J.L. Bird scite author profile

Axial flow hydro-kinetic turbines convert the kinetic energy of a flowing fluid into electrical energy, and can be designed for deployment in a wide range of locations. As relatively recent technology, these designs are often high in cost, complex, and require specialist maintenance and materials. This is not viable for many communities in developing countries, which may subsequently remain reliant on fossil fuels. A remote river energy system has been designed to be built and maintained using minimal equipment, with components that can be readily obtained. A formal design process has been used with design review and feedback stages; design tools included Simulink modelling, FEA, CFD, nodal analysis and flume testing. Only a handful of components such as the turbine blades require specialist machining and maintenance. The results demonstrate how an effective water turbine with a 3kW output can be theoretically produced and maintained without an over-reliance on specialised components and tools, thereby producing a more economically viable water turbine for use in developing countries. Open source distribution of the design drawings will facilitate application of the design and improvements by other stakeholders. The design study presented here is a platform for prototype technology trials to further develop the concept.

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The Underway Survey System at the Naval Oceanographic Office

McDuffey

Bird

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Discussion: Remote river energy system: an open-source low-maintenance turbine design for remote areas

Masters

Bird

Birch

et al. 2023

Proceedings of the Institution of Civil Engineers - Energy

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J.L. Bird

Interpreting bathyphotometer signals

Advances in bioluminescence instrumentation

Remote river energy system: an open-source low-maintenance turbine design for remote areas

The Underway Survey System at the Naval Oceanographic Office

Discussion: Remote river energy system: an open-source low-maintenance turbine design for remote areas

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