Feature Industrial buildings The road to energy efficient facilities


Energy efficiency best practice measures are relatively well understood, however, many companies have yet to take steps to reduce their energy consumption and emissions for their facilities or buildings, says Dr Alex Mardapittas, managing director of EMSc (UK)


T


he reason for the slow adoption of energy efficient technologies in industry seems to be the per- ceived effect that such technolo- gies might have on equipment and operating efficiency. One proven, cost effective and reliable way for industry to meet its energy and CO2 reduction targets – according to the Carbon Trust industry produces 125 MtCO2 or 25 per cent of UK total emissions – with- out affecting processes, output and efficiency, is the installation of a volt- age optimisation system. Voltage optimisation is an electrical energy saving technique in which a device is installed in series with the mains electricity supply to provide an


type of system used as well as site speci- fications. This is where choosing the right supplier and solution is essential. To ensure optimum savings and per- formance, a comprehensive analysis of a site’s power conditions should be completed before installation. As each building is different, with its own unique infrastructure and specific load requirements, a voltage optimisation strategy should be customised to ensure that savings are maximised. The importance of installing a tai- lored, engineered solution cannot be emphasised enough – a genuine, dynamic voltage optimisation solution supplied by an experienced and reputable company will not only max-


‘The most efficient solutions can save up to 26 per cent of total electricity consumption and related CO2 emissions without compromising the supply to electrical equipment.’


optimum supply voltage for the site's equipment. The reason voltage optimi- sation can have such a significant impact on energy used is because on the whole, the National Grid supplies a higher voltage than is generally required. Although the nominal volt- age in the UK is 230V, the average delivered is actually 242V. This ‘over-voltage’ means that energy consumption is not only higher, but as a result, the lifespan of equip- ment is shortened. Generally, voltage optimisers will deliver between 12 per cent to 15 per cent savings. However, the most efficient solu- tions can save up to 26 per cent of total electricity consumption and related CO2 emissions without compromising the supply to electrical equipment. Thanks to advances in voltage opti- misation technology almost any site – including those with older transform- ers, those where physical space restrictions previously made voltage optimisation installations difficult to implement, and new builds – can ben- efit from voltage optimisation today. But while virtually any site stands to gain by reducing and controlling volt- age, savings will be determined by the


Factory Equipment JANUARY 2013


imise energy savings and carbon reductions, but will also ensure that equipment will operate as efficiently as possible at all times, that the lifetime of equipment will be max- imised, and that maintenance costs will be significantly reduced. A key benefit for industry, in partic-


ular, is the marked improvement in power quality resulting from the installation of a voltage optimisation system. Poor power quality is a growing problem in the UK as the number of disturbances continues to increase and modern production equipment becomes more sensitive to these disturbances.


For businesses, common direct impacts of poor power quality are reduced or lost production, increased energy use and equipment damage. By optimising the voltage locally and minimising the harmonics levels, a site can be protected from grid-borne distortions and reduce losses by filter- ing harmonic distortion and improv- ing power factor.


Proof of the technology’s efficacy lies in the results achieved for a number of key industry players. Companies that have successfully


EMSc (UK) T: 01142 576200 http://ems-uk.org Enter 316


Powerstar is a voltage optimisa- tion solution from EMSc (UK)


Dr Alex


Mardapittas, managing director of EMSc (UK)


implemented voltage optimisation include Purification Products – it attained a 23 per cent reduction in total electricity consumption, which represents a financial saving of £12,000 per annum and a reduction of 90.9 tonnes in CO2 emissions; Polyflor, which demonstrated annual energy consumption savings of 34,619kWh, representing a 12.8 per cent reduction in its annual energy consumption; and the Swann-Morton Group, which achieved energy savings of 9.9 per cent – or £11,559 – per annum while also reducing its CO2 emissions by 102.5 tonnes. It is clear that, with voltage optimi- sation, the returns can be high while the risks are low – the key lies in implementing the right solution for your facility, one that will maximise savings without adversely affecting processes, output and efficiency. EMSc (UK) is celebrating over 10


years of British design and manufactur- ing success – it has been manufacturing the voltage optimisation solution Powerstar at its headquarters in Yorkshire for over a decade. The com- pany is accredited with the Made in Sheffield accolade in acknowledge- ment of the quality of its manufacturing process, its expansion into interna- tional markets, and the overall success of Powerstar, which is exported to countries including Cyprus, Australia, UAE, South Africa, Greece, Malta, Bahrain and Spain. The company has been awarded with ISO9001 and is an NICEIC approved contractor.


19


Page 1  |  Page 2  |  Page 3  |  Page 4  |  Page 5  |  Page 6  |  Page 7  |  Page 8  |  Page 9  |  Page 10  |  Page 11  |  Page 12  |  Page 13  |  Page 14  |  Page 15  |  Page 16  |  Page 17  |  Page 18  |  Page 19  |  Page 20  |  Page 21  |  Page 22  |  Page 23  |  Page 24  |  Page 25  |  Page 26  |  Page 27  |  Page 28  |  Page 29  |  Page 30  |  Page 31  |  Page 32  |  Page 33  |  Page 34  |  Page 35  |  Page 36  |  Page 37  |  Page 38  |  Page 39  |  Page 40  |  Page 41  |  Page 42  |  Page 43  |  Page 44  |  Page 45  |  Page 46  |  Page 47  |  Page 48  |  Page 49  |  Page 50  |  Page 51  |  Page 52  |  Page 53  |  Page 54  |  Page 55  |  Page 56