Sunday, November 27, 2011

Cheap Power Inverters

!: Cheap Power Inverters

Quality is the hardest thing to evaluate from the description of a power inverter. You can go by status or by price (i.e. you generally get what you pay for). Cheap power inverters can be good value for money, but be prepared to purchase another one at short period.

Power Inverters convert DC power stored in batteries into AC power to run conventional electronic equipments. A power inverter allows you to run computers, entertainment systems, power tools and kitchen appliances.

Power inverters differ in price, power rating, efficiency, waveform and reliability. They produce three types of waveforms, square wave, modified sine or square wave, and true sine wave. The simplest and cheapest is a square wave inverter, but today it is uncommon. Many devices will not work on a square wave signal. True sine wave inverters work well, but are expensive. It is important to remember that the cheap power inverters might not be of good quality.

Cheap inverters often produce a square wave signal that has the same frequency of a modified square wave inverter, but sharp edges in place of smooth curves. They cause noises in many appliances, but they work quite good most of the time. Transformer operated appliances actually don't like this type of signal. There is really a risk of damaging the power supply running it from a cheap power inverter.

Cheap inverters are fine for light bulbs, but appliances like variable speed motors (e.g., electric drills) and sensitive electronics (e.g., computer power supplies) often get damaged. Lots of cheap inverters are available in the market these days. One way to find such inverters is to read the advertisements and special deals posted by each of the major companies. Then simply compare the prices from company to company and select one. The Internet is also a place where you can do all your cheap inverter research and purchasing.


Cheap Power Inverters

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Wednesday, November 16, 2011

Electric Heating - One Kilowatt Always Equals 3415 BTU's

!: Electric Heating - One Kilowatt Always Equals 3415 BTU's

Electric heating can be defined as an electrical appliance that converts electrical energy into heat. The one thing that drives me crazy is that I see some electric heaters advertised as 20% more efficient than another electric heater. The bottom line in all of this is that the amount of BTU's that can be produced from a kilowatt of electric is defined by the laws of physics.

Take any kilowatt of electric and convert it to heat and you get 3415 Btu per Kw. This fact cannot be altered or changed. So for anyone to make claims of their electric heater being more efficient than the next guy's is totally false.

There are different ways to deliver the heat and the may make some difference in the way you feel from the heat being delivered. Electric heaters that use infra-red technology may make you feel warmer without actually heating the air surrounding you. Heaters that use oil to hold or ceramic to hold the heat may radiate heat even when the element is not on making you feel warm even though the element is not producing more heat. So there are different popular methods to heat, but the bottom line is that the amount of BTU's produced by each on an equal basis will be 3415 BTU's per KW.

The exception to this is the modern heat pump. A heat pump is an appliance that uses an electrically-driven compressor to power a refrigeration cycle that extracts heat energy from the outdoor air or from the ground or ground water. The heat is then transferred to the space being heated. Heat pumps can be many times more efficient than electric resistance heating.

Another way to save a bit is a storage heating system that takes advantage of cheaper electricity prices. You use electric during low demand periods such as overnight to build up heat in a storage stone or water. This heat is then extracted from the stone or water during the day when the electric costs more.

When considering electric heating always remember that a fossil-fuelled power plant may only deliver 4 units of electrical energy for every 10 units of fuel energy released. Even when you use a 100% efficient electric heater, the amount of fuel needed to make the amount of heat needed, is more than if the fuel was burned in a furnace or boiler at the building being heated. The amount of electric that is lost by substation transformers and transmission lines is almost 2/3 thirds of what was initially produced at the power plant.

Electric heating can be good in some cases, but in many situations it is not a responsible use of our resources. Also, do not believe the claims that one electric resistance heater is more efficient than any other. One kilowatt of electricity will always convert to 3415 BTU's of heat.


Electric Heating - One Kilowatt Always Equals 3415 BTU's

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Tuesday, November 15, 2011

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Saturday, November 12, 2011

The Oceans' Wave Power

!: The Oceans' Wave Power

For more than 200 years inventors worldwide have filed patents for wave-power technology of a dazzling variety of designs-bobbing objects ("ducks"), buoys, articulated rafts, floating bags, overspills, and many others. There has been no shortage of ideas. Many of these ideas are in fact technically feasible, so it seems a shame that this renewable energy resource has not been much used. The main challenge is building a system that is economically attractive when so many other forms of energy production (nuclear, fossil fuels) receive subsidies and already have infrastructure in place. There are some wave power systems in place around the globe: the Faroe Islands; Islay, Scotland; Oahu, Hawaii (providing power for the U.S. Marine Corps. base there); Santo, Spain; Portugal; and even the world's first commercial "wave farm" in England.

The World Energy Council has estimated that wave power could produce as much energy in a year as 2,000 oil, gas, coal and nuclear power plants' twice the amount of electricity produced worldwide-by generating as much as 2 terawatts (that's 1 trillion watts).

Not every place is a candidate for wave power generation. Prime locations identified are Scotland, northern Canada, southern Africa, and the Atlantic Northeast and Pacific Northwest of the United States. Experts have estimated that wave-power systems in the Pacific Northwest alone could generate up to 70 kW per meter of coastline.

Typical Designs

Wave-power systems can be located onshore or offshore, and come in a surprising range of designs. There are currently four basic "capture" methods: point absorbers (largely vertical, with a relatively small footprint on the surface); attenuators (horizontal footprint, arranged parallel to the waves to undulate with the flow); terminators (perpendicular to the waves); and overtopping (perpendicular to the waves, which break over the system). There are different power take-off systems including hydraulic ram (water hammer pumps water above the starting point); elastomeric hose pump (peristaltic, like your intestinal tract), pump-to-shore, hydroelectric turbine, air turbine, and linear electrical generator. Here are some systems already in operation, or close to it:

OFFSHORE: POINT ABSORBER SYSTEMS

1. The Salter "Duck"-In 1970 Stephen Salter ("the father of wave power"), a professor at the University of Edinburgh, designed a wave-power device that could both stop 90 percent of the wave motion and convert 90 percent of that into electricity, a standard that all other designed continue to be measured against. Ironically, the Duck itself never went into use. During the 1990s, a project based on the Duck and dubbed the OSPREY (Ocean Swell Powered Renewable Energy), commenced in the Clyde Estuary of the Scottish coast. Capable of generating 1 mW of power, the OSPREY was on its way to becoming an unqualified success until Hurricane Felix came along and sunk it (at great expense in terms of both money and confidence).

2. The AquaBuOY wave energy device-AquaBuOYs (Finivera Renewables) really do look like navigational buoys, and this is no coincidence. Obviously, maximum output from a wave-power device should be during those times when the waves are at their highest, but if the technology can't withstand rough seas (as with the OSPREY, above), they aren't much good. Operating on the premise that since navigational buoys can survive for decades in all sorts of conditions, the AquaBuOYs were designed to ride the waves for an estimated 100 years. The vertical wave action drives a two-stroke hose pump that directs pressurized seawater into a turbine connected to a generator; the resulting power is sent via an underwater transmission line. While at least four projects are in the permitting process (including one in Makah Bay, WA), as of this writing.

3. PowerBuoy "Like the AquaBuOY above, the PowerBuoy resembles a navigational buoy, although one with long cylinder extending far below that houses the mechanics of the system. These PowerBuoys (Ocean Power Technologies) are placed from one to five miles offshore in 100 to 200 feet of water, and can be ganged together to form a "wave-power farm" such as the one to be installed off the coast of Santo, Spain. That 1.39MW station will have one 40kW and nine 150kW PowerBuoys.

OFFSHORE: ATTENUATOR SYSTEMS

1. Pelamis - Ocean Power Delivery, Ltd., developed world's first commercial offshore wave-power facility using its Pelamis Wave Energy Converter, a string of steel cyclinders hinged to articulate. It lies half-submerged, like a 150-meter-long, bright red sea snake (pelamis is the genus for the sea snake), more or less facing into the waves. The cylinders contain hydraulic pumps activated by the wave action; the electricity comes as high-pressure oil gets pumped into generators. The first phase of the wave farm, located 5 km off the coast of Portugal, comprises three 750kW Pelamis "snakes" that combined to generate 2.25 MW; another 28 are expected to be added, bringing the total power generated to 22.5 MW'enough to provide electricity for more than 15,000 homes.

OFFSHORE: TERMINATOR SYSTEMS

1. Nearshore OWC-This is an offshore version of the Limpet, described below.

OFFSHORE: OVERTOPPING SYSTEMS

1. Wave Dragon-Overtopping systems work very much like hydroelectric dams, using the potential energy of water stored at an elevation higher than the turbines it drives. The Wave Dragon overtopping system funnels the waves into its own reservoir to create a head; the water is then released through channels that contain turbines. The Wave Dragon is moored 25 to 40 meters offshore in deep water, somewhat like a floating beach.

ONSHORE: OSCILLATING WATER COLUMN:

1. Limpet (Land Installed Marine Powered Energy Transformer)- This an oscillating water column (OWC) system to convert the waves' kinetic energy to electrical power. Picture a box with the open end submerged but slightly tilted toward the incoming waves, with air trapped inside the box. Now imagine there is a narrow outlet for this air, and inside this tube is a turbine. As the waves raise the level of the water inside the box, the air rushing in and out of the tube powers the turbine. A Limpet system (WaveGen) in Islay, Scotland, uses an inclined oscillating water column (OWC) system optimized for the area's anverage annial wave intensity, and feeds a pair of 250kW generators. The Limpet power station in the Faroes is very similar. WaveGen also designs a near-shore oscillating water-column system.

There are many companies designing wave-power systems using these and other designs (such as the tapered channel system, an onshore system, and the pedulor system, an offshore device), and new ones seem to come along frequently as more countries come to recognize the potential of wave power.

Wave Power Advantages

1. Wave energy is an abundant and renewable resource.
2. Even though not every country has coastline, the combined potential output of wave-power generation would meet all the electricity needs of the world.
3. Although the equipment represents a substantial investment, the "fuel" is free and not confined by geopolitical boundaries.
4. The effect on the environment is deemed to be minimal.

Wave Power Disadvantages

1. These are most effective near coastlines, of which there is a finite supply.
2. Large scale systems are still in the early stages.


The Oceans' Wave Power

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Friday, April 22, 2011

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Wednesday, April 13, 2011

LiteFuze VT-500 500 Watt Heavy Duty Voltage Converter Transformer - Step Up/Down 110/120/220/240V - Fully Grounded Cord (Free Euro Plug)

!: Buy LiteFuze VT-500 500 Watt Heavy Duty Voltage Converter Transformer - Step Up/Down 110/120/220/240V - Fully Grounded Cord (Free Euro Plug) buy now

Brand : LiteFuze
Rate :
Price : $19.57
Post Date : Apr 13, 2011 13:48:28
Usually ships in 1-2 business days



500 Watt Maximum Capacity Heavy-Duty Voltage Converter/Transformer Heavy duty for continuous use On/Off Power Switch LED Indicator for Power Source Single phase Dual Voltage Step Up or Step Down functionality Input: 110V/120V or 220V/230V/240V (Single Phase) Output 110V/120V or 220V/230V/240V (Single Phase) Input Selection in the rear of the converter Dimensions: 7"x6"x5" * Weight: 8 lbs. Two outlets for output in the front - 1 socket - Universal outlet (220v) - 1 socket - USA Grounded (110v) Fuse protected - Fuse will cut off the current if the transformer is overloaded to protect the transformer and your appliance NOTE: We recommend to use a Voltage Converter / Transformer that's max watts is at least 50% higher than your appliance. Some appliances such as Power tools, Motors, Laser printers and TVs require 2-3 times more watts at start up than the printed rating.There is a newer version of this item at:http://www.amazon.com/dp/B003UREPKG

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Thursday, March 31, 2011

Travel Smart F11 50 Watt International Transformer

!: Order Travel Smart F11 50 Watt International Transformer coupon

Brand : Franzus | Rate : | Price : $8.99
Post Date : Mar 31, 2011 12:48:05 | Usually ships in 1-2 business days


  • Ideal for battery chargers
  • Converts 220V foreign electricity to 110V for use on most U.S. appliances rated 0 to 50 watts
  • Continuous use on 0 to 30 watt appliances
  • Intermittent use on 31 to 50 watt appliances
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Travel Smart F11 50 Watt International Transformer

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Friday, March 11, 2011

Power Voltage Converter/Transformer Step UP/Down 110-220 Volts popularelect.com

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