TY - JOUR
T1 - Performance Availability Assessment of Combined Multi Power Source Traction Drive Considering Real Operational Conditions
AU - Frenkel, Ilia
AU - Bolvashenkov, Igor
AU - Herzog, Hans Georg
AU - Khvatskin, Lev
N1 - Publisher Copyright:
© 2016 Transport and Telecommunication Institute.
PY - 2016/9/1
Y1 - 2016/9/1
N2 - The present paper deals with the vehicle's traction electric drive, consisting of several various electric power sources. One of the main requirements for such systems are the safety and sustainable operations, achieved largely the implementation of an uninterrupted supply of the vehicle's propulsion system with an electric power. One way of realization of the required level of operational sustainability is usage of Multi Power Source Traction Drive. This type of vehicle's propulsion systems is widely applied on the ships, trains, planes, heavy trucks. The most important impact on the sustainability of functioning of the ship's propulsion system have operational conditions, especially for the cargo ship, operating in Arctic region. This paper presents the application of the LZ-transform method to assessing the important parameter of the vehicle's operational sustainability - availability of the multi-state (MSS) Multi Power Source Traction Drive, which includes Diesel-Generators and Gas-Turbine-Generators considering the impact of the real operating conditions. Straightforward Markov method applied to solve this problem will require building of a system's model with numerous numbers of states and solve a corresponding system of multiple differential equations. LZ-transform method, drastically simplified the solution.
AB - The present paper deals with the vehicle's traction electric drive, consisting of several various electric power sources. One of the main requirements for such systems are the safety and sustainable operations, achieved largely the implementation of an uninterrupted supply of the vehicle's propulsion system with an electric power. One way of realization of the required level of operational sustainability is usage of Multi Power Source Traction Drive. This type of vehicle's propulsion systems is widely applied on the ships, trains, planes, heavy trucks. The most important impact on the sustainability of functioning of the ship's propulsion system have operational conditions, especially for the cargo ship, operating in Arctic region. This paper presents the application of the LZ-transform method to assessing the important parameter of the vehicle's operational sustainability - availability of the multi-state (MSS) Multi Power Source Traction Drive, which includes Diesel-Generators and Gas-Turbine-Generators considering the impact of the real operating conditions. Straightforward Markov method applied to solve this problem will require building of a system's model with numerous numbers of states and solve a corresponding system of multiple differential equations. LZ-transform method, drastically simplified the solution.
KW - Arctic cargo ship
KW - Assessing Operational Sustainability
KW - Electric Propulsion System
KW - LZ-transform method
KW - Multi Power Source Traction Drive
KW - Multi-state systems
UR - http://www.scopus.com/inward/record.url?scp=84977588561&partnerID=8YFLogxK
U2 - 10.1515/ttj-2016-0016
DO - 10.1515/ttj-2016-0016
M3 - Article
AN - SCOPUS:84977588561
SN - 1407-6160
VL - 17
SP - 179
EP - 191
JO - Transport and Telecommunication
JF - Transport and Telecommunication
IS - 3
ER -