coverage will cause a surge in fuel cell sales.
Green is not just a color, it’s a way of living. You can now do your part in creating a greener world, even when sitting back and relaxing at home. Fuel Cell Residential offers an innovative heat and power system based on fuel cell technology. The compact systems cleanly converts natural gas into electricirical power and hot water that can power and heat your home. The unit also produces hot water for all your typical domestic usage or to heat your spa or swimming pool. For existing homes, it connects to your standard natural gas source. For new construction, the residential fuel cell can easily be integrated in your home’s design. The benefit of fuel cell technology is no longer a dream for your home power and heating needs.
ReplyDeleteA Residential Fuel can cut your home’s energy bill by as much as 50%. Combine that with government incentive and utility rebates, home owners recoup the costs in as little as 24 months. Please try our Payback Calculator to see how fast you can payback this unit.
The Residential Fuel Cell system is connected to your homes natural gas source. The natural gas is then processed and cleanly converted to energy, providing your home with electric power and hot water. Unlike solar and wind energy which require unsightly additions to your home and property, the Residential Fuel Cell is slightly larger than a refrigerator and is installed right outside of your home. The residential fuel cells footprint is about the same as the average central air unit. The system simply connects to your homes current natural gas source. No major renovation need. If you are constructing a new home, you can easily integrate the residential fuel cell into your current design with little effort.
ReplyDeleteAll of your homes power is produced, on demand, by the residential fuel cell system. However if more power is needed from time to time, for extremely heavy usage, your system will access the power grid. If the system generates more power than need, your utility company will buy it from you. The residential fuel cell is even more reliable than your local utility company, even if your neighborhood loses power, the Residential fuel cell won’t.
We’ve covered the common types of alternative energy for your home – Solar PV, Solar Thermal, Small Wind, even Biomass – but until now we haven’t even had a category for the residential fuel cell, much less a natural gas fuel cell. The main reason for this is that up until now, there haven’t been any options for residential customers who want to use a fuel cell to power their home! Reinforcing that point is that a Google search for “natural gas fuel cells” turns up this very informative paper from the Department on Energy titled “Natural Gas Fuel Cells: Technology for improving energy efficiency while reducing environmental emissions“…the catch: it was written in 1995!
ReplyDeleteThanks to several new companies arriving on the market this technology is getting a 21st century makeover.
The excellent blog Earth2Tech, which focuses on clean energy and smart grid technology companies, recently had two great entries on companies targeting residential Fuel Cells: Bloom Energy and ClearEdge Power.
The fuel cells you are used to hearing about in cars use pure hydrogen as the primary fuel, but both of these companies are using natural gas to power their fuel cell. Why natural gas? Because many consumers already have natural gas coming into their home (to cook with, heat their water, heat their air). Natural gas is primarily made up of Methane, whose molecule is CH4 (1 Carbon atom and 4 Hydrogen atoms). It is the best choice to use in residential fuel cells because it is usually easier to strip out the one carbon atom and be left with the hydrogen, than it is to find a hydrogen filling station (although that may be changing). The fuel cell stack (see picture at top of article for a schematic of ClearEdge’s fuel cell) runs off the pure hydrogen after the natural gas that comes into the unit is reformed (the carbon atom stripped away).
Bloom Energy
This company has massive funding from Kleiner Perkins Caufield & Byers (which invests in several Green Tech ventures and Al Gore works with them) and has been generating a lot of buzz. This NY Times article on green capitalism has a great synopsis of how a Bloom Energy residential unit is performing in a trial at the University of Tennessee :
Over the past two and a half years, engineers at the University of Tennessee in Chattanooga have been testing a five-kilowatt Bloom box, which looks like a squat refrigerator and produces about as much electricity as a typical home requires. And at this point there seems little doubt that the idea K. R. Sridhar pitched to Kleiner in 2001 has become a high-functioning machine. “We installed one of his first units here to assess its durability and performance, to see if it matched the claims,” Henry McDonald, a professor at Tennessee who is overseeing the Bloom box, says. McDonald ran the box nonstop on natural gas for 6,000 hours, and its performance beat expectations. In everyday terms, the box was twice as efficient as a boiler burning natural gas, and its carbon emissions were 60 percent lower.
Until Bloom Energy comes out with more news about what they are doing (or actually reveals anything) then it’s tough to speculate much more.
ClearEdge Power
ReplyDeleteUnlike Bloom Energy, ClearEdge actually has a picture of their product! They have a nice, concise description of how their fuel cell works:
The Fuel Processor converts natural gas into ultra-clean hydrogen through a catalytic process, as opposed to burning the natural gas, which dramatically reduces pollutants. The hydrogen is processed through a Fuel Cell Stack, creating direct current (DC) power and heat. The Power Conditioning Unit converts the DC electricity into alternating current (AC), which then ties directly to the main electrical panel, providing steady continuous power for your electricity needs. The heat produced by the fuel cell is moved to the building through a heat exchanger supplying a continuous source of heating for hot water or space heating.
So this unit will create electricity AND heat for your home, making it that much more efficient.
In their FAQ section under the “How much does the CleanEdge5 cost” they say:
The list price for the ClearEdge5 is actually less expensive than equivalent residential solar PV systems, based on production. A major advantage over solar, the ClearEdge5 generates eleven times more energy than the same size solar installation. For the same capital investment, the ClearEdge5 gives you 90 MWh of annual combined electricity and heat, compared to approximately 8MWh generated by a 5kW solar system. Operating costs for the CE5 are as low as 6.0¢ per kWh based on $1.20 per therm for natural gas, assuming full electrical and heat utilization.
But I must point out two key points:
It is a little unfair to compare a system (the fuel cell) that – while efficient – still relies on fossil fuel as it’s source of power to a system that (solar) only relies on sunshine. I guess it is fair if CleanEdge is only assuming that solar buyers are only buying a solar system for the long-term financial payback over the utility grid, but this usually isn’t the case. While financial aspects usually make or break a decision to go solar PV, for the most part people install solar because the energy is completely renewable and only reliant on a free source of power – the sun. But I understand that if buyers only want to buy a system that will save them money over the very long term, then yes, CleanEdge has an advantage over solar.
Potential buyers, make sure you are aware that while the annual energy output of this fuel cell is more than a 5 kW solar system, a solar system has negligible operating costs! With the fuel cell, you still have to pay for the system AND the natural gas it uses. With a solar/wind system, you just pay for the system, and the fuel is free!
With that said, I am still a fan of the residential natural gas fuel cell. If you have access to natural gas and you do need electricity and heat in your home (just about everyone), then I think this is a great technology. Improving the picture for residential fuel cells is that there is a Federal Tax incentive for them. From the ClearEdge Rebates and Incentives page:
A federal fuel cell tax credit, an extension of the Investment Tax Credit (ITC), adds additional savings. A tax credit is different from a tax deduction, which subtracts money from gross income before tax liability is calculated. The ITC actually entitles the taxpayer to subtract the amount of the credit—dollar-for-dollar—from total federal tax liability.
For Home Owners, the fuel cell extension of the ITC will credit 30% of the cost of the unit, up to $1,000 per kW. When a ClearEdge5 is installed at a home, it qualifies for a $5000 total credit.
ReplyDeleteI would love to see some long-term payback studies! I still have some technical questions about these devices and I’d like to see a line diagram showing how one of these units connects to the home’s electrical panel and how the heat is transferred to the hot water heater/furnace, but I’m sure more information will become available as they gain in popularity. It is important to point out that these units are meant to supplement grid power, not replace it.
I look forward to seeing more from this section of alternative energy (though I can’t call it renewable energy since it relies on fossil fuel, but it is clean…er energy). I’m a fan of all technologies that make us more efficient in our daily lives and result in us using less coal to power our national grid.
Until Bloom Energy comes out with more news about what they are doing (or actually reveals anything) then it’s tough to speculate much more.
ReplyDeleteClearEdge Power
Unlike Bloom Energy, ClearEdge actually has a picture of their product! They have a nice, concise description of how their fuel cell works:
The Fuel Processor converts natural gas into ultra-clean hydrogen through a catalytic process, as opposed to burning the natural gas, which dramatically reduces pollutants. The hydrogen is processed through a Fuel Cell Stack, creating direct current (DC) power and heat. The Power Conditioning Unit converts the DC electricity into alternating current (AC), which then ties directly to the main electrical panel, providing steady continuous power for your electricity needs. The heat produced by the fuel cell is moved to the building through a heat exchanger supplying a continuous source of heating for hot water or space heating.
So this unit will create electricity AND heat for your home, making it that much more efficient.
In their FAQ section under the “How much does the CleanEdge5 cost” they say:
The list price for the ClearEdge5 is actually less expensive than equivalent residential solar PV systems, based on production. A major advantage over solar, the ClearEdge5 generates eleven times more energy than the same size solar installation. For the same capital investment, the ClearEdge5 gives you 90 MWh of annual combined electricity and heat, compared to approximately 8MWh generated by a 5kW solar system. Operating costs for the CE5 are as low as 6.0¢ per kWh based on $1.20 per therm for natural gas, assuming full electrical and heat utilization.
But I must point out two key points:
It is a little unfair to compare a system (the fuel cell) that – while efficient – still relies on fossil fuel as it’s source of power to a system that (solar) only relies on sunshine. I guess it is fair if CleanEdge is only assuming that solar buyers are only buying a solar system for the long-term financial payback over the utility grid, but this usually isn’t the case. While financial aspects usually make or break a decision to go solar PV, for the most part people install solar because the energy is completely renewable and only reliant on a free source of power – the sun. But I understand that if buyers only want to buy a system that will save them money over the very long term, then yes, CleanEdge has an advantage over solar.
ReplyDeletePotential buyers, make sure you are aware that while the annual energy output of this fuel cell is more than a 5 kW solar system, a solar system has negligible operating costs! With the fuel cell, you still have to pay for the system AND the natural gas it uses. With a solar/wind system, you just pay for the system, and the fuel is free!
With that said, I am still a fan of the residential natural gas fuel cell. If you have access to natural gas and you do need electricity and heat in your home (just about everyone), then I think this is a great technology. Improving the picture for residential fuel cells is that there is a Federal Tax incentive for them. From the ClearEdge Rebates and Incentives page:
A federal fuel cell tax credit, an extension of the Investment Tax Credit (ITC), adds additional savings. A tax credit is different from a tax deduction, which subtracts money from gross income before tax liability is calculated. The ITC actually entitles the taxpayer to subtract the amount of the credit—dollar-for-dollar—from total federal tax liability.
For Home Owners, the fuel cell extension of the ITC will credit 30% of the cost of the unit, up to $1,000 per kW. When a ClearEdge5 is installed at a home, it qualifies for a $5000 total credit.
I would love to see some long-term payback studies! I still have some technical questions about these devices and I’d like to see a line diagram showing how one of these units connects to the home’s electrical panel and how the heat is transferred to the hot water heater/furnace, but I’m sure more information will become available as they gain in popularity. It is important to point out that these units are meant to supplement grid power, not replace it.
I look forward to seeing more from this section of alternative energy (though I can’t call it renewable energy since it relies on fossil fuel, but it is clean…er energy). I’m a fan of all technologies that make us more efficient in our daily lives and result in us using less coal to power our national grid.
Water is the source of life - treasure it! R5.
ReplyDeleteWater is the source of all life on earth. It touches every area of our lives. Without it, we could not thrive — we could not even survive.
Sustainability – “We strive to meet the needs of the present generation without compromising the ability of future generations to meet their own needs”.
We should discourage wastefulness and misuse, and promote efficiency and conservation.
"Conservation is really the cheapest source of supply,"
For the benefit of mankind, maintain the quality of life and preserve the peace and tranquility of world population. Water resources must be preserved - to sustain humanity. We must eliminate wasteful utilization of water, conserve our water sources and implement rigid conservation methods. We should utilize solar and or other source of renewable energy to operate desalinization projects from the oceans. Utilize renewable energy sources to purify and transport the water to its final destination. As world population increases the scarcity of water will become a cause for conflict, unless we take steps now to develop other sources of water for drinking, rainwater harvesting – storm-water and gray-water utilization. Designing of landscaping that uses minimal amount of water.
"With power shortages and a water scarcity a constant threat across the West, it's time to look at water and energy in a new way,"
To preserve the future generations sustainability, we should look into urban farming – vertical farming. The term "urban farming" may conjure up a community garden where locals grow a few heads of lettuce. But some academics envision something quite different for the increasingly hungry world of the 21st century: a vertical farm that will do for agriculture what the skyscraper did for office space. Greenhouse giant: By stacking floors full of produce, a vertical farm could rake in $18 million a year.
YJ Draiman, Energy, Telecom and water conservation consultant