Lee-Tuffnell
Clive Derek Lee-Tuffnell, Oxfordshire GB
Patent application number | Description | Published |
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20110046245 | Catalytic Reaction Module - A catalytic reaction module ( | 02-24-2011 |
20120058028 | Process and Apparatus for Steam-Methane Reforming - Methane reacts with steam generating carbon monoxide and hydrogen in a first catalytic reactor; the resulting gas mixture undergoes Fischer-Tropsch synthesis in a second catalytic reactor. In the steam/methane reforming, the gas mixture passes through a narrow channel having mean and exit temperatures both in the range of 750° C. to 900° C., residence time less than 0.5 second, and the channel containing a catalyst, so that only reactions having comparatively rapid kinetics will occur. Heat is provided by combustion of methane in adjacent channels. The ratio of steam to methane may be about 1.5. Almost all methane will undergo the reforming reaction, almost entirely forming carbon monoxide. After Fischer-Tropsch synthesis, the remaining hydrogen may be fed back to the combustion channels. The steam for the reforming step may be generated from water generated by the chemical reactions, by condensing products from Fischer-Tropsch synthesis and by condensing water vapor generated in combustion. | 03-08-2012 |
Clive Derek Lee-Tuffnell, Dorset GB
Patent application number | Description | Published |
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20100324158 | Catalytic Reactor - A reactor module for Fischer-Tropsch synthesis having a generally rectangular reactor block with a stack of plates defining flow channels for coolant and flow channels for the synthesis reaction arranged alternately in the block. The synthesis flow channels extend in a generally vertical direction between upper and lower faces of the reactor block and are defined by plates in combination with either bars or sheets such that each channel is of width no more than 200 mm. The coolant flow channels are oriented in the same direction, and communicate through distributor chambers with inlet and outlet ports at side faces of the reactor block. A plant may contain a multiplicity of such reactor modules operating in parallel, the modules being interchangeable and replaceable. The temperature control is enhanced by allowing the coolant flow to be parallel to the synthesis gas flow. | 12-23-2010 |
Clive Derek Lee-Tuffnell US
Patent application number | Description | Published |
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20100186824 | Gas-to-Liquid Plant Using Parallel Units - A plant is provided for processing natural gas. The plant comprises two or more modules connected in parallel. The plant is configured to convert the associated gas into a material with a higher density. In addition, a method of processing gas associated with one or more oil wells. The method comprises the steps of: providing a modular plant comprising two or more modules in parallel wherein at least one of the modules is a robust module and at least one of the modules is an economical module; turning down one or more of the modules when productivity drops; switching off one or more of the modules at least when productivity drops beyond the turndown limit. The natural gas is treated in a Fischer-Tropsch unit. | 07-29-2010 |
Clive Derek Lee-Tuffnell, Cleveland GB
Patent application number | Description | Published |
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20140234168 | APPARATUS FOR STEAM-METHANE REFORMING - Apparatuses for use in plants for processing methane, the apparatuses comprising a plurality of reaction modules each including a plurality of Fischer-Tropsch reactors operable to convert a gaseous mixture including carbon monoxide and hydrogen to a liquid hydrocarbon. Each module may be disconnected and taken away for servicing while allowing the plant to continue to operate. In some of the apparatuses, each Fischer-Tropsch reactor comprises a plurality of metal sheets arranged as a stack to define first and second flow channels for flow of respective fluids, the channels being arranged alternately to ensure good thermal contact between the fluids in the channels. | 08-21-2014 |