Pulsed corona tar cracker

Author

Van Heesch, Bert E J M ; Pemen, Guus A J M ; Yan, Keping ; Van Paasen, Sander V B ; Ptasinski, Krzysztof J. ; Huijbrechts, Paul A H J

Author_Institution

EVT Div., Eindhoven Univ. of Technol., Netherlands

Volume

28

Issue

5

fYear

2000

fDate

10/1/2000 12:00:00 AM

Firstpage

1571

Lastpage

1575

Abstract

This research concentrates on the application of pulsed corona discharges to crack heavy tar components (hydrocarbons) of thermally generated biogas into lighter ones. The method has the advantage that it can operate at a high temperature and be retrofitted to existing installations. The corona discharge is energized by 100-150-ns-wide voltage pulses (100 kV) at a continuous repetition rate of 600-1000 pulses per second. The power dissipated by the corona discharges is 1.5 kW average and 50 MW peak in each pulse. To be cracked by discharges, the hydrocarbons of the tar mixture need to be gaseous, and therefore, the corona reactor must operate at a high temperature. During this first phase of the program, the reactor runs at a modest temperature of up to 200°C. The reactor is a 3-m-long stainless steel cylinder, 0.25-m diameter with a corona wire along the axis. The pressure is 1 atmosphere

Keywords

air pollution control; bioenergy conversion; corona; plasma materials processing; 1.5 kW; 200 C; 50 MW; corona reactor; heavy tar components cracking; high temperature; hydrocarbons; pulsed corona discharges; pulsed corona tar cracker; stainless steel cylinder; thermally generated biogas; Biomass; Cleaning; Combustion; Corona; EMP radiation effects; Engines; Inductors; Plasma temperature; Turbines; Voltage;

fLanguage

English

Journal_Title

Plasma Science, IEEE Transactions on

Publisher

ieee

ISSN

0093-3813

Type

jour

DOI

10.1109/27.901235

Filename

901235