The new energy efficiency legislation is currently a hot topic in every sector of industry. Since 2015, companies across Europe have been obliged to demonstrate that they are implementing specific measures to reduce their electricity consumption – either by carrying out regular audits or by introducing an energy management system. The objective is clear: becoming more efficient means increased competitiveness, which in turn protects the future of Europe as a manufacturing powerhouse. The environment benefits too, as the carbon footprint of the companies becomes smaller. However, the question that arises for the management teams, who generally speaking have already been working in a cost-conscious and sustainable manner for some time, is “how can I save even more energy?”
“We use around 184 gigawatt hours of electricity a year,” notes Dr. Florian Stadler, head of energy management at AMAG Austria Metall GmbH. The company is Austria's largest aluminium smelter and a manufacturer of premium quality rolled flat products, high-precision cast plates and recycling cast alloys, all of which are manufactured at its plant in Ranshofen, Upper Austria, which also has a foundry and a rolling mill. Among the sectors using the finished products are the automotive industry, aerospace and shipbuilding, machine and plant construction, architecture, electronics and sports equipment.
To reduce its energy consumption as far as possible, AMAG operates an energy management system that is integrated into the company’s management system and is the responsibility of a dedicated department. “Our role is to take a critical look at our existing processes with a view to potential savings and to promote projects to improve our energy performance,” Stadler describes its brief. The company had its energy management system audited for the first time in 2013 and is now certified to the EU standard ISO 50001.
The intralogistics operation at AMAG is modern and efficient: more than 150 electrically powered forklift trucks – from cleaning machines to lifting platforms, forklift trucks and tractor units through to heavy-duty frontlifts with load capacities of 12 tonnes – ensure a quiet, emission-free, speedy and reliable flow of materials. The fact that the plant operates 24 hours a day places severe demands on the performance and availability of load handling equipment. To avoid long downtimes, forklift trucks and tractor units in particular are equipped with back-up batteries: “When the capacity of a battery starts to get low, the driver goes to one of the many central charging stations, where he can replace it with a new one in a matter of minutes,” explains Stadler. The largest traction batteries, such as those used in the Hubtex lateral stacking trucks/sideloaders, weigh several tonnes and have to be transported using an indoor crane. With a nominal voltage of 80 volts and capacities of up to 1,000 ampere hours, they provide the energy required to lift and move the huge aluminium plates.
The charging of the numerous traction batteries and the associated electricity consumption represents a not inconsiderable cost factor – a good enough reason for Florian Stadler and his team to examine the charging process very closely. It was while looking for optimisation potential that the managers at AMAG discovered Fronius battery charging systems. The technology leader is an Austrian company with headquarters in Pettenbach and has developed a new generation of chargers based around its innovative Ri charging process. With total efficiency levels of up to 84 percent, the chargers are considerably more efficient than conventional solutions and their gentle charging also extends the service life of the expensive traction batteries.
“The Ri charging process adapts itself to the age, temperature and state of charge of the individual battery,” explains Leopold Grammerstätter, technical consultant for battery charging systems at Fronius. “The losses at the start of charging and during the recharging phase are therefore much lower than with other charging technologies.” This lowers energy consumption, and hence costs, as well as reducing CO2 emissions. The whole process is much gentler, as the battery does not heat up as much while it is being charged. “This means that the battery lasts longer and does not have to be replaced as frequently – another cost benefit,” observes Grammerstätter.
Fronius used the I-SPoT lifecycle costs calculator to determine the potential savings available to AMAG – with remarkable results: “We discovered that by using our chargers, the company can save more than 600,000 kilowatt hours of electricity a year,” reports Grammerstätter. “The indirect CO2 emissions could be reduced by around 150,000 kilograms each year.” These compelling arguments clinched the deal: in 2014, Fronius supplied the first 20 Selectiva battery charging systems to AMAG via its sales partner Banner, and another 20 followed in 2015.
The company made another investment back in 2013 with the aim of providing its intralogistics operation with low cost, sustainable levels of electricity: a photovoltaic system with an output of 40.8kWp was installed on a vacant plot on the company’s site. The four inverters, which since then have been generating environmentally friendly solar power, are also from Fronius. “Our long-term objective is a CO2-neutral flow of materials,” explains Florian Stadler. “Although the solar power we are generating does not flow directly to the charging stations, we can feed it locally to our distributor and use it on site.”
The head of energy management is totally satisfied with the Fronius solution. His conclusion is that “the devices offer the most advanced technology on the market and help us achieve considerable savings – both in terms of electricity consumption and our carbon footprint”. The devices are thus an important factor as far as compliance with the stringent energy efficiency legislation is concerned. “At the same time they ensure that our forklift trucks are always available, even when working under such difficult conditions.” The new chargers have significantly improved the performance of the heavily worked traction batteries.