Daniel Chinn
28Patents
6h-index
52Co-inventors
68Inventor score
Filing activity: Apr 29, 2002 → Jun 9, 2020
Most-cited inventions
| Patent | Title | Area | Cited by | Status |
|---|---|---|---|---|
| US7527775B2 | CO2 removal from gas using ionic liquid absorbents | Emerging Cross-Sectional Technologies | 17 | Active |
| US8869890B2 | Use of gas-separation membranes to enhance production in fields containing high concentrations of hydrogen sulfides | Emerging Cross-Sectional Technologies | 13 | Active |
| US9205371B2 | Method for improving total energy demand in a post-combustion carbon capture process with ionic absorbent | Emerging Cross-Sectional Technologies | 11 | Active |
| US7405243B2 | Hydrogen recovery from hydrocarbon synthesis processes | Chemistry; Metallurgy | 10 | Expired |
| US6723756B2 | Aqueous separation of syngas components | Emerging Cross-Sectional Technologies | 9 | Expired |
| US8192524B2 | Process for upgrading natural gas with improved management of CO2 | Emerging Cross-Sectional Technologies | 9 | Active |
| US7745502B2 | Hydrogen recovery from hydrocarbon synthesis processes | Chemistry; Metallurgy | 3 | Active |
| US8911539B2 | Process for the separation of carbon dioxide from flue gas | Emerging Cross-Sectional Technologies | 3 | Active |
| US8206667B2 | Membrane reactor with in-situ dehydration and method for using the same | Performing Operations; Transporting | 1 | Active |
| US10041014B2 | Process, method and system for removal of mercury in a gas dehydration process | Chemistry; Metallurgy | 1 | Active |
| US7166643B2 | Hydrogen recovery from hydrocarbon synthesis processes | Chemistry; Metallurgy | 1 | Expired |
| US9901863B2 | Process for the separation of carbon dioxide from flue gas | Emerging Cross-Sectional Technologies | 0 | Active |
| US11319792B2 | Processes and systems for high H2S gas processing having reduced sulfur production | Performing Operations; Transporting | 0 | Active |
| US9162208B2 | Process and system for producing synthetic crude oil from offshore produced fluids containing high CO2 content | Chemistry; Metallurgy | 0 | Active |
| US10843129B2 | Systems and methods to remove mercaptans from sour gas using membranes | Chemistry; Metallurgy | 0 | Active |
| US9499749B2 | Removing unstable sulfur compounds from crude oil | Chemistry; Metallurgy | 0 | Active |
| US9751044B2 | Aqueous solutions of amine functionalized ionic compounds for carbon capture processes | Emerging Cross-Sectional Technologies | 0 | Active |
| US9062260B2 | Removing unstable sulfur compounds from crude oil | Chemistry; Metallurgy | 0 | Active |
| US10905996B2 | Systems and methods to manage heat in an integrated oil and gas processing plant with sour gas injection | Performing Operations; Transporting | 0 | Active |
| US10363517B2 | Systems and methods to dehydrate high acid gas streams using membranes in an oil and gas processing plant | Chemistry; Metallurgy | 0 | Active |
| US9709325B2 | Integration of a small scale liquefaction unit with an LNG plant to convert end flash gas and boil-off gas to incremental LNG | Emerging Cross-Sectional Technologies | 0 | Active |
| US8142647B2 | Adsorption of dibenzothiophenes from hydrocarbon and model diesel feeds | Chemistry; Metallurgy | 0 | Active |
| US10391444B2 | Systems and methods to debottleneck an integrated oil and gas processing plant with sour gas injection | Fixed Constructions | 0 | Active |
| US10363518B2 | Systems and methods to debottleneck an integrated oil and gas processing plant with sour gas injection | Emerging Cross-Sectional Technologies | 0 | Active |
| US9180403B2 | Aqueous solutions of amine functionalized ionic compounds for carbon capture processes | Emerging Cross-Sectional Technologies | 0 | Active |
Source: USPTO / EPO open patent data. Inventor disambiguation is heuristic; counts are objective bibliographic measures.