TY - GEN
T1 - Control strategies for improving power performance of two-body heaving wave energy devices
AU - Van Den Berg, Jonathan
AU - Ricci, Pierpaolo
AU - Tedeschi, Elisabetta
AU - Touzon, Imanol
AU - Villate, José Luis
PY - 2011
Y1 - 2011
N2 - This paper addresses the hydrodynamic analysis of a generalized twobody system (2B), a wave energy convertor containing a power take off (PTO) system for the purpose of energy conversion. The aim is to study the behaviour of the system and the effect of different control strategies on the power performance. For such a device, resonance can be obtained at two different modes of motion. A different version of the 2B system could be designed to modify their occurrence, for example, a system 1 for the first mode and a system 2 for the second mode. The differences in the dynamics and in energy absorption between the two systems are assessed and compared. The following methodology has been used. First we started with hydrodynamic modelling of the 2B system point absorber. The hydrodynamic models provide insight to the amplitude responses and power absorption behaviour in the frequency domain. Next these models are extended to time domain models for these devices. This allows studying and optimizing the non linear effects such as forces and damping on the PTO system. Finally the time domain model allows studying the control of the devices. Three types of control have been assessed, including passive loading, equivalent saturation control and maximum stroke control. In this study the control strategies are applied only on one sea state. Conclusions based on that analysis have been drawn in this work. However time domain models, including control strategies, allow us to estimate annual power production of 2B system by consideration of all sea states found in a wave climate.
AB - This paper addresses the hydrodynamic analysis of a generalized twobody system (2B), a wave energy convertor containing a power take off (PTO) system for the purpose of energy conversion. The aim is to study the behaviour of the system and the effect of different control strategies on the power performance. For such a device, resonance can be obtained at two different modes of motion. A different version of the 2B system could be designed to modify their occurrence, for example, a system 1 for the first mode and a system 2 for the second mode. The differences in the dynamics and in energy absorption between the two systems are assessed and compared. The following methodology has been used. First we started with hydrodynamic modelling of the 2B system point absorber. The hydrodynamic models provide insight to the amplitude responses and power absorption behaviour in the frequency domain. Next these models are extended to time domain models for these devices. This allows studying and optimizing the non linear effects such as forces and damping on the PTO system. Finally the time domain model allows studying the control of the devices. Three types of control have been assessed, including passive loading, equivalent saturation control and maximum stroke control. In this study the control strategies are applied only on one sea state. Conclusions based on that analysis have been drawn in this work. However time domain models, including control strategies, allow us to estimate annual power production of 2B system by consideration of all sea states found in a wave climate.
KW - Control strategies
KW - Time domain analysis
KW - Two body system
KW - Wave energy
UR - http://www.scopus.com/inward/record.url?scp=80052760366&partnerID=8YFLogxK
M3 - Conference contribution
AN - SCOPUS:80052760366
SN - 9781880653968
T3 - Proceedings of the International Offshore and Polar Engineering Conference
SP - 661
EP - 667
BT - Proceedings of the 21st (2011) International Offshore and Polar Engineering Conference, ISOPE-2011
T2 - 21st International Offshore and Polar Engineering Conference, ISOPE-2011
Y2 - 19 June 2011 through 24 June 2011
ER -