Variability and phasing of tidal current energy around the United Kingdom

• Published in: Renewable energy Vol. 51; pp. 343 - 357
• Main Authors: Iyer, A.S., Couch, S.J., Harrison, G.P., Wallace, A.R.
• Format: Journal Article
• Language: English
• Published: Oxford Elsevier Ltd 01.03.2013; Elsevier
• Subjects: Applied sciences; Economics; Energy; Exact sciences and technology; Intermittency; Natural energy; Phasing; Power generation; Renewable energy; Tidal current energy; Tidal currents; Tidal energy; Tidal phasing; Tidal power; United Kingdom; Europe; TAP; NOAA; EMEC; AEP; ADCP; Intermittency; B & V; GIS; SIF; BODC; Renewable energy; SPR; Tidal phasing; GEBCO; Tidal current energy; IDW; Variability; Tidal current; Tidal energy
• ISSN: 0960-1481; 1879-0682
• DOI: 10.1016/j.renene.2012.09.017

Tidal energy has the potential to play a key role in meeting renewable energy targets set out by the United Kingdom (UK) government and devolved administrations. Attention has been drawn to this resource as a number of locations with high tidal current velocity have recently been leased by the Crown Estate for commercial development. Although tides are periodic and predictable, there are times when the current velocity is too low for any power generation. However, it has been proposed that a portfolio of diverse sites located around the UK will deliver a firm aggregate output due to the relative phasing of the tidal signal around the coast. This paper analyses whether firm tidal power is feasible with ‘first generation’ tidal current generators suitable for relatively shallow water, high velocity sites. This is achieved through development of realistic scenarios of tidal current energy industry development. These scenarios incorporate constraints relating to assessment of the economically harvestable resource, tidal technology potential and the practical limits to energy extraction dictated by environmental response and spatial availability of resource. The final scenario is capable of generating 17 TWh/year with an effective installed capacity of 7.8 GW, at an average capacity factor of 29.9% from 7 major locations. However, it is concluded that there is insufficient diversity between sites suitable for first generation tidal current energy schemes for a portfolio approach to deliver firm power generation. ► This study examines potential scenarios for large scale development of tidal current energy in the UK. ► Various criteria are put in place to identify specific sites. ► The scenarios are developed to assess the total energy output with and without imposing environmental constraints. ► Time series are generated for each site to assess the tidal phasing and its aggregate effect. ► The nature of tidal wave propagation around the UK means that most tidal hot spots are largely in phase.