Will-Saving-Energy-At-Home-Save-You-Money?

Will saving energy at home also save you money?

HOMEOWNERS WHO install energy-saving measures such as loft insulation and solar panels might save the planet, but they will probably not save any money - at least, not in the short term.

A study by the Royal Institute of Chartered Surveyors (RICS) shows that solar panels to heat water could cost £5000 to install in the typical three-bedroom terraced house. But they would knock only £24 a year off the average energy bill, which means it could take about 208 years to get a return on the investment.

Jill Craig of RICS says: "The government needs to do a lot more than just introduce a fridge-style' energy rating system to encourage people to take up energy-saving measures into their homes. RICS has been calling on the government to reduce the level of VAT applied to all energy-saving measures and to provide an attractive grant programme to aid real change. If this government is really serious about combating climate change, it has to turn its big talk into even bigger actions."

RICS looked at eight measures that are recommended for a "greener" home. The cost of all eight, including insulation, condensing boilers and double glazing, would be £23,547. But they would cut the typical fuel bill by only £486 and so would take 48 years to recoup.

It would, for example, take 124 years to earn a return on an investment of more than £9000 in double glazing. If you installed underfloor insulation, you would have to wait 54 years to cover the cost with lower energy bills. Even loft insulation would take 13 years to generate savings in utility bills, according to the study.

"People on average spend 16 years living in one property, making most of the energy-saving measures financially unattractive propositions," says RICS.

But the Energy Saving Trust (EST) disputes the findings. Keith Marsh of the EST says: "We disagree with many of the installation costs stated by RICS, partly because they make no allowance for grants and offers that are available. There are also many straightforward things that people can do straight away - such as turning down the thermostat and switching to low-energy lightbulbs."

The government has been criticised for recently capping the grants that are available under the Department for Business, Enterprise and Regulatory Reform's Low Carbon Buildings programme. The programme was set up in April 2006 and offers grants to people who want to generate their own power from renewable sources. But the DTI recently cut the grants available for wind turbines and solar photovoltaics (PVs) - another system that generates electricity. The maximum grant you can now get for a wind turbine is £2500, down from £15,000. The grants for PV panels have halved to £2500.

A wind turbine can cost about £12,500 to install; in some cases the price can be as high as £25,000. If you can apply for a maximum grant of only £2500, you are going to be left with a hefty bill.

A typical domestic photovoltaic system costs between £10,000 and £18,000. The panels can also generate up to half the average family's supply of electricity, saving up to £125 on the annual bill. But it would still take years to recoup the costs, even with a possible grant of £2500.

Households in Scotland might be eligible for more help with funding. The Scottish Community and Householder Renewables Initiative can award a grant of 30% of the cost of installing renewable measures up to a limit of £4000. But you cannot apply for a grant under the Scottish initiative if you have already applied for a grant from the Low Carbon Buildings Programme.

If you decide it's too pricey to generate your own power, you can still do your bit for the environment by cutting the emissions from your home.

The energy we use to heat, light and power our homes is responsible for producing 27% of the UK's CO2 emissions. So we can make a difference if we make sure we use our energy efficiently.

Insulation does not make the headlines in the same way as solar or wind power, but it's just about the best way to cut the emissions from your home. Every household in the UK creates around six tonnes of carbon dioxide every year. If you insulate your loft and walls you could save around two tonnes of CO2 a year, which is a reduction of one third.

Start at the top of your house, with the roof. You should then check your walls. If your house was built between 1930 and 1980, it will probably have cavity walls, and they will probably need to be insulated. This is not as messy as it sounds - an insulating material is simply pumped into the gap between the walls. RICS estimates the cost at £728 but calculates that you would save £145 a year on your bills. So you could recoup your capital in five years.

Double glazing keeps more of the heat in your home, so you could knock about £75 a year off the average bill. But it's expensive. You could fork out £9327 for a three-bedroom house, according to RICS, so don't expect to recoup your money any time soon.

Secondary glazing is cheaper - an extra layer of glass if fitted inside your existing frame.

You could save another tonne of CO2 a year if you fit a condensing boiler. It's not cheap - they cost about £2000 to fit, but they can cut your energy bill by about £52 a year. If a new boiler is a bit pricey, make sure you've lagged your old boiler. A standard jacket costs a mere £10.

If you need to update any other appliances, look out for goods that carry the Energy Saving logo. They don't always cost much more, but they might save you money on your bills.

And don't forget energy saving lightbulbs. They cost about £3.50 each and use up to four times less electricity than a standard 60W bulb. They also last about 12 times longer.

You can get a free energy audit for your home by contacting the Energy Saving Trust at www.est.org.uk. The website also has lots of useful energy-saving tips and information about grants.

Reduce-Reuse-Recycle

3 Golden Rules (3r's)

1. Reduce
2. Reuse
3. Recycle

Follow these and you are on your way to a sustainable, green & Low impact lifestyle.

The-Green-Guide-National-Geographic-Society

I stumbled on a great site 'The Green Guide' owned and run by 'The National Geographic Society'

It covers many Green Topics including, Carbon Neutral Products, Green Issues (Of Course) Green Travel, Green Living and much more.

Their website is http://www.thegreenguide.com/

Don't forget to visit the homebrewpower Forum, it's free, it covers tons of subjects about Carbon Neutral Power Generation (Wind Turbines, Solar, CHP, MCHP, WVO & WMO Burners & many other interesting topic's)

It is brand new, free to join and specifically for like minded people.

Andy Mahoney
http://www.homebrewpower.co.uk

HomeBrewPower-New-Van-Signage-2007

The HomeBrewPower Van with it's brand new signage in November 2007

Look out for us around the UK, if you spot the van then let us know, drop Andy a line on

07504 50 50 89

Andy Mahoney
Home Brew Power
07504 50 50 89
www.homebrewpower.co.uk

Brand-New-FREE-Forum-Opened-On-HomeBrewPower

For all visiting, please pop across to the HomeBrewPower Free Web Forum to discuss all things Off-Grid and alternative Energy. Either visit the FORUMS link at the top of each and every page or alternatively please click on the link below.

Please join up and make the most of the FORUM here. I would like it to soon become a central meeting point for all of you out there with a passion of alternative Energy.

Kind regards

Andy Mahoney

http://apps.homebrewpower.co.uk/Forum/

Off-Grid-Power-Heating-Design-Installation-Bespoke

Off-Grid Power & Heating Design & Installation Service

Andy Mahoney
Home Brew Power
(Off-Grid Power Installer - UK)
http://www.homebrewpower.co.uk/

Off-Grid-Solar-PV-Project-UK

Project;Wood Forge Off-Grid Power To Remote Forge.

Home Brew Power comes across many bespoke projects in the alternative / renewable power generation business. Odian Wood Forge in Kent is a fine example worth a mention.

We are providing a solar setup to supply the forge with single phase 230VAC power to feed the extractor fan and forge fan motor. the Solar PV panel will charge a bank of SLA batteries via a charge controller which in turn powers a PSW (Pure Sine Wave) inverter. The system has been designed to allow additional sources of power to be added, if required, in the future.

The forge will be in use approximately 4 hours per week. The remainder of the time the autonomous RE (Renewable Energy) system will replenish the batteries.

DIY-Solar-Hot-Water-Heater

DIY Solar Hot Water Heater - Doug Kalmer

Monday, 16 January 2006

This is an article written by Doug Kalmer about his DIY solar hot water heater:

"This Photovoltaic (PV) pumped hot water system has been working well, with no maintenance, for years on my house.I am now past the point where the money I invested in the solar water heater equals the money I would have spent on electricity to heat water. Most of the year, we have more free hot water than we can use. Consider the fact that in the next five to eight years you are going to pay the cost of a solar water heater,whether you buy one or not. I kept costs down by doing all of the work myself, and buying a used collector panel, but still created a long lasting, efficient, high quality system.

I started by looking in the yellow pages under "Solar", and found a plumber in the nearest large city, with spare collector panels. I bought a 3`x13` aluminum collector with copper tubing and tempered glass cover for $100, guaranteed not to leak, but I tested it first, anyway. Assuming the collector needs to be freeze protected, a non-toxic antifreeze, usually propylene glycol, is pumped through the collector, to the heat exchanger tank. The simplest way to circulate the anti-freeze is with a 12 volt pump directly wired to a small photovoltaic panel, this eliminates the need for controls of any kind. When the sun is heating water, the pump runs. I bought a matched set of a 10 watt 12 volt solar electric panel, and bronze magnetic drive circulation pump from Zomeworks. The most expensive single component was the Heat Exchanger (HE) tank. I looked at what is available, and most are built around the ordinary glass lined steel water heaters, which have a limited lifetime. For less money, I had a stainless steel tank built with 50' of 3/4" soft copper tubing in the lower half as my Heat Exchanger. It holds 85 gallons, and acts as a preheater for the regular electric water heater. Non ferrous stainless will outlast me.

Storage Tank containing Heat Exchanger

Proper sizing of the system is important. Plan on at least 20 gallons of storage tank size for each of the first four people and 15 gallons for each additional person per day. You should have at least 40 square feet of collector area for the first two family members, then add 12-14 square feet for each additional family member. Keep tank size at a ratio of 1.5 gallons or more to one square foot of collector area to prevent overheating.

Besides the pump, panel, HE tank, there are a few other parts to the system:

1) A pressure gauge (0-60psi) will let you know the closed loop has not lost it`s charge of antifreeze.

2) A solar expansion tank allows the solar solution to expand as it heats.

3) A check valve above the tank to prevent thermosyphoning at night.

4) A pressure relief valve.

5) A hose valve at the lowest point for filling and draining. It really is a reliable, efficient system, we do no maintenance to it. I can read water temperature going in to my electric water heater, and most of the year, it is above the 120* setting of the thermostat.

It's your choice-you can invest in solar now, demonstrating your support for sustainable energy, and getting free hot water after your payback period, or continue to pay ever-increasing energy bills, which indicates your support for maintaining the status quo."

Last Updated ( Thursday, 19 January 2006 )

ABB-Is-To-Provide-Northhamptonshires-First-Wind-Farm

ABB has provided a comprehensive electrical infrastructure service for Enercon Gmbh to connect Northamptonshire’s first wind farm, at Burton Wold, into the local power distribution network operated by Central Networks, the E.ON UK company.

The project included making the individual cable links between 10 wind turbines, fitting out the site substation and commissioning the main 33kV cable that now feeds up to 20MW of renewable power into the Central Networks grid.Burton Wold wind farm started operation in May 2006.

The project was developed by Your Energy Ltd, is owned by Mistral Windfarms and operated by Your Energy Services Ltd – companies all operating under the Mistral Group. E.ON UK is buying the electricity output under a long term power purchase contract.The 71m diameter, 2MW, turbines at Burton Wold were supplied by Enercon Gmbh, one of the world’s leading wind turbine manufacturers.

ABB has developed a long standing relationship with Enercon in wind farm projects in mainland Europe, and this resulted in the award of the grid connection contract for this project.Over a four-month period from December 2005 to March 2006, ABB carried out all the customer electrical infrastructure works at Burton Wold including: - installing and connecting the 33kv turbine power cables, fibre optic telemetry systems; supplying and fitting out of the site substation, carrying out all on-site civil works connected with cable-trenching and erection of switchgear; testing and final commissioning.

Micropower-Combined-Heat-And-Power-CHAP-CHP

CHP,Micro CHP,Stirling Engine,Reciprocating Engine

Micro-CHP

These systems are usually fueled on gas, although some can burn a range of other fuels, and produce electrical power and thermal energy from the single fuel source. The two major types of engines used in microCHP systems are:

Reciprocating engines

The electrical output of this type of micro-combined heat and power (microCHP) units typically start at about 5 kW offering around 10-12kW of thermal output. Significant development work has been underway and currently continues, particularly in the USA, but here in the UK Baxi Technologies UK are leading the market.

Stirling engines

These are external combustion engines with a sealed system using an inert working fluid, usually helium or hydrogen. They range in size from ½ kW upwards and are now available on the market with the leading brands being Microgen and Whisper Tech

UK-Alternative-Energy-Installer-Solar-Wind-Turbine-Solar-Hot-Water

Homebrewpower is looking for sourcing some future work.

Anyone who is looking for an Off-Grid installation of Wind / Solar / Solar Hot Water please feel to contact us on 07504 50 50 89

Andy Mahoney
Director
http://www.homebrewpower.co.uk/

NPower-Solar-For-UK-Homes

NPower solar

Tap into the power of the sun.....

No matter where you live in the UK, you can take advantage of the sun’s natural energy to generate your own electricity and hot water. Even on cloudy days, solar panels can capture solar rays and convert them into electricity. They do this silently and because they don’t emit any harmful pollution, they will increase your home’s and family’s green credentials.

Although the number of British homes using solar power is currently quite small (around 6,000 in 2006) – it’s set to grow rapidly over the next few years, as it already has in other countries. Germany, for example, has around 140,000 homes using solar power – and in Japan, it’s almost 400,000.(Source BBC News 2007)

With npower solar you can come to us for everything you need. Working with our appointed contractor, Ecofirst, together we can talk you through all you need to know with Ecofirst managing the installation and providing any after service. We will even collect and pay you for any ROC's you are eligible to receive and in addition, pay you for any surplus electricity that you generate, if you join our buy-back scheme#. It couldn’t be easier!

Solar Photovoltaic

Solar photovoltaic (PV) panels convert sunlight directly into electricity that can be used for normal household consumption – i.e. to power electrical equipment such as storage heaters, washing machines, refrigerators, televisions etc. You may already be familiar with this technology; if you own a calculator, the chances are it’s powered by solar PV.
Each solar PV panel contains cells made of two or more thin layers of semi-conducting material, most commonly silicon. When a cell is exposed to light, electrical charges are generated and this is then fed into your home’s electricity supply.

Why solar PV?

You could lower your electricity bills – often by around 60%.
You could improve your property through improved energy performance. recognised by the new 'Home Information Pack'.

Reduce your impact on the environment .

Generating your own electricity means you can take advantage of npower’s buy-back scheme (if you join our buy-back scheme) to make money from any excess electricity you produce, for example on very sunny days. This means you can sell us back the excess electricity you export for the same amount as the standard tariff follow on rate that you would pay for the electricity you buy from npower.

npower along with Ecofirst, our appointed contractor for installation make the whole process of having solar PV panels fitted much easier, and together, we’ll help you through every stage of the journey.

Figure includes Renewables Obligation Certificate payment. Source npower Environmental & Renewables Team, June 2007.

PV systems and their installation are supplied by Ecofirst and you will need to enter into a contract direct with Ecofirst for its supply and installation. Npower does not warrant or represent and is not responsible for the quality, fitness for purpose or otherwise of the PV system or its installation and any other equipment provided by Ecofirst, nor for the actions or omissions of Ecofirst or any installer used by Ecofirst.

Contact solar@npower.com or call npower on 0800 316 1491

UK-Off-Grid-Power-Design-Installation-Services-Offered

Further to many late evenings discussing the pro's & con's of business....

I am now actively moving Home-Brew Power forwards to offer a complete Off-Grid Power design & Installation service throughout the UK & British Isles. Home-Brew Power is going to initially focus on 100% off-grid packages, i.e. Remote power solutions where no grid is available.

Grid-Tie systems may follow in the future but for now our focus will be on Eco Friendly / Carbon Neutral power generation.

Anyone who requires a quotation for remote power, either Solar PV or Wind Turbines then please contact us on 07504 50 50 89

Googleplex-Solar-PV-How-It-Should-Be-Done

Google Leading The Way To A Sustainable Future

Location:Mountain View, California
System Size:1.6 MW

Energy Output:2,611,719 kWh per year
Savings:$393,000 + annually

Results:CO2 emissions reduced by 3.6 million pounds/year (equivalent to 4.28 million car miles/year)

"At Google, we do things a bit differently. We see a bit of ourselves in the way that EI Solutions solves problems, thinks, and invents."

Robyn Beavers, Corporate Environmental Programs

Background As one of the most recognizable brands on the Internet, Google is on a mission to organize the world's information and make it universally accessible and useful. Like many of today's high-tech companies, Google requires an enormous amount of electricity to power the computers and servers it uses to run its business.

The company wanted to find a way to reduce energy costs at its Mountain View "Googleplex," as well as make a statement in support of clean energy.

The ChallengeUnlike the typical "big box" buildings found on most high-tech campuses, Google headquarters features structures with unique configurations, sharp angles, and other architecturally unusual design elements.

The Smart Solution: Intelligent use of available mounting surfacesBecause of the nontraditional design of the Google buildings, the EI Solutions team had to take a nontraditional approach to engineering the company's solar power system. To maximize energy output, the team assessed every available surface on the Google campus for its viability to hold solar photovoltaic (PV) cells. Eventually, more than 197,000 square feet on top of existing buildings and new parking lot shade structures (designed especially for the project) were fitted with cells using customized mounting hardware.

To help reduce the cost of such a large installation, plus simplify any future maintenance needs, EI Solutions used one type of PV module in all arrays.To further optimize the Google system, EI Solutions also closely examined the company's electricity usage patterns, available financial incentives, and the amount of sun received at its Mountain View headquarters.
The Result, By building the largest solar power system ever installed at a single corporate campus, Google will save more than $393,000 annually in energy costs — or close to $15 million over the 30-year lifespan of its solar system. At this rate, the system will pay for itself in approximately 7.5 years.

Npower Launches Solar Generation Initiative 23rd June 2007

RWE npower launches initiative to encourage UK uptake of solar generation

RWE npower is launching npower solar PV, an integrated service offering UK customers solar energy information through to installation and electricity generation. The introduction of this new service comes after new research revealed that only 4.5% of Brits are considering switching to solar energy in the near future.

The UK electricity supplier hopes that the new initiative will make solar power more accessible and educate homeowners about the value that solar panels can add to their homes, as well as about the environmental benefits of using pollution-free power.

RWE npower's research, carried out by Tickbox Survey on a sample case of 1,192 adults, showed that, for 60% of those who want to be more environmentally friendly, cost is the major barrier to solar installation. In addition, 11% of those asked said that they believe it is not sunny enough to warrant the move, while 6% are not convinced that the panels actually work.

RWE npower cited Micropower Council figures for 2007, which state that, at present, only 0.13% of Brits own solar panels. The utility said that even though solar panels could cut yearly electricity bills by around 40%, almost half of those asked believe that a new kitchen would add more value to their house.
Therefore, from June 21, 2007, npower is offering customers a complete solar PV solution including installation and connection to the consumer's existing electricity supply. Once the solar panels are up and running, npower can arrange energy supply and buy-back.

Robert Harper, environment and renewables manager for npower, commented: "npower's solar PV offering will make it easy for homeowners to sign-up and manage their solar journey from installation through to generating their own power. If a customer generates more power than they need, the green eco-friendly electricity will go back into the grid and npower will buy it back for the same price as you'd buy it for."

White-Paper-Meeting-The-Energy-Challenge-Electric-Heating

The long awaited Energy White Paper, ‘Meeting the Energy Challenge”, has ushered in a bright future for electricity with detailed proposals pointing to how electric heating and hot water will be integral to reducing carbon emissions and improving energy security.
Creda Profile

The Rt. Hon. Alistair Darling MP, Secretary of State for Trade and Industry, notes in the White paper that “The UK’s reserves of oil and gas are declining” and that “we will become increasingly dependent upon imports in a world where supplies are…in less stable regions. We need to create the right conditions for…investment…in increasingly low carbon electricity”.

Richard Scott, Business Manager at Applied Energy, home of Creda, Xpelair, Redring and Stiebel Eltron in the UK, welcomed the Energy White Paper and supported the call for low carbon homes.“This can be achieved with the most cost effective mix of improved air-tightness and thermal efficiency of buildings, combined with the appropriate use of newer technologies like Mechanical Ventilation with Heat recovery, micro-wind turbines, solar thermal hot water and geothermal heat-pumps”.

“It’s within this context of thermally efficient homes that back-up modern electric heating plays a vital part in many countries around the world – even in eco-friendly villages”.
The White Paper pushes for increased investment in large scale Renewables, clean coal and Nuclear power, all of which produce low carbon electricity.

“The carbon content of gas is fixed. The carbon content of electricity continues to fall – only modern electric appliances can produce zero carbon heat and hot water from zero carbon electricity – it’s the only truly sustainable fuel source”, says Mr Scott.Specific announcements within the White Paper included:

1. Easier planning permission for solar, wind and heat-pumps from Autumn this year

2. Encouraging the development of more low carbon electricity through the EU Energy Trading Scheme

3. A legally binding commitment to reduce carbon emissions in electricity, as per the Climate Change Bill

4. Strengthening the Renewables Obligation for Energy Companies – encouraging centrally generated zero carbon electricity

5. Projects to develop 90% cleaner coal through carbon capture and storage; used to produce low carbon electricity

6. A major consultation on nuclear power to produce very low carbon electricity. Passive-safe nuclear reactors produce only 10% of the waste of previous power stations and have a 100% safety record

The White paper reported that 56% of the world’s gas reserves are in just three countries Russia, Iran and Qatar. In just 2 ½ years time 33% of the UK’s gas will need to be imported and by 2020 this will be 80%. “Unless we diversify our mix of energy sources we will be at the mercy of these countries; paying their price for dwindling supplies of a fossil fuel which cannot be made any more carbon efficient and is found in places difficult to reach and politically unstable”.

Applied Energy confirmed that moves are now underway to ensure the projected carbon savings from low carbon electricity are connected to the building regulations Part L and SAP.
“The bright future for electric heating that this White Paper heralds can be seen in the specification of electric heating by allowing SAP to reference the projected carbon reductions it illustrates. A ‘carbon milestones’ table already has the backing of many MP’s to ensure we make best use of the low carbon electricity of the future”

First-Bio-Fuel-Win-For-Astin-Martin-DBRS9-Bio-Ethanol

First bio-fuel GT race win

Last Sunday at the UK’s Snetterton race circuit in Norfolk the Aston Martin DBRS9 racecar entered by the Great Bookham, UK based Barwell Motorsport team became the first car using bio fuel to win GT race.

Driven by Jonathan Cocker and Paul Drayson, who as Lord Drayson is the UK government’s Minister for Defence Procurement, the Aston Martin running on bio-ethanol fuel won the two hour race by 6.5 seconds from their nearest rivals.

The Barwell Motorsport team was the first UK motorsport organisation to be confirmed as a campaign partner of Motorsport Development UK’s Energy Efficient Motor Sport initiative. Co-incidentally EEMS was also the sponsor of the Snetterton race.

Speaking about the success Lord Drayson said: “This is not a one off, the car has been competitive all season, taking two pole positions and it now leads the championship.

“It goes to prove that running a car on bio-fuel doesn’t mean any compromise in performance. I hope we can get this message across to motorists everywhere.”

First-UK-Eco-Village-Is-Out-To-Tender-Now

Construction firms queue to be first to build 'eco-village'
The Government’s “Carbon Challenge” plan to create a zero-carbon development in Glebe Road has prompted interest from building firms.

BUILDING companies are poised to start a bidding war in Peterborough for the chance to create one of the UK's first "eco-villages".

Dozens of major British and European building firms have already expressed a strong interest in building the 150-home site in Glebe Road, Fletton, which will be part of the £150 million development of the city's South Bank.The interest is because the site is one of the first two Government's "Carbon Challenge" projects.It will act a model for Gordon Brown's plans for five eco-towns, providing up to 100,000 zero-carbon homes across England and a beacon of good practice across the building industry.The eco-friendly homes will also be the first "zero emission" homes, which the Government wants to be the norm by 2016, as part of the fight against global warming.Jayne Lomas, project manager for the Carbon Challenge initiative, said: "Building firms want to show they are leading the way in terms of design and energy efficiency."We've only just starting the tendering process for this site, but we've already had loads of e-mails from different companies wanting to get involved."I expect we will have 100 developers bidding for our Bristol site and probably a similar number for Peterborough."

We've also had smaller businesses contact us to get involved, with devices such as wind power generator and solar panels, and we want to get them involved too."When we narrow the number of bidders to about six or seven, we're going to invite people down to the site for 'speed dating' session, where they'll have the chance to speak to these firms."

It's a fact that over the next nine years, building regulations will step up and all new buildings will have to reach these low carbon emission levels."Firms are very keen to prove they can do this already and it's why we've seen so much interest."The homes, which will be exempt from stamp duty, will be built on the former Elliott Group factory site and their power supply will come from solar panels and wind turbines, rather than gas or coal-fired power stations.Homes will be made out of recycled materials, taps would pump out hot and cold running recovered rainwater.And, in order not to
waste any power generated, homes would feature a special "eco hat" roof to make sure little heat seeps out.

Homes currently produce 27 per cent of Britain's 40 million tonnes of annual CO2 emissions, and the new regulations are needed to help the Government's target of a 60 per cent cut in greenhouse gases by 2050.

Some 21 local authorities have so far expressed an interest in hosting the remaining eco-villages.Housing minister Yvette Cooper, who announced the start of the tendering process this week, said: "We need more homes, but we need to build them at higher standards."This is our chance to develop the new technologies for zero-carbon homes and eco-towns."

The purpose of the challenge is to show that the new technologies work and that they can be used in an affordable way. We want to see more affordable homes. It's no good if only the rich can afford to be zero-carbon."

Ford-Autoplant-UK-Green-Vision

Ford Dagenham's newest engine production line in Brentwood, Essex, has won a green award within two months of starting up.

Judges from Business Commitment to the Environment (BCE) have highlighted Ford's advanced environmental plan, which underpins the new 1.4/1.6-liter engine manufacturing facilities. Ford is ramping up production of its recently launched 1.6-liter engine and adding the 1.4 version this month at the east London manufacturing center.

BCE recognized a raft of innovative measures to use renewable materials, recycle and save energy by Ford's diesel engine manufacturing operation. For example, fluids used during the machining of new engines are blended from vegetable oil rather than mineral oil. Also, metal filings and other waste from the machining process are squeezed dry of lubricants and sold on as briquettes for recycling.

Ford Dagenham's award-winning environmental and energy strategy includes fluid recycling, designing high-efficiency coolant, extraction and chiller plant systems and installing two 3-megawatt wind turbines. Dagenham Diesel Centre, where the estate's new 1.4/1.6 engines are assembled, is Ford's only wind-powered plant worldwide.

David Miliband MP, Secretary of State for Environment, Food & Rural Affairs, presented the prestigious premier award to Stuart Burn, Ford technical specialist, who said: "Ford Dagenham's 1.4/1.6 launch program has been an all-round success story executed in record time. Ford Fiesta models powered by these units emit under 120 grams of carbon dioxide per kilometer and production of the engines themselves minimizes the cars' overall environmental impact. The whole Dagenham team, with more than 2,000 diesel engine experts contributing to the program's success, has been recognized by Business Commitment to the Environment with this award.”

Thanks to the £130 million investment behind the new 1.4/1.6 line, total engine output at Ford Dagenham will rise to 1,000,000 units a year by 2009. Positive environmental actions taken at Dagenham have resulted in annual savings of 150,000 liters of oil and a reduction of 300,000 liters of oily sludge. In addition, almost 21 million kilowatt hours of electricity has been wind-generated, saving 6,510 tons of CO2 every year.

Helping-To-Save-The-Planet-www.homebrewpower.co.uk

HERE is an article that was recently published in 'The Pudsey Times Newspaper' About myself and www.homebrewpower.co.uk

LINK: http://www.themahoneys.co.uk/uploaded_images/Eco-Andrew-2007-753117.jpg

I would like any readers out there to link to my article to hopefully encourage others to follow suit.