TY - GEN
T1 - Modeling a new spray process combining plasma and HVOF
AU - Martinez, B.
AU - Mariaux, G.
AU - Vardelle, A.
AU - Barykin, G.
AU - Parco, M.
PY - 2009
Y1 - 2009
N2 - This study deals with the numerical simulations and experimental observation of a new industrial thermal spray process developed at Inasmet Tecnalia. The process, called "oxi-fuel ionization" (OFI) is a supersonic combustion process enhanced by the combination with a plasma source. The arising combustion process is characterized by its stability within a broad range of fuel/oxidant conditions and the ability to produce high quality coatings using gases with rather low gross heating values and lower gas consumption than most of the conventional HVOF guns. The mathematical model involved the formation of the plasma jet, combustion process and supersonic flow issuing from the spray torch. It made it possible to investigate the effect of the plasma on the gun operation and more specifically on the velocity and temperature fields of the gas flow inside and outside the gun. The model equations were solved using the CFD Fluent 6.3 code and predictions were compared with experimental observations. The benefits of the plasma jet will be discussed in the light of predictions and fuel combustion mechanisms.
AB - This study deals with the numerical simulations and experimental observation of a new industrial thermal spray process developed at Inasmet Tecnalia. The process, called "oxi-fuel ionization" (OFI) is a supersonic combustion process enhanced by the combination with a plasma source. The arising combustion process is characterized by its stability within a broad range of fuel/oxidant conditions and the ability to produce high quality coatings using gases with rather low gross heating values and lower gas consumption than most of the conventional HVOF guns. The mathematical model involved the formation of the plasma jet, combustion process and supersonic flow issuing from the spray torch. It made it possible to investigate the effect of the plasma on the gun operation and more specifically on the velocity and temperature fields of the gas flow inside and outside the gun. The model equations were solved using the CFD Fluent 6.3 code and predictions were compared with experimental observations. The benefits of the plasma jet will be discussed in the light of predictions and fuel combustion mechanisms.
UR - http://www.scopus.com/inward/record.url?scp=76749122398&partnerID=8YFLogxK
U2 - 10.1361/cp2009itsc0481
DO - 10.1361/cp2009itsc0481
M3 - Conference contribution
AN - SCOPUS:76749122398
SN - 9781615030040
T3 - Proceedings of the International Thermal Spray Conference
SP - 481
EP - 486
BT - Expanding Thermal Spray Performance to New Markets and Applications - Proceedings of the 2009 International Thermal Spray Conference, ITSC 2009
T2 - Expanding Thermal Spray Performance to New Markets and Applications - 2009 International Thermal Spray Conference, ITSC 2009
Y2 - 4 May 2009 through 7 May 2009
ER -