DEPARTMENT FOR BUSINESS, ENERGY & INDUSTRIAL STRATEGY

Modelling, Optimisation and Design of Conversion for Offshore Renewable Energy (UK-China MOD-CORE)

Project disclaimer

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Description

China has the world's largest installed capacity for wind energy and is rapidly developing its wave energy technologies. Strong growth in both offshore wind and wave are needed to displace fossil fuel generation in order for China to achieve a sustainable economy. For this to happen, greater investor confidence and commercial debt are needed. This is possible if a significant reduction in costs at all levels are achieved, thereby reducing the cost of energy to a point where it competes with fossil-fuel generation. However, the high risks of offshore renewable energy (ORE) have impeded faster development. In China, onshore wind power is severely curtailed due to crowded transmission corridors. Exploitation of offshore wind would better match the population distribution in China, and so hence there is a strong motivation to exploit this ORE. In order to accelerate this development, new technologies are desperately needed to improve the performance in terms of cost, efficiency and reliability (availability). In addition to offshore wind, other forms of marine renewable energy will also play indispensable roles in the future renewable energy mix. Because these technologies are less mature, this development involves even higher risks. As yet none of the wave energy generation companies have shown to be commercially viable without economic support mechanisms. Recognising the high risks involved and the development work that is urgently needed in the industry, this project aims to carry out fundamental modelling and validating work that will lead to the capability of virtual prototyping. Such a capability will significantly accelerate and de-risk the development work in industry. Complementary expertise in China and the UK are combined to address the requirements of overall system performance from ORE devices (wind and wave) to grid, and focuses on the critical technical aspects that will dictate the design decisions. This will be achieved through multiple scale (dimensional and time-wise) and multiple resolution modelling, taking into account the specifications and utilisation of materials and components in the designed systems subject to optimal control. The modelling will cover the manufacturability of the designs and will consider environmental constraints including impact on sea life in different locations. These will be important as ORE development is scaled up in the future. The outcome of research will be demonstrated through a series of case studies including both systems for large wind farms and wave arrays, and also small scale devices supplying energy to off-grid islands. Although China is the primary beneficiary of this activity, there are possible future secondary benefits to the UK. The project members have long track records in modelling and design of components in wind and marine renewable systems. The project allows the researchers to interact and carry out studies cutting across the borders of different engineering disciplines, enabling hi-fidelity modelling and virtual prototyping.

Objectives

The Newton Fund builds research and innovation partnerships with developing countries across the world to promote the economic development and social welfare of the partner countries.

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Location

The country, countries or regions that benefit from this Programme.

China

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