Separation of particles from syngas at high-temperatures with an electrostatic precipitator

The synthesis gas stemming from biomass gasification contains particles (ashes, soot, etc.), which, if not removed, can induce severe operational damage. The problem is more serious if syngas must be used for chemical synthesis as in the Fischer-Tropsch catalyst reaction or the water–gas shift. The particles contained in syngas can reduce or inhibit the catalyst effect. Moreover, for energy reasons, it is also necessary to develop a filtration process at as high a temperature as possible. To address this issue, a study to show the possibility of removing the particles from syngas with an electrostatic precipitator at high temperature (500–1000 °C) and pressure (0.1–1 MPa) was conducted. Syngas filtration tests conducted directly downstream of a gasifier demonstrated the feasibility of implementing an electrostatic precipitator to clean syngas at temperatures above 500 °C.

Graphical abstractFigure optionsDownload full-size imageDownload as PowerPoint slideHighlights► The possibility of removing the particles from syngas at high-temperatures was studied (>500°C). ► Syngas filtration tests with an electrostatic precipitator was conducted directly downstream of a gasifier. ► Two filtration tests were realized: the first at a temperature of 510 °C and the second at 680 °C. ► For each filtration tests, an average mass filtration efficiency greater than 95% was obtained.