Category Archives: Energy Efficiency

Energy Efficiency – An Issue Of Extreme Importance

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Energy is day by day becoming costly because prime sources are gradually depleting. Our energy requirement is continuously on the rise. Our life is totally bounded by the use of energy. There is much kind of energy sources, some are conventional and some are unconventional. We consume more of conventional energy such as fossil fuel, solid fuel and of course electrical energy. Such kind of fuel is stored energy and we have right kind of technology to use them. Such fuels are the gift of nature and resulted out of volcanic eruption in its origin. They are not usually in the process of continuous generation. But we are so used to these fuels that it is gradually becoming an uncontrollable situation. This kind of energy sources is convenient from use point of view. Our entire transportation and industrial technology largely depend on fossil fuel. Electrical energy is also obtained largely from burning coal, a solid fuel. Day by day extensive research has been intensified to develop renewal kind of energy sources. Whatever be the kind of energy sources, energy efficiency is the most important issue today. We now give much stress on Technologies which are energy efficient. To get more work done with reduced energy is the prime objective behind technology development.

Energy bill substantially increases unless we avail the latest technologies and sufficiently careful in spending energy in appropriate ways. To cut down production cost, energy efficiency measures are extremely important for any business houses. There is some conventional loss of energy such as poor insulation, unproductive heat generation, over use of machineries and so on. Energy efficiency can be well achieved by turning our attention to all these things by careful observation and planning. Ways and means are available to make the devices of our daily use more energy efficient. Energy efficiency is truly an outcome of right kind of awareness and practices. To get enriched with relevant kind of Information and to orient our life style is a result giving approach to reach to energy efficiency. It is more or less an attitude linked benefit. It is not only a cost saving measures but also an attempt to check the depleting source of conventional energy. Energy efficiency measures are necessity for our own and global benefits. Without sacrificing our basic comfort, we can well achieve it only by turning our attention to save energy in scientific ways.

Conventional energy being depleted over extensive use, enough attention is now being paid to develop renewable kind of energy such as solar energy. Initial investment cost for solar energy is little high but in long run it is extremely economical. It is of course limited to a specific area of use. The technology of generation of solar energy and its application is itself energy efficient. In spite of all these efforts still electrical energy and energy from fossil fuel dominate the consumption front. This necessitates innovation in multiple kinds of their uses with an eye on energy efficiency.

Line Losses A Different Kind Of Energy Efficiency

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It’s a homeowner’s responsibility to make sure that he or she is using appliances that are energy efficient. Replacing a twenty-year-old refrigerator is likely to reduce your electricity bill because a new ENERGY STAR-rated icebox has been designed to do more while using less of the juice. Energy efficiency, however, is not just a concern for the little guy. Utility companies must worry about “line losses,” the electricity that is lost as a result of the inherent inefficiency of the generation and transmission system. In places like Texas and New York, however, engineers are thinking of ways to prevent this waste. Best of all, the savings will be passed on to you, the consumer.

What causes this loss of energy in the first place? There are many reasons, including the flaws in electrical cables and the natural tendency toward entropy. (That’s the principle that says that systems tend to become more disordered over time.) Jim Landers, a columnist for the Dallas Morning News, explains that small amounts of electricity turn into heat as it runs through a conductor. This is one of the reasons that power adaptors can feel warm to the touch when you try to unplug them. This unwanted heat isn’t such a big deal for appliances with short cables. When you think of power transmission cables and the hundreds of miles they can traverse, you can understand why line losses are such a big concern.

In Texas, line loss results in the waste of 6.5% of all the Texas electricity generated in the Lone Star State. While that might not sound like very much, it starts to add up when you think of it in terms of your pocketbook. For every one hundred dollars you pay for Texas electricity, inefficiencies account for $6.50. One way to reduce that amount is to replace old, lower capacity transmission cables with more advanced lines that can handle the kind of high voltages that keep the lights on in modern cities. Landers note that there are plans in place to connect the wind farms of West Texas to the rest of the state via 345-kilovolt lines that boast only 4% inefficiency.

Much like Texans, New Yorkers know what it’s like to need a vast supply of reliable New York electricity. To reduce the effect of line losses, engineers have developed synchrophasors. According to the North American SynchroPhasor Initiative (NASPI), computers can measure voltage running through a line at very high speed. With this detailed information about the flow of energy, utilities can better manipulate the grid to reduce the stress on the system and eliminate some of that waste. For example, if a power plant malfunctions, thereby causing the voltage in the system to fluctuate, the use of synchrophasors allows authorities to quickly address the situation before it causes increased waste. (Or worse, an interruption in supply.)

Matthew L. Wald, a writer for the New York Times, sees the benefits of synchrophasors, reminding readers that current monitoring devices only provide measurements every two to four seconds. The kind of synchrophasors that are being installed in New York and in the Midwest are able to provide feedback thirty times a second, allowing computers to regulate energy flow more fortuitously.

The devices themselves aren’t too expensive: approximately two to three thousand dollars for each synchrophasor. The real cost is derived from the computer and networking system that allows it to interact with the energy grid. Some of this money comes from the Energy Department, but even if residents end up paying to equip the grid with this technology, it’s the kind of wise long-term strategy that will result in long-term savings.

While it certainly will not be cheap to invest so much to establish a more efficient electric grid, it’s also a vital part of a greener future. Wind farms and solar facilities are (just like old-fashioned natural gas and coal power generation plants) often located far away from densely populated areas. As a result, utilities must run miles and miles of cable, resulting in greater line loss. If alternative energies can be more easily worked into the grid, we’ll all save money and enjoy a healthier environment. So the next time you read about improvements being made by state or local electric utilities, remember that something as simple as the cable strung between your home and the power plant can have a big effect on your monthly bill.

Nashville’s Best Vinyl Replacement Windows. Energy Efficiency

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A new national survey notes an interesting return to aesthetics being more important than energy efficiency in the consumers decision making process with regards to vinyl replacement windows. I believe there are two reasons for the shift. First, there may be some level of expectation that most products provide enhanced levels of energy efficiency because of the governments stimulus tax credit. Many manufacturers, because of the stringency of the requirements, scampered to find products that qualified. The other reason for the change is that the higher end consumer, who previously considered vinyl a lesser quality product and would only look at high cost wood and clad windows, now, because of the economic realities, are ready to look at vinyl as a lower cost, more energy efficient, alternative. Aesthetics have always been a driving force in that customers decision-making process.

Vinyl windows have been around for over thirty years, realizing more and more acceptance from consumers for various reasons. Many focus group studies have been undertaken by various manufacturers and one of the most interesting things that has been learned is that the one main thing that consumers that have otherwise loved their vinyl windows didnt like was the fact that they had to give up glass viewing area. Unfortunately, most manufacturers dont talk about that issue with the customer because of structural decisions that have required their vinyl extrusions to be big and boxy, leaving the customer to notice it only AFTER their windows are installed and too late to make a change. One of the reasons that so many products have big, bulky extrusions has to do with the increased necessity of energy efficient mainframes to meet Energy Star guidelines. Some manufacturers have made the investment in products that, in essence, allow you to have your cake and eat it too.
One of the interesting things about vinyl is that it shares a couple of properties of steel. One of the properties is that every 90 bend in vinyl increases its structural integrity. Many of the bulky, boxy mainframes available use many 90 bends for structural strength, but this increases the overall bulk of the product. The aesthetics conscious consumer is looking for a product that combines looks structure and energy efficiency.

One rarely discussed difference in products is the variations in the white color. Most customers that have white trim have painters white. Many manufacturers, including some that have some of the lowest advertised prices, still use the original white vinyl color, which has a blue or black tint to it. Again, this typically is not discussed at the time of purchase and is only discovered after the products are installed, too late to make a change. Make sure the home improvement consultant matches their white to your white.

Ensure Energy Efficiency In Your Home By Getting A Home Energy Assessment

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Home energy assessment refers to the process of inspection, survey and estimation of the flow of energy in a particular building. This activity is carried out with the intent to reduce the amount of energy consumed in a building. Special emphasis is given to the fact that the resultant solution does not cause any negative effect on the output energy.

The process of energy audit is done by a professional, who surveys the heating, ventilation and air-conditioning or HVAC system of a residence. Advanced equipment like infrared cameras and blower doors are utilized to determine the appropriate solution for an effective heating and cooling of the house. Such services can be easily availed from an expert heating contractor. Their professionals carry out a thorough inspection of the entire building, beginning with the walls, ceilings & floors to doors, windows and skylights. While carrying out the process of surveying, all the places of leakage and points of infiltration of air are taken into consideration. The audit also takes into account the physical condition and efficiency of the various mechanical systems of the house. These may include the heating, air conditioning and ventilation equipment.

The assessment is made while keeping in mind factors like the local climate, roof overhang, solar orientation and the energy consumption of the house like electricity, natural gas or other energy sources. Apart from surveying the heating, cooling and ventilation systems of a premise, there are other factors that these experts take into account. These include the size of the premise where the system is to be installed, the age of the building and the renovation done to the same. Size of the premise matters a lot, as a large air conditioner will be unable to efficiently dehumidify the air, whereas a small HVAC system will be ineffective in creating comfortable conditions inside the premises. Based on such findings a heating contractor suggests remedial solutions to improve the energy consumption of the building, without making a compromise on the energy output.

The solutions offered by these experts also include Westchester heating services like furnace installation, boilers, radiant flooring, heat pumps and hybrid heat systems & geothermal systems. The cooling solutions, on the other hand, include installation of efficient and effective central air conditioning system together with cooling equipment. Maintenance and load calculations also form a part of the cooling solutions. Additionally, the cooling solutions are constituted by air filtration & humidification service and the ultraviolet light system.

Engage energy efficiency in your home with new double glazing windows.

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If you are looking for double glazing Windows Essex can offer you Dolphin Windows whom have over 20 years experience in the installation of windows, doors and conservatories. Dolphin Windows offer quality workmanship and professional installation by highly trained qualified experts.

Double glazing windows are available in many different styles to suit period properties or for personal taste and requirements. All windows come with the latest security features, alongside being highly energy efficient. Double glazing windows keep noise out meaning the noise of passing large vehicles will be a lot quieter than they would be if you were to have standard windows in your home. Dolphin Windows supply precise windows to fit perfectly in your home alongside tilt windows which open in a traditional manner and also tilt inwards allowing the circulation of air. Double glazing windows will keep the heat out during the summer months and will keep the heat in during the winter months ensuring your home is kept at a temperature you like.

If you would like to add value to your home Dolphin Windows recommending adding a conservatory which is aesthetically pleasing and has the energy efficiency many people are looking for today, Dolphin Windows’ outstanding conservatories are guaranteed to please and at competitive prices anyone can afford a high quality Dolphin Windows conservatory. Dolphin Windows have the latest in conservatory windows so that you are able to match the style of your conservatory to the style of your home. A conservatory helps bring the outside in with large windows giving your home a nice summary feel at all times of the year, a conservatory allows you to enjoy your beautiful garden on days where it’s just a bit too windy to enjoy being sat outside and in winter you can enjoy the view of the perfect snow in your garden.

The leading experts at Dolphin Windows offer a professional service in the installation of conservatories and double glazing windows. Dolphin Windows tailor their services to the needs of the individual customer to ensure you receive the best service that they can offer you.

Dolphin Windows are members of Network VEKA meaning they offer a ‘peace of mind’ service. Members of Network VEKA have an excellent quality service and lots of experience in the installation of double glazing windows and conservatories. Homeowners can trust Dolphin Windows knowing they are backed by a stable and powerful national organisation.

Julianconstruction.com Increasing Energy Efficiency With Solar Panels

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Solar panels make homes more energy efficient. The electricity that is generated by the panels is not only good for the environment, it can reduce your energy costs. The amount of money you can save by installing solar electrical systems is determined by how much electricity is used in your home.

Another benefit of installing solar panels is net metering, a term used to describe the policy of contributing any unused electricity back to the utility grid. Net metering was implemented to promote private investment in renewable energy. In California, it is a special billing arrangement that provides credits to customers with solar PV systems. How does net metering work? Solar panel systems generate most of their electricity during the middle of the day when the sun is shining. If your home produces more electricity than what is required, it goes back to the main utility grid. Homeowners receive credits at full retail rates for this excess electricity.

In addition to energy savings, installing a solar electric system helps reduce CO2, NOX and SO2 emissions. In a poll conducted by USA Today, 91% of survey respondents preferred solar power compared to other sources of power.

Solar panels do not make any noise and require very little maintenance. They can be installed when a home is being re-roofed and will add significant value to the property. The state and federal government also offers homeowners special tax benefits and rebates for using clean energy solutions. For example, California residents (and business owners) will receive cash back incentives under the states Go Solar program.

Do you want to know more about your current energy usage? The EPA has several tools that can help homeowners evaluate their energy usage and find out the best way to become more energy efficient. These EPA tools include the Home Energy Yardstick:
https://www.energystar.gov/index.cfm?fuseaction=home_energy_yardstick.showgetstarted

and Home Energy Advisor:
http://www.energystar.gov/index.cfm?fuseaction=home_energy_advisor.showGetInput&__utma=172919287.1213405742.1380054400.1380054400.1380054400.1&__utmb=172919287.8.9.1380055517445&__utmc=172919287&__utmx=-&__utmz=172919287.1380054400.1.1.utmcsr=google|utmccn

The Home Energy Yardstick is an assessment of how much energy your home used during the past 12 months compared to similar types of homes. The data that is used to conduct the assessment comes from your utility bill. The tool uses an algorithm based on the size of your home, number of occupants and the weather in your area. Scoring is on a 1 to 10 scale. A home that scores 10 is performing well compared to other similar homes, while a home that scores 1 is performing poorly when compared to similar types of residences. To use the tool, you will need to provide your zip code, the square footage of your house, the number of occupants and utility bill data for the past 12 months.

The Home Energy Advisor is an online service that gives you free advice on improvements that can increase the energy efficiency of your home. To receive your recommendations, you will need to provide your zip code, data on how your home is cooled and heated, and information on the type of water heater that you use.

If you want to decrease energy costs and are considering installing solar panels, general contractors with experience in solar panel installations should be contacted to discuss your specific needs and options.

Energy Efficiency And Solar Power Systems Help San Diego Homeowners Cut Energy Costs

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When it comes to balancing comfort and savings, industry experts recommend combining cost-effective energy efficiency measures with smaller solar power systems. The powerful benefit of solar power systems to create electricity added to reducing energy loss not only saves money, but also costs San Diego homeowners far less in the long run.

Electricity bills have skyrocketed lately everywhere, and San Diego is no exception to the trend. The average electricity consumption rate for a single family detached home in San Diego County is about 675 kWh per month. In June of 1999, that meant an electric bill of $71 but now, thanks to rising costs, that same consumption will result in an electric bill of $150.

For many San Diego homeowners, solar power systems have provided at least some relief from astronomical electricity costs. While the systems require an upfront investment, most solar panels come with a substantial warranty and will produce electricity for up to 40 years at practically no operating cost. The savings on electric bills from a solar power system will cover the investment in 6-8 years for most homeowners, leaving them with free electricity for another 20-30 years.

For example, a homeowner with a $150 average electricity bill today can either buy a solar power system for $17,500 after state and federal incentives or pay $150,000 over the next 30 years for the same amount of electricity. Over the last five years, more than 8,000 homeowners in San Diego have installed solar power systems. New financing options, such as third-party Power Purchasing agreements, allow homeowners to install solar power systems with little or no money down.

While solar power systems yield moderate savings for San Diego homeowners, a combination of solar power and energy efficiency can lead to even better results. By focusing on basic adjustments like insulation, duct sealing and LED bulbs, consumers can drastically cut the amount of energy wasted on heating, cooling and lighting. All it takes is a custom energy audit to figure out the right efficiency improvements. San Diego homeowners can invest 10-40% less than what is needed to install an average solar power system into energy efficiency measures and smaller-scale solar installations and reap the benefits of bigger financial savings and better energy efficiency for many years to come.

Each home uses energy differently and there are no generic solutions that are cost effective for everyone. But with the help of an expert energy auditor, homeowners can identify the custom solution that combines the right energy efficiency measures and solar power system size.

Bca 2012 Changes – Energy Efficiency – Section J & 6-star

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There are only minor changes to the energy efficiency provisions in the newly released BCA 2012, volumes 1 and 2. Mostly the changes are to terminology and explanatory information, intended to clarify several of the provisions. There has been one change to Table J1.3a in Section J which is of particular note; the required R-Value for roof and ceiling construction in climate zones 4 and 5 have been amended to align with climate zones 1, 2 and 3.
See below for a full list of changes.

BCA 2012 Volume 1 “” Section J:

J0.2(a)(ii) – The reference to the 2006 edition of the ABCB Protocol for House Energy Rating Software Version has been removed. The deletion is a consequence of the recognition of NatHERS as the appropriate accreditation scheme for house energy rating software.

Table J1.3a – Climate zones 4 and 5 have been amended to align with climate zones 1, 2 and 3 for the required R-Value for roof and ceiling construction.

Table J1.3b – The table has been expanded to include values for when the minimum R-Value of ceiling insulation required to satisfy J1.3(a) is less than R2.5.

Table J2.4c – The heat shading multiplier figure for climate zone 8 South orientation sector, where the G value is more than 100 mm but not more than 500 mm and has a P/H value of two, has been amended from 0.75 to 0.50.

J5.2(a)(vii) – The specific examples of applications described that could attain an exemption for an outdoor air economy cycle have been replaced with the generic term of ‘process related applications’, with the existing examples now referenced in the Guide to Volume One.

J5.2(b)(ii) – The defined term ‘outdoor air’ has been included in the provision for clarification.

J5.2(b)(iii)(B) – Minimum ventilation requirements when an atmospheric contaminant monitoring system is installed in a carpark have been relocated to the more appropriate location of F4.11(b) and revised to include a more practical control strategy.

J5.2(d)(iv) – A new sub-clause has been included to exempt a Class 8 electricity network substation from complying with the power for mechanical ventilation requirements of J5.2(b)(iii).

J5.3(b)(iii) – A new sub-clause has been included to exempt a Class 8 electricity network substation from complying with the time switch requirements of J5.3.

J5.5(b)(iv) – A new sub-clause has been included to exempt a Class 8 electricity network substation from the miscellaneous exhaust system requirement of J5.5(a).

J6.1 – The application of part has been reinstated to exempt a Class 8 electricity network substation from compliance with J6.2, J6.3 and J6.5(a)(ii).

Table J6.2a Note – Note 4 to the table has been amended to clarify that a control device which is required by J6.3 is not an allowable adjustment factor under Table J6.2b.

J6.3(d)(ii)(A) – Clarification has been added that a security key card reader must register a person entering and leaving the building.

J8.1 – The application of part has been amended to exempt a Class 8 electricity network substation from compliance with the requirements of Part J8.

Specification J5.4 – Note 2 has been amended to cover applications where local clearances Table 2a adjoining plant do not allow for the installation of insulation.

BCA 2012 Volume 2 “” Part 3.12:

3.12 – A new defined term “house energy rating software” has been included to nominate the acceptable accrediting national scheme for software used to assess the thermal efficiency of a dwelling envelope.

3.12 Explanatory Information – New explanatory information has been included to explain the purpose of the NatHERS scheme.

3.12 – As a consequence of changes to the Australian Government’s Renewable Energy Target scheme the defined term “Renewable Energy Certificate” has been deleted and replaced by a new defined term ‘Small-scale Technology Certificate’.

3.12.0 Explanatory Information – The explanatory information regarding the two options for complying with 3.12.1 to 3.12.4 has been amended to clarify the delineation between the Energy Rating and the Elemental Provisions options.

3.12.0.1 – Reference to the ABCB Protocol for House Energy Rating Software has been removed. The deletion is a consequence of the recognition of NatHERS as the appropriate accreditation scheme for house energy rating software.

3.12.1.2 Explanatory Information – The explanatory information has been amended to correct the terminology used and to align with the solar absorptance values of Table 3.12.1.1a.

Table 3.12.1.1b – The table has been expanded to include values for when the minimum R-Value of ceiling insulation required to satisfy 3.12.1.2(a) is less than R2.5.

Table 3.12.2.1 Note 2 – Note 2 has been amended to clarify the relationship of ventilation opening area and the presence of ceiling fans or evaporative coolers in determining if a habitable room has High air movement.

Table 3.12.2.1 Explanatory Information – Note 4 of the explanatory information has been simplified to a tabular example demonstrating the relationship of ventilation opening area and the presence of ceiling fans.

3.12.4.1(b)(iii) – The term ‘area of floor’ has been replaced with the defined term “floor area” for consistency with Part 3.8.5 and Part 3.12.2.

Table 3.12.4.1 – The term “area of floor” has been replaced with the defined term ‘floor area’ for consistency with Part 3.8.5 and Part 3.12.2.

3.12.5.5(a)(iii) – Clarification has been added that the lighting provisions for a Class 10a building only apply to Class 10a buildings associated with a Class 1 building.

3.12.5.6(b) – Reference to the defined term “Renewable Energy Certificate” has been deleted and replaced by “Small-scale Technology Certificate” as a consequence of changes made to the Australian Government’s Renewable Energy Target scheme.

Optimize Energy Efficiency By Using Solar Energy Sources

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If you and your family are trying to ‘live green’ this year, you’ll definitely want to know more about passive solar energy sources. Solar power refers to the light and heat from the sun that is trapped and then converted into usable energy. Wind power, wave power, and hydroelectricity, are other, more common, forms of earth friendly energy technologies and are more commonly used to generate electricity for homes and businesses. Solar energy is by far the least used of the major renewable energy types. Although the use of solar energy has a long history, until recently it has not been possible to harness the massive amounts of energy needed to power a town or city. However, as an individual you can easily use solar technology to power your home. There are 2 types of solar power, active and passive, using an assortment of these resources your family can save a heap of money year after year on your utility bills. Plus you’ll reduce your carbon footprint and helping to care for the environment.
As a starting point look into using more passive solar energy, it’s easier to use and manage. In a perfect world we would all have south facing houses so that we could more easily utilize natural light. However, the world is not perfect nor are our houses. So we have to manipulate things a bit in order to make our homes more energy efficient. Natural light can involve any selection of materials with positive thermal characteristics. Such as double paned windows. Using drapes and blinds is a way to effectively use passive solar energy to help you reduce your energy costs year round. In the winter natural sunlight can warm a house and reduce the amount of energy used to heat your house. Open the blinds early and let in the natural light to warm the house. Then in the early evening begin closing your blinds and drapes to keep the heat from drifting back through your window panes. Of course, in the summer you do the exact opposite.
Active solar energy come from solar panels or solar water heaters. An array of photovoltaic solar panels hooked into your power grid or a battery pack is the perfect alternative to rising costs of electricity. Solar panels can be installed in any area of your home where the sun would naturally shine. Many people opt to have them installed on their roof, but that does not always have to be the case. If your backyard is large enough you can build your array off the ground. There are numerous Federal, State, and City rebates that can be applied for solar energy systems. Making the installation of solar nearly free, if not totally free. Of course if you own a cabin or a boat you can make your own solar panels. Other solar energy resources include, solar water heaters, solar attic fans, and solar powered lighting. They capture sunlight convert it into energy for immediate or later use.
Unfortunately, until recently, solar electricity has lagged behind other methods of renewable energy. Partly due to it’s high cost of installation. However, that is changing rapidly. Many people are choosing to make solar panels and create their own solar arrays. Depending on where you live you can qualify for government rebate programs and get a sizable chunk of your solar panel system paid back to you. Mass produced solar energy is, for the most part, still in it’s infancy, but for individuals who only need small amounts of solar power, it can be the easiest way to reduce your energy bill and live green.

Ensuring Energy Efficiency With Heat Meters

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When Terminal 5 was being planned, there was significant environmental opposition and concerns over carbon emissions and the effects on local habitats, including the path of two rivers. When the project was given the go-ahead, these concerns were taken into account and stringent environmental targets were set for every step of the process, both during construction and for the long term future.

The building of Heathrow was a complex project; along with the environmental planning, the entire build had to be completed without any impact on the rest of the activity or infrastructure at the international airport. To achieve this significant construction was undertaken off-site, including the roof, which was partially assembled in Yorkshire and the latest technologies were employed.

When it came to the buildings interior, Terminal 5 utilized high quality fittings that ensured on-going energy efficiency and the minimisation of waste. Temperature control within the expansive interior was an area of focus. The need to regulate the temperature in such a huge space could lead to costly energy consumption, which would not be in keeping with the environmental targets.

The building was designed with large glass windows that allow the terminal to benefit from natural light and heat. To prevent over-heating, the design of the building incorporates areas of natural shade. Additional heating is used, but these design features reduce the requirement and the temperature is carefully monitored and controlled, to ensure energy efficiency.

The Micronics Ultraflo 2000Flow and Heat Meter is one of the fittings used forthis temperature monitoring. The Ultraflo 2000 is a clamp-on, ultrasonic flow meter,created to monitor liquid flow, but with the use of a temperature probe is effective as a heat meter.It has been installed (along with other products) to provide an energy measurement solution. By monitoring and managing the temperature, the Ultraflo 2000 is playing a small part in ensuring that up to 30 million people a day are happy, as well as minimising energy waste.

Terminal 5 is a huge construction, but Micronics flow and heat meters are equally suited to smaller scale buildings too. Creating a comfortable temperature in your business can lead to an enormous bill every month due to the energy consumed. If you want to measure the flow of energy used in your building, whether its a small commercial factory, a shopping centre or a building on the scale of Heathrow airport, installing a heat meter will allow you to monitor and manage the actual physical flow of energy used for heating.

A heat meter will allow you to identify where energy can be channelled more effectively for an improved outcome and reductions in both consumption and cost. The savings made through monitoring and changes can soon cover the cost of installing the heat meter. Many of the heat meters clamp on your pipework and machinery. This means that installing them requires no interruption to your processes and they can easily be removed for maintenance, or when they are used as a temporary measure.

The Ultraflo 2000 is supplied with electronics, sensors and all mounting hardware and also a temperature probe when it is used as a heat meter. Whilst installation is uncomplicated, Micronics have specialist engineers who can come on-site and install heat meters for you as required.

If you want a temporary monitoring solution; either to decide whether to invest in more permanent energy monitoring, or to identify areas of improvement for increased energy efficiency, it is possible to hire portable heat meters from Micronics. This can be ideal for inspections and to help you meet your own industrys environmental targets.

Whether you are planning a new project, or making improvements to an existing building, if energy efficiency and cost reductions are core to your project, Micronics can help you to achieve your goal.