Items where Kingston Author is "Dansoh, Clifford"
Group by: Item Type | No Grouping Number of items: 8. ArticleFarzaneh, R, Dansoh, C, Augousti, A and Wang, J (2020) A review of UAE native seaweed as potential bio-refinery feedstock for jet fuel and high value chemicals. Advance in Environmental Waste Management & Recycling, 3(1), pp. 10-15. ISSN (online) 2641-1784 Dansoh, Cliff (2015) The viability of renewable energy and energy storage as the power source for municipal- scale reverse osmosis desalination. Desalination and Water Treatment, 55(11), pp. 3064-3090. ISSN (print) 1944-3994 Dansoh, C. (2014) The viability of hydrogen storage to supplement renewable energy when used to power municipal scale reverse osmosis plant. International Journal of Hydrogen Energy, 39(24), pp. 12676-12689. ISSN (print) 0360-3199 Book SectionDansoh, Clifford (2018) The use of renewable energy for the provision of power to operate reverse osmosis desalination facilities at Massawa. In: Eyvaz, Murat, (ed.) Desalination and Water Treatment. London, U.K. : Intech Open. pp. 177-197. ISBN 9781789237580 Dansoh, Clifford (2015) The viability of renewable energy and energy storage as the power source for municipal scale reverse osmosis desalination. In: Baawain, Mahad , Choudri, B.S. , Ahmed, Mushtaque and Purnama, Anton, (eds.) Recent progress in desalination, environmental and marine outfall systems. Cham, Switzerland : Springer. pp. 139-155. ISBN 9783319191225 Dansoh, Clifford (2013) The viability of renewable energy and energy storage for the provision of power to operate reverse osmosis desalination facilities. In: World Wind Energy Association, (ed.) Wind Energy International 2014/2015. Bonn, Germany : World Wind Energy Association. pp. 369-391. ISBN 9783940683076 Conference or Workshop ItemDansoh, Cliff (2018) Adding realism to the subject. In: Simply Better : Researching Assessment Practices – Improving Student Outcomes; 13 Sep 2018, Southampton, U.K.. (Unpublished) Udousoro, D. A. and Dansoh, Cliff (2018) Production of hydrogen using solar-powered electrolysis. In: World Renewable Energy Congress - WREC 2018; 31 Jul - 03 Aug 2018, Kingston, U.K.. |