Patents by Inventor Jonathan K. Hodson
Jonathan K. Hodson has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 11162042Abstract: A method of preparing agglomerates of ultra-fine coal particles includes mixing a film forming agglomeration aid (FFAA) with a quantity of ultra-fine coal particles to form ultra-fine coal particles coated with the FFAA. The FFAA has a lower surface energy relative to a surface of the ultra-fine coal particles. The FFAA is mixed with the ultra-fine coal particles in an amount less than 3% by weight of the ultra-fine coal particles on a dry basis. Agglomerates of the ultra-fine coal particles coated with the film forming agglomeration aid are formed using vibration, pelleting, and/or briquetting. The agglomerates have a size of at least 2 mm. The ultra-fine coal particles have a particle size less than 100 ?m. The agglomerate has a tumbler test friability less than 3%. The drop shatter friability is also less than 3%.Type: GrantFiled: January 6, 2020Date of Patent: November 2, 2021Assignee: OMNIS MINERAL TECHNOLOGIES, LLCInventors: James S. Swensen, Jonathan K. Hodson, John G. Gritt, Nathan A. Chapman, Paul R. Samario, Michael R. Hodson, Simon K. Hodson
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Publication number: 20200316614Abstract: Coal fines are processed by flotation separation to separate coal particles from ash-forming mineral content particles. Coal fines are mixed water under high shear mixing conditions to form an aqueous slurry of coal fines containing between 15 wt. % and 55 wt. % coal fines. The aqueous slurry is introduced into a coal flotation cell to separate coal particles from ash-forming mineral content particles by flotation separation, wherein the coal fines have a particle size less than 100 ?m, and more preferably less than 50 ?m. Bubbles are generated in the coal flotation cell having a bubble size and bubble quantity selected to float the coal particles and to form a coal-froth containing at least 15 wt. % solid particles. The solid particles include coal particles and ash-forming mineral content particles. The coal-froth is collected for further processing.Type: ApplicationFiled: June 23, 2020Publication date: October 8, 2020Inventors: James S. Swensen, Simon K. Hodson, Jonathan K. Hodson
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Patent number: 10745905Abstract: A structural insulated building unit is provided for constructing a building. The structural insulated building unit includes an insulating core, first and second cementitious panels, and a connecting portion. The insulating core is defined by multiple sides and opposing first and second faces. The first and second cementitious panels are coupled to the first and second faces of the insulating core. The connecting portion is provided on one of the sides of the insulating core, and aligns the structural insulated building unit with an adjacent structural insulated building unit having a complementary connecting portion when constructing a building.Type: GrantFiled: May 14, 2019Date of Patent: August 18, 2020Assignee: Omnis Advanced Technologies, LLCInventors: Simon K. Hodson, Jonathan K. Hodson
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Publication number: 20200140773Abstract: A method of preparing agglomerates of ultra-fine coal particles includes mixing a film forming agglomeration aid (FFAA) with a quantity of ultra-fine coal particles to form ultra-fine coal particles coated with the FFAA. The FFAA has a lower surface energy relative to a surface of the ultra-fine coal particles. The FFAA is mixed with the ultra-fine coal particles in an amount less than 3% by weight of the ultra-fine coal particles on a dry basis. Agglomerates of the ultra-fine coal particles coated with the film forming agglomeration aid are formed using vibration, pelleting, and/or briquetting. The agglomerates have a size of at least 2 mm. The ultra-fine coal particles have a particle size less than 100 ?m. The agglomerate has a tumbler test friability less than 3%. The drop shatter friability is also less than 3%.Type: ApplicationFiled: January 6, 2020Publication date: May 7, 2020Inventors: James S. Swensen, Jonathan K. Hodson, John G. Gritt, Nathan A. Chapman, Paul R. Samario, Michael R. Hodson, Simon K. Hodson
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Patent number: 10526556Abstract: A method of preparing agglomerates of ultra-fine coal particles includes mixing a film forming agglomeration aid (FFAA) with a quantity of ultra-fine coal particles to form ultra-fine coal particles coated with the FFAA. The FFAA has a lower surface energy relative to a surface of the ultra-fine coal particles. The FFAA is mixed with the ultra-fine coal particles in an amount less than 3% by weight of the ultra-fine coal particles on a dry basis. Agglomerates of the ultra-fine coal particles coated with the film forming agglomeration aid are formed using vibration, pelleting, and/or briquetting. The agglomerates have a size of at least 2 mm. The ultra-fine coal particles have a particle size less than 100 ?m. The agglomerate has a tumbler test friability less than 3%. The drop shatter friability is also less than 3%.Type: GrantFiled: May 16, 2017Date of Patent: January 7, 2020Assignee: OMNIS MINERAL TECHNOLOGIES, LLCInventors: James S. Swensen, Jonathan K. Hodson, John G. Gritt, Nathan A. Chapman, Paul R. Samario, Michael R. Hodson, Simon K. Hodson
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Publication number: 20190271148Abstract: A structural insulated building unit is provided for constructing a building. The structural insulated building unit includes an insulating core, first and second cementitious panels, and a connecting portion. The insulating core is defined by multiple sides and opposing first and second faces. The first and second cementitious panels are coupled to the first and second faces of the insulating core. The connecting portion is provided on one of the sides of the insulating core, and aligns the structural insulated building unit with an adjacent structural insulated building unit having a complementary connecting portion when constructing a building.Type: ApplicationFiled: May 14, 2019Publication date: September 5, 2019Inventors: Simon K. Hodson, Jonathan K. Hodson
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Publication number: 20180334628Abstract: A method of preparing agglomerates of ultra-fine coal particles includes mixing a film forming agglomeration aid (FFAA) with a quantity of ultra-fine coal particles to form ultra-fine coal particles coated with the FFAA. The FFAA has a lower surface energy relative to a surface of the ultra-fine coal particles. The FFAA is mixed with the ultra-fine coal particles in an amount less than 3% by weight of the ultra-fine coal particles on a dry basis. Agglomerates of the ultra-fine coal particles coated with the film forming agglomeration aid are formed using vibration, pelleting, and/or briquetting. The agglomerates have a size of at least 2 mm. The ultra-fine coal particles have a particle size less than 100 ?m. The agglomerate has a tumbler test friability less than 3%. The drop shatter friability is also less than 3%.Type: ApplicationFiled: May 16, 2017Publication date: November 22, 2018Inventors: James S. Swensen, Jonathan K. Hodson, John G. Gritt, Nathan A. Chapman, Paul R. Samario, Michael R. Hodson, Simon K. Hodson
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Patent number: 9587192Abstract: Fine coal particles are dewatered by mechanically removing water from the coal particles by vibration assisted vacuum dewatering to form a coal particle filter cake. The filter cake typically has a water content less than 35% by weight, suitable for extrusion to form discrete, non-tacky pellets. The vibration assisted vacuum dewatering may operate at a vibration frequency in the range from about 1 Hz to about 500 Hz. The vibration frequency may be adjusted during the dewatering process. In some embodiments, the vibration frequency is increased as the moisture content of the coal particle filter cake is decreased. Washing the filter cake during dewatering removes soluble contaminants. Various vibration assisted vacuum dewatering devices may be used, including a vibration assisted rotary vacuum dewatering drum, a vibration assisted vacuum disk filter, and a vibration assisted vacuum conveyor system.Type: GrantFiled: December 30, 2014Date of Patent: March 7, 2017Assignee: EARTH TECHNOLOGIES USA LIMITEDInventors: James S. Swensen, Simon K. Hodson, Jonathan K. Hodson
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Publication number: 20160082446Abstract: Coal fines are processed by flotation separation to separate coal particles from ash-forming component particles. Coal fines are mixed water under high shear mixing conditions to form an aqueous slurry of coal fines containing between 15 wt. % and 55 wt. % coal fines. The aqueous slurry is introduced into a coal flotation cell to separate coal particles from ash-forming component particles by flotation separation, wherein the coal fines have a particle size less than 500 ?m, and more preferably less than 300 ?m. Bubbles are generated in the coal flotation cell having a bubble size and bubble quantity selected to float the coal particles and to form a coal-froth containing at least 15 wt. % solid particles. The solid particles include coal particles and ash-forming component particles. The coal-froth is collected for further processing.Type: ApplicationFiled: September 24, 2014Publication date: March 24, 2016Inventors: James S. Swensen, Simon K. Hodson, Jonathan K. Hodson
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Publication number: 20150184099Abstract: Fine coal particles are dewatered by mechanically removing water from the coal particles by vibration assisted vacuum dewatering to form a coal particle filter cake. The filter cake typically has a water content less than 35% by weight, suitable for extrusion to form discrete, non-tacky pellets. The vibration assisted vacuum dewatering may operate at a vibration frequency in the range from about 1 Hz to about 500 Hz. The vibration frequency may be adjusted during the dewatering process. In some embodiments, the vibration frequency is increased as the moisture content of the coal particle filter cake is decreased. Washing the filter cake during dewatering removes soluble contaminants. Various vibration assisted vacuum dewatering devices may be used, including a vibration assisted rotary vacuum dewatering drum, a vibration assisted vacuum disk filter, and a vibration assisted vacuum conveyor system.Type: ApplicationFiled: December 30, 2014Publication date: July 2, 2015Inventors: James S. Swensen, Simon K. Hodson, Jonathan K. Hodson