Indirect heating
Indirect heatingFor metal-plastic joints For some compounds it is not possible or not worthwhile heating the materials directly. Here, the target material can be heated
Indirect heatingFor metal-plastic joints For some compounds it is not possible or not worthwhile heating the materials directly. Here, the target material can be heated
Special solutionsWith induction heating As an innovative solution provider of induction heating, Himmelwerk enjoys working on particularly challenging tasks. These can come from any industrial
Coating, drying, cleaning –Inductive surface treatment Induction heating is ideal for all surface treatments such as coating, drying or cleaning, whether with or without preheating.
Induction hardening, annealing, temperingheat treatment of metals By loading the video, you accept Vimeo’s privacy policy.Learn more Unlock Video Always unlock Vimeo Induction heating offers
Smart Automation Automating induction heating Regardless of whether it is a matter of precisely positioning workpieces for extremely hot heating, synchronously feeding several components to
Smart induction technology of the future Himmelwerk IoT Can AI measures and smart solutions also be implemented in the field of induction heating? And if
Since 1950, Himmelwerk has shipped more than 19,000 high and medium frequency converters worldwide.
By how much can you reduce your CO₂ emissions per year? Let’s have a look.
Assumption 1: 25% of your converters are still operational.
Assumption 2: They have an average output of 6 kW and thus a power consumption of 7 kW.
Assumption 3: These generators are operational 8 hrs per day and 5 days per week.
Assumption 4: Inductive heating uses up to 40% less energy than conventional methods. Let’s assume 30%.
With these assumptions, our calculation would look like this: Daily energy consumption: 8 hrs x 7 kW = 56 kW
Energy savings per day: 56 kWh / 0.7 = 80 kWh; 80 – 56 = 24 kWh
Total energy savings per day: 24 kWh x 4,750 converters = 114,000 kWh
Total energy savings per year: 220 working days x 114,000 kWh = 25,080,000 kWh
Conversion factor kWh/CO₂: 1 kWh is equivalent to approx. 0.485 kg of CO₂ (source: German Federal Environmental Agency, Climate Change 15/2022)
CO₂ reduction per year: 25,080,000 kWh x 0.485 kg = 12,163,800 kg