Simple Guide to Sustainability: News from Turner & Townsend

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Sustainability is now firmly at the top of most organisations agendas, but what does it all mean and how do some of these new fangled, even weird and wonderful technologies work.

Below Turner and Townsend attempt to assist with some jargon busting, we have not attempted to provide precise technology definitions, merely a simple guide So what are we talking about?

This article was originally published on Buildingtalk on 14 Nov 2006 at 8.00am (UK)

Carbon-offsetting is in itself a bi-product of the Kyoto Protocol, through what is known as the 'Clean Development Mechanism,' (CDM) wealthier northern hemisphere nations agreed to fund environmentally sound projects in the emerging economies of Africa and Asia swapping their high CO2 emissions for the latter's low or non-existent emissions.

In recent years offsetting companies have sprung up worldwide, but except for a small handful have developed something of the second hand car salesmen reputation.

Typical examples of the type of carbon-setting undertaken is tree planting - prevalent in the UK; and renewable energy and ICT technologies in Africa and Asia.

Off-setting personal air travel is now a very popular mode of conscience salving, but there are considerable doubts as to its veracity.

Carbon offsetting is generally a voluntary act, often arranged by commercial carbon offset providers offering a wide variety of offsetting methods.

A clear distinction should be made with 'carbon trading' which is highly regulated stock market activity and legally controlled.

So at the end of the day you pays your money and takes your change! Whole Life Costing (WLCC).

Whole life cycle costing is all about assessing the long term cost implications of a purchasing decision, taking into account the capital (up-front) costs, financing, inflation the operating costs including maintenance, and any residual costs of the asset over its planned viable life span.

Sustainable very much take the long view of the design and procurement of building projects, as a balance between environmentally sound practices and financial viability.

WLCC aims to ensure that he who pays the piper gets value for money, not just at the projects inception, but throughout its viable financial life cycle.

And now to the anorak world of renewable energy!.

Combined Heat and Power (CHP).

Combined Heat and Power (CHP) does what it says on the label - combines heat and power generation - also known as cogeneration.

In similar mode to a power station it combines a boiler producing a gas to drive a turbine which generates electricity, a significant bi-product of chps is very ample quantities of hot water which be used for heating DHW and for cooling - see below.

As such it's the most efficient use of all fuel types.

While a conventional power station dissipates over 60% of the heat created out into the atmosphere through coling towers, or in the case of nuclear power stations to the sea; a CHP uses the waste heat and is therefore virtually 100% efficient.

Scandinavia, the Netherlands and Germany are testament to the popularity and environmental benefits of state-of-the-art CHP technology that is now available, especialy when deployed on a community wide scale.

The Government has set demanding targets for CHP in their 2016 timeframe and with pump prime funding available for the public sector through the 'Community Energy Scheme'.

An additional advantage of chp is that the ample hot water supply can be used in a 'tri-generation' scenario to provide cooling through a chemical absorption process, which is exceedingly efficient.

Biomass, Biofuels and Biogas.

In the UK these are still regarded as the Cinderella of renewable energy, close at hand but never quite invited to the ball, however they are the moist sustainable of all fuels, if occasionally somewhat smelly.

Biomass is any cellulose material in the shape of wood chippings, pellets, waste wood or even straw in briquette format.

Short rotation coppicing such as willow and hassle of are highly sustainable biomass fuels.

The advantage biomass is that it is 100% sustainable nature if harvested from sustainable forests through what is known as the sequestration process.

Trees during their growing cycle release oxygen and absorb carbon dioxide they are then felled and replanted and the process starts all over again.

A wood burning stove fitted with a back boiler is a micro biomass boiler.

Biofuels come from harvested crops such as rape seed oil and maize.

However waste cooking oil and can also be converted into a biofuel.

Biogases in the form of methane is a by-product of animal waste or from the fermentation of vegatable matter which can produce an ignitable gas.

Sewage systems which also produce methane are another source of biogas which in the UK are currently untapped.

Waste to Energy.

The black sheep of the renewable energy market past waste to energy projects like the West London waste centre had a poor reputation due to their toxic emissions.

Domestic rubbish is used as a fuel by burning it at very high temperatures.

Such systems require careful engineering to ensure that the toxins in the fuel gases do not escape into the atmosphere.

However if properly engineered waste to energy is a highly sustainable solution to the nations domestic waste burden, even more so with the yearly reduction of land fill sites which by 2013 will have virtually disappeared.

Several schemes by a number of local government and public bodies are presently being considered in terms of both a renewable energy solution for community chp plants and as a long term answer to managing waste.

Ground Source Heating and Cooling Pumps (GSHP).

At about 1.0m below the ground level the ambient temperature is stable at about 50C and this can be harnessed using GSHP.

GSHP systems have four essential components:.

- A pump.

- A condenser.

- An evaporator, and condenser.

- Plastic pipes known as ground loops or slinkies laid at a depth of 1.0m.

Operating on the same principle as a fridge, ground loops or slinkies contain a water based refrigerant or 'brine,' which absorbs the latent heat of the ground.

The refrigerant is then pumped through the evaporator and condenser under pressure to raise the temperature to approximately 500C to heat water for distribution around a building, normally in an underfloor heating system.

Although providing sufficient hot water for heating an average 3 bedroom house, they would not be able to meet all the DHW needs of a domestic hot water cylinder, consequently most GSHP package today are sold with roof mounted solar thermal hot water heating systems - see below.

Powered by electricity GSHP is not strictly providing renewable energy, however due to their high 'coefficient of performance' ratios of power in to heat out they have fairly low energy consumption and associated CO2 emissions when compared with conventional gas fired domestic heating systems and can showing savings in the order of 40%.

Larger commercial system using deep well bores harness the natural geo-thermal properties of ground water at approximately 100m deep, operating on the same principle as domestic scale GSHP, but on a larger scale.

Returning to the fridge principle, the GSHP process can be reversed to provide cooling, although air-source pumps are more efficient in this situation, nevertheless the basic mechanics are similar.

Wind Turbines - big and small.

Wind turbines range in size from 1KW to 20MW, using the natural power of the wind's energy to power rotor blades that turn a turbine and create electricity, at relatively low speeds, on the same principle of a traditional wind mill.

Traditionally wind turbines are of the upwind type where the wind drives the rotor blades face on.

But recent technology developments in the design of rotor blades has seen vertical axis rotor blades come on to the market.

Whereas traditional upwind blades require high start up speeds, vertical rotor blades can operate at very low wind speeds of around of around 2-3m/sec compared with 4-6m/sec for an upwind system.

Furthermore upwind systems are very location sensitive.

A clear wind path of approximately 100m radius in all directions for them to operate efficiently, which precludes their effective use in urban areas, or come to that coastal locations where the wind might be variable in direction, known as 'dirty wind' to the sailing fraternity.

A wind farm is a collection of wind turbines in the same location feeding wind-powered electricity into the National Grid.

Currently in the United Kingdom there are approximately 145 on and off-shore wind farms with more going through the planning process as outlined below:.

Projects 145.

Turbines 1839.

Megawatts 2157.125.

Homes Equivalent 1206154.

CO2 reductions (pa) 4875275 tonnes.

[From BWEA Wind data].

The United Kingdom has the best potential for wind energy in Europe, hence the Government's eagerness to see its development as a large scale renewable energy source.

Photovoltaic Cells (PV).

PV absorb daylight (contrary to general opinion - sunshine is not necessary) merely radiation and converts it into electricity.

Photovoltaic cells consist of two or more thin layers of a semi-conductor material, usually silicon, and designed with a positive and negative layer to create an electrical field.

As with wind turbine the electricity created is in DC format and has to be converted to AC via an inverter and energy management system.

Photovoltaic systems are not the cheapest form of renewable energy on the market - come to that what is? They can be installed as either individual panels, vertically in double glazed units, at an angle on a pitched roof, or in thin film solar roof tiles.

As an approximate guide 8m2 of PV will produce approximately 830KWh of power at 1KWp.

So to power a house fully from PV would require something in the order of 60 m2 and cost about GBP36000, saving somewhere in the region of 740kg Carbon per annum.

Although more modest PV arrays are normally installed at somewhere around 10% of the annual electricity consumption, which would cost around GBP6000.

One overpowering factor has to be considered when planning the installation of a PV system; they work far more efficiently if sited with a southerly aspect.

Solar Thermal Hot Water Heating:.

Similar to PV but employing a water based refrigerant heated by the sun's rays, which is then pumped to a twin coil hot water cylinder through the top coil - using a pv powered pump - to provide domestic hot water.

A south facing solar thermal hot water heating system will provide approximately 80% of all domestic hot water requirements for an all up installation cost of around GBP3500.

As renewable energy sources go this is the most readily accessible by the general public, with carbon savings in the order of 49Kg carbon per annum.

Hydrogen Fuel Cells (FC):.

Nolonger in the realm of pure fantasy, FCs use a gas to creat electricity in combination with water by creating a charge from positive and negative electrodes.

North Amercia, Germany and Japan are very much in the forefront of both micro FC and major power installation plants, there are micro plants operating succcessfully in the USA but few operate on a sound commercial basis.

In the UK the main driving force in FC technology is Rolls Royce who are developing 20MW power plants for providing community based energy solutions.

The Major of London invested considerable funds in a Daimler Chrysler designed FC powered bendy bus which was on test in London from 2005 until January 2007.

Rainwater Harvesting.

Rainwater harvesting is the collection of rain from a roof generally for wc flushing or garden irrigation, as a preferable replacement of potable water for non-potable uses.

Rainwater harvesting many benefits in reducing water bills, adding to ground water table aquifers, helping to mitigate against flooding and reducing the need to build expense ecologically unsound reservoirs.

Systems have been developed for a variety of public, commercial and domestic uses.

Installation in involves collecting filtered rainwater and channelling it to an underground holding tank and then pumping the water to wc cisterns and garden taps or any non potable use.

New regulatory changes will mean that most UK homes will have their water usage metered, making consumers more and more aware of how expensive the commodity of "common or garden" water has become.

Potable water also comes with a carbon loading which harvesting helps reduce.

Normally rainwater harvesting is combined with a green roof usually sedum, which during the spring and summer will colour any rainwater collected an unfortunate shade of yellow, which can put some people off using harvested rainwater in a wc cistern.

In its simplest form garden water butts are a poor man's version of rainwater harvesting.

However a true harvested installation is able to control and manage the supply of the harvested water.

Sustainable Urban Drainage System (SuDS).

SUDs are designed to reduce the potential of flooding in new urban developments.

Unlike traditional urban storm water drainage systems, they also help to protect and enhance ground water quality by allowing seepage to below ground aquifers.

SuDS systems hold the flood water back and allow it to be released slowly into the public storm water system, by deploying holding tanks, sub surface egg crate type voids or by forming swales in the soft landscaping of a large development.

The increase in hard surfaces, paving front gardens and more urban development more run off is being created and can cause storm surges in the UK's largely antiquated, combined (foul water and surface water) public sewer infrastructure.

Water quality issues have also become increasingly important, due to pollutants from urban areas being washed into rivers and the groundwater.

Once polluted, groundwater is extremely difficult to clean up.

The summer 2004 heavy pollution of the river Thames with the loss of extensive quantities of fish could have been prevented if London had less hard standing and more SuDS installations.

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Simple Guide to Sustainability

Sustainability is now firmly at the top of most organisations agendas, but what does it all mean and how do some of these new fangled, even weird and wonderful technologies work.

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