TY - GEN
T1 - Bi-propellant micro-rocket engine
AU - Miotti, P.
AU - Tajmar, M.
AU - Guraya, C.
AU - Perennes, F.
AU - Marmiroli, B.
AU - Soldati, A.
AU - Campolo, M.
AU - Kappenstein, C.
AU - Brahmi, R.
AU - Lang, M.
PY - 2004
Y1 - 2004
N2 - Micro-satellites (from 10 kg up to 100 kg) have mass, volume, and electrical power constraints due to their low dimensions. These limitations lead to the lack in currently available active orbit control systems in micro-satellites. Therefore, a micro-propulsion system with a high thrust to mass ratio is required to increase the potential functionality of small satellites. Mechatronic is presently working on a liquid bipropellant micro-rocket engine under contract with ESA (Contract No.l6914/NL/Sfe - Microturbomachinery Based Bipropellant System Using MNT). The advances in Mechatronic's project are to realise a micro-rocket engine with propellants pressurised by micro-pumps. The energy for driving the pumps would be extracted from a micro-turbine. Cooling channels around the nozzle would be also used in order to maintain the wall material below its maximum operating temperature. A mass budget comparison with more traditional pressure-fed micro-rockets shows a real benefit from this system in terms of mass reduction. In the paper, an overview of the project status in Mechatronic is presented.
AB - Micro-satellites (from 10 kg up to 100 kg) have mass, volume, and electrical power constraints due to their low dimensions. These limitations lead to the lack in currently available active orbit control systems in micro-satellites. Therefore, a micro-propulsion system with a high thrust to mass ratio is required to increase the potential functionality of small satellites. Mechatronic is presently working on a liquid bipropellant micro-rocket engine under contract with ESA (Contract No.l6914/NL/Sfe - Microturbomachinery Based Bipropellant System Using MNT). The advances in Mechatronic's project are to realise a micro-rocket engine with propellants pressurised by micro-pumps. The energy for driving the pumps would be extracted from a micro-turbine. Cooling channels around the nozzle would be also used in order to maintain the wall material below its maximum operating temperature. A mass budget comparison with more traditional pressure-fed micro-rockets shows a real benefit from this system in terms of mass reduction. In the paper, an overview of the project status in Mechatronic is presented.
UR - http://www.scopus.com/inward/record.url?scp=19944380788&partnerID=8YFLogxK
M3 - Conference contribution
AN - SCOPUS:19944380788
SN - 1563477211
T3 - Collection of Technical Papers - CANEUS 2004 - Conference on Micro-Nano-Technologies for Aerospace Applications
SP - 46
EP - 57
BT - Collection of Technical Papers - CANEUS 2004 - Conference on Micro-Nano-Technologies for Aerospace Applications
T2 - Collection of Technical Papers - CANEUS 2004 - Conference on Micro-Nano-Technologies for Aerospace Applications
Y2 - 1 November 2004 through 5 November 2004
ER -