Electricity Price

Windy changes in Spain

In May 2007, the Spanish government published a long-awaited decree that regulates renewable energy generation payments. Two issues have focused particular attention: the amount of, and caps to, renewable energy subsidies; the alleged retroactivity of the proposed regulation.

Renewable energy sources, and particularly wind energy, enjoy subsidies that can complement electricity market price (“Traditional hydro” is not considered to be renewable for these purposes). These subsidies represent a significant part of the energy cost in Spain, as shown in the figure below, based on data from CNE, the Spanish National Energy Commission.

Energy generation costs, and renewable energy sources (mostly wind) and combined heat plant subsidies are shown in red and salmon, respectively. Permanent costs (orange) mainly include subsidies to the Spanish archipelagos (Canary and Balearic islands) as well as payments because of past years’ deficits. Final electricity price is regulated by the government. In 2006 average final electricity price was 77.644 €/MW-h, slightly lower than average cost, 78.220 €/MW-h. For 2007, the forecasted figures are 88.810 €/MW-h and 101.244 €/MW-h. The deficit is forecasted to be 12.439 €/MW-h that makes a sizeable pink rectangle. Main reason is, on the one hand, greater fuel prices that have lead to increased production costs; and, on the other hand, the government reluctance to significantly raise final electricity price.

The previously mentioned figures are quite relevant for wind energy remuneration under the former regime: that of Royal Decree 436/2004 issued in March 12th, 2004. Wind generators could choose between being paid a regulated tariff or the wholesale market price plus a subsidy. The figures were given as percentages of a reference final electricity price, namely 90% of it in the case of regulated tariff, or 50% in the case of subsidy. The final reference price is similar to the average final electricity price, and wholesale price is closely related to production cost. The percentages above were established when electricity wholesale price was about 36 €/MW-h. As fuel prices have escalated, so electricity market price has done (from 28.74 €/MW-h in 2004 to 55.75 €/MW-h in 2006).

Wind generators have mostly chosen to be remunerated according the “market price plus subsidy” option. For instance, if we assume a reference price in 2004 equal to average final price (77,644 €/MW-h) and that wind generators sell at average 2004 market price (55.750 €/MW-h), they would be remunerated at 0.5*77.644 + 55.750 = 94.572 €/MW-h. Actual remuneration has been possibly lower, because reference price is not exactly average final price and periods of high wind generation are correlated with lower than usual electricity market prices. The new decree (Royal Decree 661/2007 issued in May 25th, 2007), as the former one, establishes that wind generators may choose between a fixed payment or the market price plus a subsidy. A key difference is that any wind generator that decides to go for the “market price plus subsidy” will have its income bounded.

Specifically, a cap and floor of the income have been established at 84.944 and 71.275 €/MW-h respectively. Note that the floor is quite close to the regulated tariff and, perhaps more significantly, that the width between floor and cap is relatively narrow. Besides, facilities operating prior to 2008 have the right to perpetually receive the more generous tariff of the previous decree, or the previous decree subsidies until 2012.

Another novelty is the provision of special subsidies for wind generators re-powering. The subsidies are capped to 7 €/MW-h, being granted by the government on a case-by-case basis. Only facilities operating prior to 2002 are eligible.

The above economic regime is intended to incentive wind power penetration. Therefore, new wind facilities will no longer be eligible once the national objectives are met. Specifically, the decree set this objective at 20,155 MW of installed capacity (presently, installed capacity is about 11,000 MW). The government initial draft significantly differs from the final decree. Generators argued that proposed changes in the regulation regarding existing plants were not only inconvenient, but possibly illegal under Spanish law. CNE was legally obliged to report on the proposed draft. As explained above, the final decree is somewhat closer to the position of generators and wind-generators makers that the initial proposal.

The remuneration based on market price plus subsidy has been justified on the basis of providing economic signals to efficiently operate wind generators. However, this scheme also remunerates wind investment according to market prices, whilst government objectives on renewable penetration are actually independent of whatever the market behaviour may be. The new decree provisions regarding caps and floors, and a maximum wind capacity to be subsidised possibly aim to balance these concerns. In the Spanish case, the combined value of these justifications seems to hover around 30 €/MW-h (the difference between a desired wind price of about 80 €/MW-h that regulation suggests, and an expected long-term electricity price of around 50 €/MW-h).

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Source: EnergyPolicyBlog.com

House Wiring

Home Wiring Basics

Home wiring is not something to fool around with. It is literally a life and death matter. In order to ensure your home wiring is done correctly, there are a few basics that you need to be aware of.

No Power = No Trouble

The key to safe basic house wiring is always keeping in mind that electricity packs a big, and deadly, punch. Even the most trained professional takes their life in their hands if they don't follow basic safety procedure. The best preventative measure you can take, whether you're installing basic electrical wiring, or just examining the wiring you do have, is to always make sure the power is turned off from the get go. Whether you're re-wiring your entire home or just replacing a faulty outlet, be sure to take a trip to the control panel and cut the power to the area you're working on.

Know Your Electrical Code

With electrical work there is never an excuse not to follow rules and regulations. As mentioned before, electricity can be a dangerous animal if it isn't treated properly. Your locality's codes and regulations regarding residential wiring have been put in place for a reason: to protect you, the homeowner. Anytime you are working with basic house wiring, study up on standard procedures so you don't put your family or yourself in jeopardy. And if you're undertaking a major home wiring project, get familiar with your local inspector.

Components of Basic Electrical Wiring

Besides safety considerations and regulations, the other thing you want to familiarize yourself with is the make up of your home wiring. It boils down to three basic components:

• Service Entry. This refers to the point in your home where your electrical service goes from the main grid into your home. Besides that, make sure your service entry is properly installed so no water can penetrate the access point.
• Panel Board. Your panel board is your control center when it comes to electrical wiring. Whether you're installing a dishwasher or running wiring to a new addition, this is the place you visit to ensure electricity is cut off when you start your work, and where you install new breakers if you're undergoing a major remodel.
• Branch Circuits. This refers to the isolated areas of areas of your home where your panel board directs electrical currents. It's the reason you can cut power to your kitchen while leaving the rest of the house operational.

Electrical work is one of the exceptions. Unless you're experienced in home wiring, you don't want to do this job yourself. The safety risks are just too great. Add to that the need to meet local rules and regulations, and it's a good idea to hire someone who is experienced in basic house wiring to tackle this job for you.

Electromagnetics

Engineering Electromagnetics

Engineering Electromagnetics is a new text aimed primarily at undergraduate teaching although it could easily serve as a reference text for those interested in the area. Electromagnetics is a notoriously unpopular topic with many engineering undergraduates. This text however provides a very comprehensive theoretical treatment of electromagnetics whilst attempting to treat the subject as a primary topic itself rather than playing a subordinate role to other courses. This is achieved by including a large and varied number of experiments and practical engineering applications, something sadly lacking in many other texts.

The book contains a rigorous treatment of all the main theoretical aspects of electromagnetics. Chapters 1 and 2 are devoted solely to vector algebra and calculus. Chapters 3 and 4 introduce electric fields and potential whilst Chapters 5 and 6 extend this into the analytical and numerical solution of electric field problems. Numerical solution techniques (finite difference and finite element) are a particular topic that is often omitted from many undergraduate textbooks. Chapter 7 concentrates on the treatment of steady current flow. Static magnetic fields and magnetic materials are introduced to the reader in Chapters 8-10. Chapter 11 is devoted to the development of Maxwell's equations whilst Chapters 12 and 13 continue the development into electromagnetic waves, propagation, reflection and transmission. The remaining six chapters focus on transmission lines including transients, waveguides and antennas. Each chapter contains many illustrations and examples, concluding with sections containing experiments with explanations, and applications and problems.

This is without doubt an impressive and comprehensive text. However it is a book that would be a useful addition to any library collection and one that I personally have found to be extremely useful in the development of undergraduate courses in electromagnetics.

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Source: FindArticles.com

Electrical Stores

Stop Paying For Electricity - Build a Combined Solar-Wind Generator System

How would you like to be completely free from paying high monthly electricity bill? If this happens to be what you are hoping for, then you need to seek to get off the grid, by building a combined solar-wind generator system. Many people around the world have now started to rely on this combination as a means of cutting the cost of their high electricity bills.

At one point, a solar-wind generator combination, or even the possibility of running both systems independently of the other, was seen as a luxury that many could not afford. But if you were to travel around the world today, you would be surprise to see how things have changed, as people from all walks of life are now able to own their own solar or wind power systems, or combined solar-wind generators.

How is it possible that those who previously could not afford either system are now able to afford a combined solar-wind generator? The answer is -- many people are still unable to afford to buy expensive systems, but most can certainly afford to build their own. This has been made possible, due to the rise in popularity of do-it-yourself solar-wind generator guides.

These do-it-yourself guides make it possible for anyone at any level (novice or technically inclined) to be able to build and install their own combined solar-wind generator systems. Why it is necessary to build a combined solar-wind generator system?

Since your main objective might be to completely do away with the burden of your high electricity bill, combining the energy sources of both solar and wind is the best option of generating sufficient electricity to get off the grid. Using the free power of the Sun to provide energy to your home makes perfect sense. Find out how quickly and easily you can begin saving money on your energy costs with a simple wind-solar project.

DIY-Energy has resources which will show you how to build a Solar-Wind Generator System for your home for a lot less than you might think. Start today and save hundreds, or thousands off your energy bill each year.

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Source: ArticlesBase.com

Electrical Installation

Information About Electrical Installation and Wiring

Until recently the standards and regulation surrounding the electrical wiring and installation in the UK varied greatly from other European countries. However the standards and regulations in the UK no longer differ substantially from other European countries.

When it comes to the UK electrical power circuits, they are normally described as either radial or ring. If a power circuit is radial the power is transmitted from point to point, which is conducted by a single length of cable that links each point to the next. Lighting circuits are normally wired in this way, but it may also be used for low power socket circuits.

The ring circuit however is unknown in many other national wiring codes. With a ring circuit a cable starts at the supply point and then goes down to each device, the same way as in a radial circuit. The last device is connected back to the supply so that the whole circuit forms a continuous ring. The building regulations, which are Part P, were introduced to England and Wales on 1st of January 2005.

When these building regulations were introduced in 2005 they were met with a lot of controversy especially when it come to the rules surrounding work that is carried out by non-professional bodies such as DIY work. Under the new regulations, initiation of any work other than simple changes becomes notifiable to the local building control authority. Work on a bigger scale than this should be carried out by a professional.

The Building Control Authority must be informed of any work that is carried out by someone not qualified under this scheme, unless the work is done in an emergency. Any electrical work carried out needs to be approved and when it is approved you will be granted a certificate, a Building Regulations Completion Certificate.

If you do have any electrical wiring or installation work that needs to be carried out on your property it is important that you hire a professional to not only make sure that your work is carried out in a professional manner but to ensure that your electrical installation or re-wiring etc meets the standards set out by the Part P regulations.

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Source: EnzineArticles.com

Generator Part

Homemade Wind Generator

Making a homemade wind generator has gained much popularity in recent years due to rising oil prices and high energy expenses. What a wind generator typically does is to channel wind in greater amounts and to convert it into energy. You might think that building a generator takes a complex process. A homemade generator for wind needs to have quality blades and a sturdy tower. A good wind generator manufacturing plan will help you go through the entire process successfully.

A few simple tools, wind generator parts from your local hardware store and some used auto parts are all you need to get energy from wind. It's a breeze to get started with wind power systems. You will be helping our environment and saving yourself some serious cash by building you own wind turbines. Renewable wind energy is worth learning about

The plans should be step by step directions so you don't get confused. The plans will show you how to get all the parts you need to build your wind mill generator. A wind homemade generator is also an excellent substitute for the more expensive solar generators which make use of solar panels. If you have a solar generator at home, you can build a wind generator so that you will have an alternative energy source even during breezy days.

You are very smart to consider wind technology. Wind is free, right? If you answered yes, then you MUST build your own wind generator. There is a little more to know then just building a wind turbine. If you use a wind generator you can easily cut electricity bills by 70% or more.

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Electricity Power

The High Costs of Solar Electric Power

Executive summary By Klaus H Hemsath

Promotion of solar power generation is booming. Why are solar farms built when financial data clearly show that solar power is still the most expensive electricity generation technology available?

Solar power plant developers and marketers obviously know that they need to lower costs. There are two major technologies for solar energy conversion. Electricity production with steam is a very mature technology. This technology will most likely become the dominant solar electric power generating technology - eventually. The concentrated sunshine creates very high surface temperatures on the solar panel. Present production costs for generating electricity with solar panels are hovering around $0.50 per kWh. Right now, solar power does not yet make economical sense.

None of the available technologies using renewable energy can compete with the cost of electricity generation from coal.

The technologies for generating electricity with solar power, wind power, marine power, and geothermal power are very well understood. At present, a respectable number of windmill farms and solar panel farms are being installed. Solar power does not make economical sense, yet. As long as solar power constitutes only a very small fraction of overall electric power generation, the additional costs of storing intermittently produced electricity power are not yet of concern. Intermittent, renewable energies and electric energy storage are inseparable.

Why You Need Solar Electrical Power

Executive summary By Richard zook

Renewable energy refers to those energy solutions that can keep churning energy without exhausting the resources.

Alternative energy sources are becoming increasingly important, and becoming increasingly popular and affordable. The two main types of electricity generation are solar electrical power and wind power. Solar power generation is the use of solar panels to capture the sun's rays and convert it into electricity. Solar electrical power comes from the sun's energy, the most abundant energy available on earth.

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Energy Saving Bulbs

The Different Types of Energy Saving Light Bulbs

Exsekutif Summary By: Muna wa Wanjiru Has

Energy Saving Light Bulbs should be in all homes. Almost all the incandescence lights consume more energy than the fluorescent lamps. There are different types of these power or energy saving lamps, which are as follows.

Compact Fluorescent Lamp (CFLs) Bulb

These are 11 watt A19 compact fluorescent bulbs. These are energy saving bulbs as they save energy around 40 watts than that of the incandescent lamps. Along with this, supra compact fluorescent lamps will lasts around 10 times more than that of the incandescent lights by saving around 75% of the energy.

Blue Patriotic Light

These are the lights which will require no more replacements of the bulbs so one can replace there old bulbs with these bulbs so as to save the energy required.

Halogen Floodlight

These are 38 watts PAR 38 halogen floodlight which saves energy up to 5660 hours energy.

The Different Types of Light Bulbs Available in the World Today

Light Bulbs are important, so stock up! There are three main types of these bulbs which are Energy saving bubs, Fluorescent bulbs and the Incandescent bulbs. These are as follows:

1. Energy saving Bulbs:The basic types of the energy saving lamps are as follows:

• GU10 Mini Energy Saver 7W daylight: These are well to replace the halogen lamps. Generally halogen lamps will need around 35W and these will needs only about 7w of the energy and therefore is the energy saving lamps.
• Full Spectrum energy saver: These are the full spectrum energy saving lamps which will give out around 6500 degrees of the color temperature.

2. Incandescent Light Bulbs:
These are the special bulbs which are blue finish bulbs which will be helpful in simulating the color of real day light which are required in the craft work or the needle work.

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Electrical Testing

High Voltage Electrical Testing

Executive summary By : Robert Palmer-7122

If you are not sure as to what high voltage electrical testing covers, you will want to get in touch with a company that offers these services. Just a few things that high voltage electrical testing includes is a complete maintenance check, breaker relay testing, grounding system testing, battery testing, cable testing, power testing, protective relay calibration, and switchgear and motor control maintenance among many others. When you opt for high voltage electrical testing you will get a full check from top to bottom.

As you can see, high voltage electrical testing is very important to some businesses. Of course, it is not right for every business but there are many that would benefit from this. You owe it to yourself to get in touch with a high voltage electrical testing company today.

Who Can Get Service?

If you are interested in high voltage electrical testing you are not alone. The fact of the matter is that not every type of business would benefit from high voltage electrical testing.

There are many industries that most high voltage electrical testing company’s service. You may very well find out that you need high voltage electrical testing right away

When hiring a high voltage electrical testing to work for you, make sure that they have plenty of experience. A good high voltage testing will catch any problems before they develop into anything too serious. Overall, many types of businesses can benefit from high voltage electrical testing.

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3 Way Switch

Wiring Three Way Switches

Executive summary By Gary Chappell-Smith

The difference between a standard switch and a three way switch is one additional terminal, or connection. A 3 way switch has 2 terminals that are either silver or brass colored and one terminal that is dark colored. The silver or brass terminals are called travelers or messengers and the dark colored terminal is called the common. In a 3 way switch circuit there will be two 3 way switches and a light or series of lights that are controlled by the switches. To understand this terminal, consider for a moment a standard switch that has only 2 terminals. When wiring a standard switch the incoming power feed (hot) conductor is connected to one terminal (usually bottom right) and the outgoing power feed to the lights is connected to the other terminal (usually top right).

Wiring your house and a Three-way Switch

Executive summary By Robert

Taking the time to plan the wiring of a house always pays off in the long run. Wiring you house this way will allow for a lot of flexibility on where you place your furniture. Canned lighting is appropriate for areas such as the kitchen and family room. Ceiling fans with a light fixture are another option to consider. Once you have made all the decisions on outlets, switches and fixtures it is best to draw out a plan for each room to be wired. The only real difference in a regular switch and a three-way switch is that the two switches on the opposite sides of the room are hooked together with what is called a traveler wire. Then it is just a matter of twisting the wires from the traveler with the regular wires, by matching up the colors and then wiring the switch normally.

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