Affiliation:
1. University of Edinburgh Wave Power Group, School of Mechanical Engineering Edinburgh, UK
Abstract
It is easy to make a device that will respond vigorously to the action of sea waves. Indeed, it is quite hard to make one that will not. However, the conversion of the slow, random, reversing energy flows with very high extreme values into phase-locked synchronous electricity with power quality acceptable to a utility network is very much harder. This paper describes a range of different control strategies of varying degrees of sophistication and then describes possible conversion equipment for high-pressure oil and water and low-pressure air. Like many renewable energy sources, waves would benefit from some form of energy storage, particularly if they are to be used in weak island networks. Flywheels, gas accumulators, submerged oil/vacuum accumulators, thermal stores and reversible fuel cells are discussed, with emphasis on the coupling hardware. This leads on to a description of a new type of hydraulic machine with digital control which has been specially designed for high efficiency and flexible control of multiple erratic sources. An explanation of the rather low performance of air turbines in the random air flows caused by sea waves suggests the need for a variable-pitch version of the Wells turbine and the design of a reciprocating-flow wind-tunnel with recirculating energy recovery in which it could be tested.
Subject
Mechanical Engineering,Ocean Engineering
Reference12 articles.
1. Salter S H, Taylor J R M The design of a high-speed stop valve for oscillating water-columns. In Second European Wave Power Conference, Lisbon, November 1995, 1996 pp. 337–344 (CEC, Luxembourg).
2. A theory for wave-power absorption by oscillating bodies
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