@misc{BacherLebedynskyyRiebeletal., author = {Bacher, Christian and Lebedynskyy, Volodymyr and Riebel, Ulrich and Fischer, Silvio}, title = {Electrode Shape and Efficiency in wet wire-tube Electrostatic Precipitators at high aerosol concentration}, language = {en} } @misc{BacherLebedynskyyFischeretal., author = {Bacher, Christian and Lebedynskyy, Volodymyr and Fischer, Silvio and Riebel, Ulrich}, title = {Discharge electrode geometry and energy efficiency in a one-stage wire-tube electrostatic precipitator operating at high concentrations of submicron liquid aerosol}, series = {Environmental Technology}, journal = {Environmental Technology}, issn = {0959-3330}, doi = {10.1080/09593330.2018.1555613}, pages = {13}, abstract = {In order to help answering the question "Which electrode design is the best?", the precipitation performance of a tubular ESP was determined for different electrode designs with special attention to specific energy consumption. Experiments were conducted in a wire-tube arrangement with a high loading of liquid submicron particles causing strong space charge effects, also known as corona quenching. The experiments are supplemented by numerical simulation results showing the effect of residence time and power consumption on separation efficiency.}, language = {en} } @misc{BacherRiebelLebedynskyyetal., author = {Bacher, Christian and Riebel, Ulrich and Lebedynskyy, Volodymyr and Fischer, Silvio}, title = {Discharge electrode geometries and energy efficiency in one-stage electrostatic precipitators at high aerosol concentration}, series = {ICESP 2018, Charlotte, USA, 9-11 October 2018}, journal = {ICESP 2018, Charlotte, USA, 9-11 October 2018}, pages = {7}, abstract = {In order to help answering the question "Which electrode design is the best?", the precipitation performance of a tubular ESP was determined for different electrode designs with special attention to specific energy consumption. Experiments were conducted in a wire-tube arrangement with a high loading of liquid submicron particles. The experiments are supplemented by numerical simulation results showing the effect of residence time and power consumption on separation efficiency. By combining the own experimental results with seemingly contradicting statements of the literature, the authors provide also some general guidelines for discharge electrode design when designing or upgrading electrostatic precipitator plants.}, language = {en} }