US Number One for Solar

We’ve been discussing the US solar industry in the last few weeks here on the Greenstream blog, wondering about the impact of climate change denier Trump’s election. Recent statistics, due to be published 9th March by GTM Research and the Solar Energy Industries’ Association indicate that the current solar industry in the US is at an all time high and only set to increase, Presidential denial notwithstanding.

The US solar market had its biggest year to date in 2016, doubling its annual record at total installations of 14,626 megawatts. 22 states each added more than 100 megawatts. Minnesota and Massachusetts led the community solar record, while most of the growth was due to an increase in utility-scale solar as it becomes ever more cost competitive with fossil fuels. Solar accounted for 39% of all new additions across all fuel types.

This makes the US, for the first time ever, the number one source of solar generation. Small surprise then that our bestselling Solar Electricity Handbook consistently tops the US solar chart!

 

 

 

 

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How to make Solar Power

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Directly or indirectly, all power on earth comes from the sun. The power of the sun is immense – every square metre of sunlight to fall on the earth provides the equivalent of 1kW of power.

This power can be harnessed in several ways, with varying amounts of efficiency. For micro generation, the most common ways to harness this power is through solar hot water heating, solar electricity generation and ground source heat.

In order to use solar power, you need a site with a lot of direct sunlight, a south facing location with little or no shade.

Solar Hot Water

Solar Hot Water

      Solar hot water is one of the most efficient ways of generating power, with modern solar hot water systems converting between 50-75% of the sun’s power into heat. Solar panels heat up fluids which are then run through a heat transfer unit to heat up water for use in your home.

During the summer months, a solar hot water system can provide enough hot water to provide all the hot water a typical household will need. During the rest of the year, solar hot water supplements the existing hot water system.

Typically, a solar hot water system can save £50-80 a year on the cost of heating hot water for a typical family home.

 

Solar PV electricity panels have traditionally not been as popular as solar hot water systems. However, with the falling costs of photovoltaic panels and the rising costs of energy bills, these are becoming more popular.

Depending on the type of solar PV panel used, solar electricity can convert between 6% and 22% of the suns energy directly into sunlight.

Solar PV panels typically generate electricity at either 12 volt or 24 volt. The power is typically stored in a battery and then either used with low voltage appliances, or inverted to 240 volts using a power inverter. A solar panel controller is used to stop the batteries from being overcharged.

Thanks to their modular design and low voltage, Solar PV systems are easy to design and safe and simple to construct, which make them ideal for DIY projects.

Are We On the Brink of a Solar Revolution?

Are we on the brink of a solar revolution? Over the past couple of years, there have been some significant breakthroughs in solar energy, specifically in reducing production costs of solar. During this time, the cost of photovoltaic panels has dropped by around 25-30% each year and this price drop shows no sign of slowing down.

In fact, if anything it is speeding up. A few companies have been working on more advanced amorphous panels that have much lower production costs. These have been in production for the past few months, with a cost point of around $0.60 per watt (about 40% cheaper than what we see today). Once production has ramped up, these manufacturers are saying they will be able to sell these panels for around one sixth of that cost.

 

So what does this mean for solar power? Quite simply, it will become the cheapest means of generating electricity available. At a wholesale cost of $100 per kilowatt (as opposed to around $1,000 today) we could see solar being incorporated into almost anything. Self-charging mobile phones, MP3 players, netbooks and laptops would be standard and the cost of fitting solar power to homes would be so cheap it would offer a payback in only a few months, no matter where in the world you lived. Warehouses and factories would all have photovoltaic roof panels, generating most – if not all – the power they need to operate by themselves. Electric cars would all have photovoltaic roof panels, providing up to 3,000km (1,800 miles) of self-generating power every year. Power companies could set up new regional power stations in just a few weeks instead of the several years it takes now.

The ability to generate electricity at an affordable price would be limited only by the amount of space you have. Got a big enough roof? You need never want for electricity again.

Solar

Have you read the book?

The Solar Electricity Handbook is the world’s best selling book on solar electricity. If you are serious about solar power, you need this book.Assuming no previous experience with solar power, the Solar Electricity Handbook tells you what you need to know about installing solar energy.

Available from all good booksellers around the world, The 2017 edition has even more information, bigger diagrams and the latest details about this exciting technology.

Click here to read a preview and to buy the Solar Electricity Handbook today.

 

Of course we still need some way of storing the energy produced so we can release it when we need it rather than just when the sun is shining, but nevertheless, this is an exciting opportunity. Incidentally, in terms of energy storage, I still have high hopes for ultra-capacitors, but as yet we have seen a lot of speculation and hype and very little in the way of practical usable products. Let’s just wait and see.

In effect, solar has the potential to do two things in the next decade: decarbonise much of our electricity generation and make electricity so cheap that it is effectively free to use.

This changes the whole dynamics of how we view and use power. If electricity is so cheap that it is effectively free, everything starts to change. How are you going to heat your home? Expensive gas or free electricity? Are you going to have a car with an internal combustion engine using expensive fuel, or an electric car with free fuel? If solar power becomes the cheapest way of generating electricity, businesses and individuals won’t choose solar “because it’s green” but “because it is so cheap, you’d be daft not to”.

New Year, New Edition for Bestseller

29th December 2016 – Greenstream Publishing will publish its eleventh edition of the internationally bestselling guide to solar electricity and installing photovoltaic systems, the Solar Electricity Handbook. The title is written by Michael Boxwell, a leading environmental speaker who is the inventor of the leading Battery LITE, an innovative solar battery storage system. The paperback is priced at £19.99/$19.99 and available from all major retailers. Full color hardback and ebook editions will also be available.

The Solar Electricity Handbook has consistently been the leading title in its subject since its first edition in 2009, outselling competitors all over the world and proving indispensable to solar installers, researchers, students and homeowners, providing an informative and practical guide to installing these energy saving and cost effective systems. The title is used worldwide as a university core reader and has been referenced in a recent White House paper on renewable energy.

Readers say:

A great guide to understanding solar and getting hands on.”

The greatest solar reference guide ever published!”

The web site that accompanies the book, found at http://www.SolarElectricityHandbook.com, is one of the most comprehensive free online resources for solar energy on the internet, featuring solar calculators and project tools to make solar energy projects as straightforward as possible.

The solar industry continues to evolve with new and improved technologies, particularly in the area of battery storage, and the 2017 edition reflects this. The solar industry remains a hugely exciting arena to work in.” Michael adds.

Author Michael Boxwell is the inventor of the new Battery LITE battery storage system, a bestselling environmental technology author and an expert in the industry for fifteen years.

How Trumps Election Could Affect Renewables

Well, for a start, Trump has dismissed climate change in the past. He seems to believe it doesn’t exist, and in fact is a myth created by the Chinese.

He also pledged to ‘stop the war’ on the coal and mining industry and stated that shale energy was the way forward and would ‘unleash massive wealth’ for America, ignoring the fact that both industries are in competition with each other, making it rather difficult to support them both. Solar and wind, the renewable energy sources we strongly advocate here at Greenstream, were dismissed as too expensive in spite of the fact that in recent years with lowered costs and innovations in technology, that argument is no longer as viable.

My guess is that most renewable energy enthusiasts, if voting purely on the issues of energy and climate change, would have gone for Clinton, whop promised to continue the strides forward taken during Obama’s residency. Trumps election then has surely come as a blow.

So in real terms, what could this mean? Back in 2009, Trump seemed to be a supporter of renewables; he gave his signature along with others to a letter to Obama before the Copenhagan Climate Summit, calling for an increase in clean energy technologies. But in his recent campaign pledges he has gone against that in dramatic fashion, promising to rescind Obamas Clean Energy Plan, back out of the Paris climate agreement and has been vocal about his dislike of the wind farms in view of his golf course.

It’s not looking good.

But I think it’s important not to catastrophise. Donald Trump  cannot, in four years, President or not, single-handedly dismantle the renewable energy revolution. He cannot stop individual states from pursuing reduced emissions. He cannot prevent the slide of the coal industry, for all his ‘war’ rhetoric. He can’t abolish the EPA without the support of Congress. His plans to spend a trillion dollars building new roads isn’t likely to be supported by conservative Republicans. He cannot change the fact that clean energy technology continues to get better and better and cheaper and cheaper.

Four years.

We can wait, Mr Trump.

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Living Off Grid

Living off-grid is an aspiration for many people. You may want to ‘grow your own’ electricity and not be reliant on electricity companies. You may live in the middle of nowhere and be unable to get an outside electricity supply. Whatever your motive, there are many attractions for using solar power to create complete self-sufficiency.

Do not confuse living off-grid with a grid-tie installation and achieving a balance where energy exported to the grid minus energy imported from the grid equals a zero overall import of electricity. A genuinely off-grid system means you use the electricity you generate every time you switch on a light bulb or turn on the TV. If you do not have enough electricity, nothing happens.

Before you start, be under no illusions. This is going to be an expensive project and for most people it will involve making some significant compromises on power usage in order to make living off-grid a reality.

In this book, I have been using the example of a holiday home. The difference between a holiday home and a main home is significant. If you are planning to live off-grid all the time, you may not be so willing to give up some of the creature comforts that this entails. Compromises that you may be prepared to accept for a few days or weeks may not be so desirable for a home you are living in for fifty-two weeks a year.

Remember that a solar electric system is a long-term investment, but will require long-term compromises as well. You will not have limitless electricity available when you have a solar electric system, and this can mean limiting your choices later on. If you have children at home, consider their needs as well. They will increase as they become teenagers and they may not be so happy about making the same compromises that you are.

You need to be able to provide enough power to live through the winter as well as the summer. You will probably use more electricity during the winter than the summer: more lighting and more time spent inside the house mean higher power requirements.

Most off-grid installations involve a variety of power sources, such as a solar electric system, a wind turbine and possibly a hydro-generation system if you have a fast-flowing stream with a steep enough drop. Of these technologies, only hydro on a suitable stream has the ability to generate electricity 24 hours a day, seven days a week.

In addition to using solar, wind and hydro for electrical generation, a solar water system will help heat up water and a ground source heat pump may be used to help heat the home.

When installing these systems in a home, it is important to have a failover system in place. A failover is simply a power backup so that if the power generation is insufficient to cope with your needs, a backup system cuts in.

Diesel generators are often used for this purpose. Some of the more expensive solar controllers have the facility to work with a diesel generator, automatically starting up the generator in order to charge up your batteries if the battery bank runs too low on power. Advanced solar controllers with this facility can link this in with a timer to make sure the generator does not start running at night when the noise may be inappropriate.

A solar electric system in conjunction with grid electricity

Traditionally, it has rarely made economic sense to install a solar electric system for this purpose. This has changed over the past three years, with the availability of financial assistance in many parts of the world.

If you are considering installing a system purely on environmental grounds, make sure that what you are installing actually does make a difference to the environment. If you are planning to sell back electricity to the utility grids during the day, then unless peak demand for electricity in your area coincides with the times your solar system is generating electricity, you are actually unlikely to be making any real difference whatsoever.

A solar energy system in the southern states of America can make a difference to the environment, as peak demand for electricity tends to be when the sun is shining and everyone is running air conditioning units. A grid-tie solar energy system in the United Kingdom is unlikely to make a real difference to the environment unless you are using the electricity yourself or you live in an industrial area where there is high demand for electricity during the day.

If you are in the United Kingdom or Canada and are installing a solar energy system for the primary motive of reducing your carbon impact, a grid fallback system is the most environmentally friendly solution. In this scenario, you do not export energy back to the grid, but store it and use it yourself. When the batteries have run down, your power supply switches back to the grid. There is more information on this configuration later in this chapter.

There may be other factors that make solar energy useful. For example, ensuring an electrical supply in an area with frequent power cuts, using the solar system in conjunction with an electric car, or for environmental reasons where the environmental benefits of the system have been properly assessed.

One of the benefits of building a system to work in conjunction with a conventional power supply is that you can take it step by step, implementing a smaller system and growing it as and when finances allow.

As outlined in chapter three, there are three ways to build a solar electric system in conjunction with the grid: a grid-tie system, a grid interactive system and grid fallback.

You can choose to link your solar array into the grid as a grid-tied system if you wish, so that you supply electricity to the grid when your solar array is generating the majority of its electricity and you use the grid as your battery. It is worth noting that if there is a power cut in your area, your solar electric system will be switched off as a safety precaution, which means you will not be able to use the power from your solar electric system to run your home, should there be a power cut.

Alternatively, you can design a stand-alone solar electric system to run some of your circuits in your house, either at grid-level AC voltage or on a DC low-voltage system. Lighting is a popular circuit to choose, as it is a relatively low demand circuit to start with.

Grid Fallback and Grid Failover systems

As a third alternative, you can wire your solar electric system to run some or all of the circuits in your house, but use an AC relay to switch between your solar electric system when power is available, and electricity from the grid when your battery levels drop too low. In other words, you are using the grid as a power backup, should your solar electric system not provide enough power. This setup is known as a grid fallback system.

Grid fallback and grid failover are both often overlooked as a configuration for solar power. Both these systems provide AC power to a building alongside the normal electricity supply and provide the benefit of continued power availability in the case of a power cut.

For smaller systems, a solar electric emergency power system can be cost-competitive with installing an emergency power generator and uninterruptable power supplies. A solar electric emergency power system also has the benefit of providing power all of the time, thereby reducing ongoing electricity bills as well as providing power backup.

The difference between a grid fallback system and a grid failover system is in the configuration of the system. A grid fallback system provides solar power for as much of the time as possible, only switching back to the grid when the batteries are flat. A grid failover system cuts in when there is a power cut.

Most backup power systems provide limited power to help tide premises over a short-term power cut of 24 hours or less. Typically, a backup power system would provide lighting, enough electricity to run a heating system and enough electricity for a few essential devices.

As with all other solar projects, you must start with a project scope. An example scope for a backup power project in a small business could be to provide electricity for lighting and for four PCs and to run the gas central heating for a maximum of one day in the event of a power failure.

If your premises have a number of appliances that have a high-energy use, such as open fridges and freezer units, for example, it is probably not cost-effective to use solar power for a backup power source.

Installing any backup power system will require a certain amount of rewiring. Typically, you will install a secondary distribution panel (also known as a consumer unit) containing the essential circuits, and connect this after your main distribution panel. You then install an AC relay or an Automatic Transfer Switch between your main distribution panel and the secondary distribution panel, allowing you to switch between your main power source and your backup source:

In this above diagram, a second consumer box has been wired into the electrical system, with power feeds from both the main consumer box and an inverter connected to a solar system.

Switching between the two power feeds is an automatic transfer box. If you are configuring this system to be a grid fallback system, this transfer box is configured to take power from the solar system when it is available, but then switches back to grid-sourced electricity if the batteries on the solar system have run down.

This provides a backup for critical power when the normal electricity supply is not available, but also uses the power from the solar system to run your devices when this is available.

If you are configuring this system to be a grid failover system, the transfer box is configured to take power from the normal electricity supply when it is available, but then switches to power from the solar system if it is not.

One issue with this system is that when the transfer box switches between one power source and the other, there may be a very short loss of power of around 1/20 of a second. This will cause lights to flicker momentarily, and in some cases may reset electronic equipment such as computers, TVs and DVD players.

Many modern transfer boxes transfer power so quickly that this is not a problem. However, if you do experience this problem it can be resolved by installing a small uninterruptable power supply (UPS) on any equipment affected in this way.

You can buy fully built-up automatic transfer boxes, or you can build your own relatively easily and cheaply using a high-voltage AC Double-Pole/ Double-Throw (DPDT) Power Relay, wired so that when the inverter is providing power, the relay takes power from the solar system, and when the inverter switches off, the relay switches the power supply back to the normal electricity supply.

 

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The Electric Car Guide; Five Star Review

Lovely review our new edition of The Electric Car Guide in this month’s AutoVolt Magazine, the premier magazine for electric car drivers and enthusiasts…

In this latest edition of this popular and essential guide, Michael Boxwell updates information given in a precise and easy to understand manner. Bang up-to-date, this book now includes information about cars including the Mahindra e2o and forthcoming Tesla Model 3. If you haven’t already made the plunge to buy an electric car but are seriously considering to do so, this book provides the facts and figures that will help you determine an informed decision. Not only does it cover electric cars, but also their sources of energy, air pollution and recharging.

You can purchase a copy here

9781907670619

We also have a sister site all about electric cars at http://www.electriccar.net