Why reinvent the wheel?

Rising fuel costs, growing environmental concerns and ever increasing Building Regulations. It’s a potent mix that is turning up the heat regarding the efficiencies of air handling units (AHU) and has the industry searching for a breath of fresh air. Yet, according to Andrew Patch of Reznor, we’re overlooking a forgotten hero, the thermal wheel (or rotor) – a solution that is proven to recover up to 85% of lost energy and dramatically reduce a building’s carbon footprint.

With over three decades under its belt, the thermal wheel principle isn’t new, but it has never been more appropriate than now. For years, it was regarded as a highly specialised and costly heating component, suitable only for larger AHUs. But, with the spotlight now shining brightly on delivering sustainable and energy efficient solutions to modern buildings, the thermal wheel is currently more viable than ever.

In fact, it is a product so efficient, it means a reduced capacity boiler and/or cooling condenser can be used – effectively paying for itself during installation, so the cost benefits can be enjoyed immediately. Plus, with the newest fresh air ventilation requirements under Part F of the Building Regulations, it is the ideal answer for architects, HVAC contractors and developers looking for a solution that will dovetail seamlessly with the many air handling systems available on the market today. However you look at it, the thermal wheel is set to start a new revolution.

Its growing popularity is part of a significant trend that is looking at heat recovery as a genuine vehicle to deliver real cost savings. After all, it makes perfect sense to harvest the air we’ve already paid good money to heat, doesn’t it?

The thermal wheel does this better than virtually any other technology on the market – it is particularly effective with larger air volumes – turning standard AHUs into ultra efficient systems. Similarly, the thermal wheel is just as effective at cooling incoming fresh air during the hotter summer months. Perfect for cutting cooling costs and reducing reliance on energy hungry mechanical cooling methods, such as air conditioning.

Here’s the spin
Thermal wheels that are found in standard Heating, Ventilation and Air Conditioning (HVAC) systems, such as those supplied by Reznor, are normally constructed from an aluminium matrix. Aluminium is favoured due to its outstanding conductive characteristics, corrosion resistance and lightweight composition.

The matrix is formed by winding very thin aluminium sheet in alternating flat and corrugated layers. Despite the thin aluminium – where it offers optimal heat transfer properties – the matrix comprises an exceptionally strong and rigid construction, with a large number of small air passages.

Situated in counterflow fresh air and exhaust air streams – often within the AHU – the wheel rotates slowly, passing from the exhaust air stream to the fresh air section. These sections are sealed off from each other. As the matrix rotates through the exhaust air, the warm gases pass through the narrow channels and heat the aluminium.

The wheel then continues its rotation until it enters the fresh air flow, where the reverse effect occurs. Here, the cooler incoming air absorbs the latent heat recovered within the matrix and is carried into the building. This process is known as regenerative heat transfer.

The matrix continues to rotate until it re-enters the exhaust air, thus completing one full cycle. The process is then repeated, commonly at a speed of 10rpm.

Green solutions take a new turn
With the world waking up to the need for CO2 emissions to be drastically cut, and Building Regulations demanding more energy to stem from renewable energy sources, the thermal wheel’s environmental credentials are shooting it to the top of many specifiers’ wish lists.

A key reason for this is the thermal wheel’s small footprint. At typically only 200mm deep in the direction of air flow, it can easily be slotted into most AHUs. In many cases, it also means a smaller AHU can be used. In doing so, capital expenditure is substantially reduced, with a quicker return on investment. Furthermore, it has been our experience at Reznor that thermal wheels also reduce the need for large capacity boilers and/or cooling condensers to be fitted – again offering a greater return on investment.

In comparison, a large plate heat exchanger would demand additional section being added to the AHU, which would have clear cost implications and, from our experience, could make that system impractical for some applications.

The wheel’s slow rotation speed creates very little wear throughout its working life, requiring minimal servicing. Plus, when the wheel reaches the end of its serviceable life, it is completely recyclable.

Vive la revolution…
While we’ve already mentioned that the technology isn’t new, new developments and a greater awareness mean the scope is constantly widening.

Since their introduction all those years ago, thermal wheels used in AHUs have demonstrated their exceptional durability in even the most demanding environments. These include marine applications and spray-paint plants. Significantly for the latter, the addition of automated air or water cleaning systems mean the wheel never becomes clogged. It is, therefore, able to perform at peak efficiency throughout its operational life.

More recent developments include a sorption coating, which is designed to enhance the thermal heat transfer. As such, it has made the thermal wheel more efficient than ever.

It is hard to imagine AHUs in the very near future that don’t incorporate some form of heat recovery method. Thankfully, the industry already has the perfect solution, which has turned full circle to improve economic efficiency and minimise the carbon footprint of future buildings.

www.reznor.co.uk

UESA – Reznor’s new condensing unit heater

Joining Reznor’s well proven V3 gas fired heaters is the new, third generation UESA range of high performance condensing room-sealed unit heaters, designed to further increase fuel efficiency. The new UESA range incorporates advanced burner technology together with a patented aluminium MacroChannel heat exchanger to increase thermal efficiency.

The energy saving UESA range delivers up to 104% thermal efficiency using advanced heat exchanger technology. Manufactured from highly conductive aluminium the multi-pass MacroChannel heat exchanger provides an exceptional level of heat transfer which . Whereas heat would be lost in conventional systems, the exchanger is able to recover it, transferring this heat into the building instead, and so reducing fuel usage.

The unit heaters are available with heat outputs ranging between 35kW-102kW for use with natural gas or propane. This makes Reznor’s new condensing gas fired heaters well suited to applications ranging from large factories and warehouses, sports halls and retail outlets.

Reznor’s extensive line up of energy efficient heating systems are already used throughout the UK. The UESA Series is a strong addition that will help many sectors cope with the economic crisis – and help protect the environment too.

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The new Welcome Break motorway service area on the M54 near Telford is a 24-hour operation with a considerable service requirement to ensure comfort temperatures for customers and staff at all times.

Completed in March 2003, the amenity building combines public toilets, a retail shop, fuel filling station kiosk and restaurants providing freshly cooked meals and fast food, with an adjoining Day’s Inn Lodge for overnight accommodation.

The 1260m² amenity building (of which 800m² is front of house) requires heating in winter and comfort cooling in summer. While the retail shop and public toilets are open 24 hours a day, the food outlets close at 10pm, when the plant is switched off to night setback conditions.

The differing requirements of adjacent areas presented a challenge for Design Installation Services Limited (DIS), Welcome Break’s M&E services contractor who specialise in design and build contracts and, in conjunction with architects JWA, specified a Reznor Air Mixing solution to condition the area.

Three 630mm diameter grey pvc Air Mixing ducts were installed in the amenity building at 4.3m from floor level. From packaged air handling equipment positioned in the roof well between the amenity building and the Lodge, warm or cooled air is introduced into the Air Mixing ducts, where it is forced through minute perforations along the ducts’ length. The air mixes instantly with room air, creating all-round comfort conditions of 21°C in winter and 23°C in summer, with no perceptible air movement.

The lightness of the Reznor Air Mixing ducts made them an ideal solution for this building, which has a lightweight frame and cannot accommodate heavy services. The ducts were quick and easy to install and supported on rails from the roof purlins. While the ducts distribute conditioned air to the space, they do not require insulating as no condensation occurs on the surface of the Air Mixing sock, as it would on a galvanised duct.

Chris Croome, Managing Director of Design Installation Services Limited, of Cheltenham, says: “The Air Mixing solution has exceeded Welcome Break’s expectations. It answers the client’s need for flexible, zoned heating and comfort cooling all year round, while providing continuous ventilation for occupancy requirements and make-up air for the kitchen extract systems.”

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Energy savings achieve payback on new Reznor warm system in just 9 months

A 9-month payback on investment in a new Reznor warm air heating system at Unipart DCM’s 93,000m² Cowley distribution centre exceeded all expectations, falling well within the 2-year limit required by the company.

Exceptional energy savings of 35 per cent a year have been achieved since the system was installed in 1994. The Reznor heaters maintain a constant temperature of 16-17°C, ensuring a comfortable working atmosphere.

Unipart DCM is one of Europe’s leading providers of outsourced aftermarket logistics and distribution services. Its Cowley distribution centre was built in 1964, the biggest of four Unipart DCM distribution centres now operating in the UK. Originally, the building was equipped with a high pressure hot water heating system, run off three large boilers. Heat was supplied to the operational areas via radiant strip heat emitters positioned at 9 metres in the roof.

The system took approximately three days to warm up, since it had to heat all 250 tonnes of water before it would work effectively. High running and maintenance costs made the system increasingly non-viable for Unipart.

Reznor, working with contractor Thermatic of Salford, designed a warm air heating system consisting of a total of 105 XD400, XAA400 and XB400 heater units in four zones within the main areas. In addition, 220 Maximizor fans were installed for recirculation of risen warm air to lower level. Fourteen air curtains were also fitted to ensure warm air remains within the building when loading bay doors are opened and closed.

Ron Mansfield of Unipart oversaw the project. He comments: “From my calculations I was doubtful whether we would achieve the two year payback period required. What the system actually achieved was remarkable, having now paid for itself many times over.

“Our employees noticed the difference immediately. Operation and maintenance of the system are simple and we have a constant working temperature that is comfortable for everyone.”

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UDSB – new high efficiency warm air heater from Reznor

The new UDSB warm air heater from Reznor UK Ltd offers all the benefits of the high efficiency UDSA model, with the additional advantages of a direct-drive centrifugal fan. This makes it ideal for applications requiring distribution of heat through ducting or induction nozzles, or where the unit is positioned as an over-door heater.

The new model provides excellent heating capability to the full spectrum of operating environments, including large industrial buildings and smaller premises such as automotive showrooms and retail outlets.

ECA-listed

The UDSB’s energy-saving capability means it is listed on the government’s Energy Technology List, making it eligible for Enhanced Capital Allowances (ECAs). Installing qualifying technology may enable end-users to apply for 100% capital allowances in the first year on both capital purchase and direct installation costs.

Centrifugal power

The UDSB is among the most flexible warm air heaters on the market. Available in outputs ranging between 15 and 64kW, the UDSB is equipped with variable speed direct drive centrifugal fans to provide a simple, versatile heating solution.

The powerful centrifugal fan provides a longer throw than most similar units, making the UDSB particularly useful in larger premises, where it can be mounted at higher levels, safely out of the way of overhead cranes and other high-level machinery.

The units are delivered to site with a pre-set fan speed. However, a simple wire change allows for variable settings for airflows, static pressure or noise levels.

Standard units can be easily connected to ductwork. Free blowing applications require horizontal louvres and fan speed adjustment to give the desired airflow.

Like its axial fan counterpart UDSA, the UDSB offers easy installation thanks to its lightweight construction and simplified support requirements. It is available in horizontal or downflow orientation, making the new unit an ideal solution to many heating schemes.

www.reznor.co.uk

All-purpose heating in school sports hall

St Lawrence College, Ramsgate, is an independent school in the finest tradition with a long and illustrious history. Yet, when it comes to the comfort and safety of its 400 pupils using the multi-use hall, tradition is the last thing on the school’s mind.

The hall is used daily for a variety of sports and games, and regularly converts to an examinations room or drama theatre when required. The heating needs of the various activities are very different – active sports require lower air temperature and safety; examinees seated for several hours need a warmer environment and complete quiet.

The previous heating system provided none of these, being noisy, inefficient, and with potentially hazardous floor-mounted radiator panels. A replacement system would have to meet the school’s criteria of safety, unobtrusiveness, quiet operation and flexibility.

Installation contractor Domestic & Commercial Heating of Ramsgate worked with Reznor to specify and design a warm air system to answer the school’s specification. An RPV Pak unit was mounted externally, suspended on a specially fabricated steelwork platform.

Warm air is ducted through the external walls into the hall and distributed via a Reznor Air Mixing duct. Air Mixing is ideal for this type of application since it delivers tempered air to all parts of the building and without perceptible air movement.

The duct, which is made of durable coated pvc, is lightweight, quick to install and very efficient in heating a building both quickly and evenly. Tempered air is forced through thousands of perforations along the entire length of the duct at high speed, creating a negative pressure zone and inducing the surrounding air.

The result is a constant temperature suitable to the activity taking place – either 17°C for active sports or 21°C for exams or plays. Air is distributed uniformly throughout the building, eliminating temperature stratification or cold spots.

Reznor Air Mixing ducts are available in a range of bright colours to match internal décor without the need for painting. The system is also maintenance-free, adding to its economy of operation.

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Reznor creates a warm glow at St Giles-in-the-Fields

If the congregation emerges from St Giles-in-the-Fields church with more of a glow now, one reason could be the new Reznor warm air heating system that has recently been installed. Since the temperature has been lifted in the historic building in Bloomsbury, central London, worshippers can now concentrate more on the church service and less on the cold.

There has been a house of prayer at the site since 1101, when St Giles was a small village outside London, but the existing church was built in the early 1730’s, in the Palladian style of architecture. The church was designed by Henry Flitcroft who went on to work at Woburn Abbey, the seat of the Dukes of Bedford.

The previous heating system, which had been in place for at least 30 years, had broken down and was beyond repair. A replacement needed to be found that would satisfy the particular requirements of an historic church; that is, not to interfere with the existing framework of the building, to make use of existing under-floor ductwork, to be as energy efficient as possible, to warm the church quickly and effectively in preparation for services and to operate at low noise levels.

A Reznor heating system was installed, comprising a Reznor Europak PV 2095-20 gas fired warm air heater, complete with supply air fan, optional filter section and modulating burners, which provide enhanced temperature control. The system was installed by M&E contractor Alloyvale Ltd of Guildford.

Since no dedicated plant room was available within the church, the new system had to be located in the confined space of the church basement. This also ensured the system made full use of existing under-floor ducting. Access to the basement is very restricted and therefore the heater had to be specifically engineered by Reznor. It was supplied in sections and re-assembled on site.

Guy Bryn-Jacobsen of Alloyvale comments: “The project was very difficult logistically, but we were able to accommodate the new system very successfully, to the satisfaction of the architects, church ministers and the congregation. It has provided an extremely well controlled environmental system for the church with maximum comfort conditions.”

The Reverend Richard Haggis, Associate Rector, goes on to explain: “The new heating application has been linked into the existing distribution system within the church, leaving the framework of the building intact. It is proving to be economical to run and almost inaudible in operation, which is a great benefit.”

www.reznor.co.uk