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Field
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DC Microgrids (MG) can connect various renewable generators and energy storage and play a vital role in the goal of reaching Net Zero. The overall management of a DC MG relies on reliable
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porous rocks has been proposed as a safe and efficient medium for large-scale energy storage. The need arises because there will be days when weather conditions are such that large-scale renewable energy
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conditions are such that large-scale renewable energy production is achieved which outstrips demand. On other days there will be too little renewables production. The solution is to store the excess energy as
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, Engineering and Technology. Tidal energy, offshore renewable energy, engineering modelling, system modelling, optimisation.
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Technology. Tidal energy, offshore renewable energy, engineering modelling, offshore engineering, naval architecture.
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, Engineering and Technology. Tidal energy, offshore renewable energy, engineering modelling, metocean data, resource assessment.
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between energy production (renewable source) and consumption. It is carbon-free and well-suited for easy and inexpensive long-distance transport and long-term storage. Thermochemical processes (gas turbines
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for electrification of transportation such as automotives, rail, and aviation, as well as stationary energy storage for electricity generated from renewable sources including wind and solar. Rechargeable batteries
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systems for floating offshore wind turbines, including novel mooring lines and anchors. Floating offshore wind energy holds immense potential for harnessing clean and renewable energy and reach the net zero
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. These propositions offer innovative energy tariffs to householders with the aim of reducing peak energy demand, enabling increased use of renewables, and supporting consumers to reduce their energy bills. This UK