The Energy-generating Industry
BWF Envirotec filter technology
Whether operated with coal or biomass such as olive pits, rapeseed, rice husks, straw or wood, power plants must generate energy efficiently, while at the same time operating in an environmentally sustainable manner. Further challenges for filter technology include reducing flue ash and neutralising harmful gases. Filter media from BWF Envirotec have been specially developed with this application in mind.
Coal-fired power plants produce flue ash, which must then be safely removed from the flue gas. Using BWF Envirotec industrial filters for filter technology efficiently separates dust and reduces harmful gases. Thermal waste treatment plants place equally great demands on filter technology: For example, legally prescribed, lowest dust emission limits must be observed. With BWF Envirotec industrial filters for your filter technology, you can rest assured you will easily meet dust emission limits.
BWF Envirotec's environmental concept
The production of energy through the combustion of biomass is becoming increasingly important. As a fuel, the composition of biomass can vary widely. Our specific, high-performance industrial filters are precisely tailored to your filter system's operating conditions.
BWF Envirotec works to meet the environmental goal of protecting natural energy resources and making sustainable use of them. BWF Envirotec industrial filters achieve emission values in filter technology that are often far below the legally permissible limits.
Our application technology engineers offer highly efficient, best-case solutions for filter technology. We aim to help our customers set standards and achieve high performance goals. To this end, we offer a complete range of service programmes including installation, commissioning, maintenance and repairs and filter system optimisation.
References for filtration systems in the energy-generating industry
Dust source | Filter medium Filter medium | Location Location | Number of filter bags Number of filter bags | Inlet load g/Nm3 Inlet load g/Nm3 | Temperature Continuous/Peak °C Temperature Continuous/Peak °C |
Waste incinerator - Dry injection | Filter medium needlona® PI/PTFE 524 CS31 | Location Great Britain | Number of filter bags 1,668 | Inlet load g/Nm3 11 | Temperature Continuous/Peak °C 130-150/200 |
Power plants - Pulverised coal firing | Filter medium needlona® PPS/PPS 601 MPS | Location South Africa | Number of filter bags 36,960 | Inlet load g/Nm3 70 | Temperature Continuous/Peak °C 125/130 |
Power plants - Pulverised coal firing | Filter medium needlona® PTFE/PTFE 754 MPS CS30 | Location Czech Republic | Number of filter bags 16,640 | Inlet load g/Nm3 74 | Temperature Continuous/Peak °C 160-180/220 |
Waste incinerator - Fluidised bed combustion | Filter medium PM-Tec® PTFE-PI/PTFE 630 | Location Germany | Number of filter bags 420 | Inlet load g/Nm3 30 | Temperature Continuous/Peak °C 160/180 |
Power plants - Dry injection | Filter medium PM-Tec® GL 750 | Location Sweden | Number of filter bags 3,600 | Inlet load g/Nm3 15 | Temperature Continuous/Peak °C 180-185 |
