Patents by Inventor Ananth N. Shenoy
Ananth N. Shenoy 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: 9861071Abstract: Composite particles and methods for making the same. An absorbent material is formed into a particle. An optional performance-enhancing active is coupled to the absorbent material before, during, or after the particle-forming process, homogeneously and/or in layers. Additionally, the composite absorbent particle may include a core material. Preferred methods for creating the absorbent particles include a pan agglomeration process, a high shear agglomeration process, a low shear agglomeration process, a high pressure agglomeration process, a low pressure agglomeration process, a rotary drum agglomeration process, a mix muller process, a roll press compaction process, a pin mixer process, a batch tumble blending mixer process, an extrusion process, and a fluid bed process.Type: GrantFiled: June 20, 2017Date of Patent: January 9, 2018Assignee: The Clorox CompanyInventors: Charles F. Fritter, Ananth N. Shenoy
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Publication number: 20170339913Abstract: Composite particles and methods for making the same. An absorbent material is formed into a particle. An optional performance-enhancing active is coupled to the absorbent material before, during, or after the particle-forming process, homogeneously and/or in layers. Additionally, the composite absorbent particle may include a core material. Preferred methods for creating the absorbent particles include a pan agglomeration process, a high shear agglomeration process, a low shear agglomeration process, a high pressure agglomeration process, a low pressure agglomeration process, a rotary drum agglomeration process, a mix muller process, a roll press compaction process, a pin mixer process, a batch tumble blending mixer process, an extrusion process, and a fluid bed process.Type: ApplicationFiled: June 20, 2017Publication date: November 30, 2017Applicant: THE CLOROX COMPANYInventors: Charles F. Fritter, Ananth N. Shenoy
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Publication number: 20170339914Abstract: Composite particles and methods for making the same. An absorbent material is formed into a particle. An optional performance-enhancing active is coupled to the absorbent material before, during, or after the particle-forming process, homogeneously and/or in layers. Additionally, the composite absorbent particle may include a core material. Preferred methods for creating the absorbent particles include a pan agglomeration process, a high shear agglomeration process, a low shear agglomeration process, a high pressure agglomeration process, a low pressure agglomeration process, a rotary drum agglomeration process, a mix muller process, a roll press compaction process, a pin mixer process, a batch tumble blending mixer process, an extrusion process, and a fluid bed process.Type: ApplicationFiled: June 27, 2017Publication date: November 30, 2017Inventors: Charles F. Fritter, Ananth N. Shenoy, Kevin P. Wallis, Sarah P. Blondeau, Ryan M. Ochylski, Dennis B. Jenkins
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Patent number: 9648845Abstract: Composite particles and methods for making the same. An absorbent material is formed into a particle. An optional performance-enhancing active is coupled to the absorbent material before, during, or after the particle-forming process, homogeneously and/or in layers. Additionally, the composite absorbent particle may include a core material. Preferred methods for creating the absorbent particles include a pan agglomeration process, a high shear agglomeration process, a low shear agglomeration process, a high pressure agglomeration process, a low pressure agglomeration process, a rotary drum agglomeration process, a mix muller process, a roll press compaction process, a pin mixer process, a batch tumble blending mixer process, an extrusion process, and a fluid bed process.Type: GrantFiled: December 30, 2015Date of Patent: May 16, 2017Assignee: The Clorox CompanyInventors: Charles F. Fritter, Ananth N. Shenoy
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Publication number: 20170013798Abstract: Composite particles and methods for making the same. An absorbent material is formed into a particle. An optional performance-enhancing active is coupled to the absorbent material before, during, or after the particle-forming process, homogeneously and/or in layers. Additionally, the composite absorbent particle may include a core material. Preferred methods for creating the absorbent particles include a pan agglomeration process, a high shear agglomeration process, a low shear agglomeration process, a high pressure agglomeration process, a low pressure agglomeration process, a rotary drum agglomeration process, a mix muller process, a roll press compaction process, a pin mixer process, a batch tumble blending mixer process, an extrusion process, and a fluid bed process.Type: ApplicationFiled: September 30, 2016Publication date: January 19, 2017Applicant: THE CLOROX COMPANYInventors: Charles F. Fritter, Ananth N. Shenoy
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Publication number: 20160150757Abstract: Composite particles and methods for making the same. An absorbent material is formed into a particle. An optional performance-enhancing active is coupled to the absorbent material before, during, or after the particle-forming process, homogeneously and/or in layers. Additionally, the composite absorbent particle may include a core material. Preferred methods for creating the absorbent particles include a pan agglomeration process, a high shear agglomeration process, a low shear agglomeration process, a high pressure agglomeration process, a low pressure agglomeration process, a rotary drum agglomeration process, a mix muller process, a roll press compaction process, a pin mixer process, a batch tumble blending mixer process, an extrusion process, and a fluid bed process.Type: ApplicationFiled: February 8, 2016Publication date: June 2, 2016Inventors: Charles F. Frittter, Ananth N. Shenoy, Kevin P. Wallis, Sarah P. Blondeau, Ryan M. Ochylski, Dennis B. Jenkins
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Publication number: 20160113231Abstract: Composite particles and methods for making the same. An absorbent material is formed into a particle. An optional performance-enhancing active is coupled to the absorbent material before, during, or after the particle-forming process, homogeneously and/or in layers. Additionally, the composite absorbent particle may include a core material. Preferred methods for creating the absorbent particles include a pan agglomeration process, a high shear agglomeration process, a low shear agglomeration process, a high pressure agglomeration process, a low pressure agglomeration process, a rotary drum agglomeration process, a mix muller process, a roll press compaction process, a pin mixer process, a batch tumble blending mixer process, an extrusion process, and a fluid bed process.Type: ApplicationFiled: December 30, 2015Publication date: April 28, 2016Applicant: THE CLOROX COMPANYInventors: Charles F. Fritter, Ananth N. Shenoy
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Patent number: 9283540Abstract: Composite particles and methods for making the same. An absorbent material is formed into a particle. An optional performance-enhancing active is coupled to the absorbent material before, during, or after the particle-forming process, homogeneously and/or in layers. Additionally, the composite absorbent particle may include a core material. Preferred methods for creating the absorbent particles include a pan agglomeration process, a high shear agglomeration process, a low shear agglomeration process, a high pressure agglomeration process, a low pressure agglomeration process, a rotary drum agglomeration process, a mix muller process, a roll press compaction process, a pin mixer process, a batch tumble blending mixer process, an extrusion process, and a fluid bed process.Type: GrantFiled: October 11, 2007Date of Patent: March 15, 2016Assignee: The Clorox CompanyInventors: Charles F. Fritter, Ananth N. Shenoy, Kevin P. Wallis, Sarah P. Blondeau, Ryan M. Ochylski, Dennis Jenkins
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Patent number: 9253961Abstract: Composite particles and methods for making the same. An absorbent material is formed into a particle. An optional performance-enhancing active is coupled to the absorbent material before, during, or after the particle-forming process, homogeneously and/or in layers. Additionally, the composite absorbent particle may include a core material. Preferred methods for creating the absorbent particles include a pan agglomeration process, a high shear agglomeration process, a low shear agglomeration process, a high pressure agglomeration process, a low pressure agglomeration process, a rotary drum agglomeration process, a mix muller process, a roll press compaction process, a pin mixer process, a batch tumble blending mixer process, an extrusion process, and a fluid bed process.Type: GrantFiled: February 4, 2013Date of Patent: February 9, 2016Assignee: The Clorox CompanyInventors: Charles F. Fritter, Ananth N. Shenoy
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Patent number: 7603964Abstract: Composites and methods for making the same. A mixture of clay material and a light-weighting material is formed into a composite particle. An optional performance-enhancing active is coupled to the composite particle material before, during, or after the particle-forming process, homogeneously and/or in layers. Preferred methods for creating the composites include a pan agglomeration process, a high shear agglomeration process, a low shear agglomeration process, a high pressure agglomeration process, a low pressure agglomeration process, a rotary drum agglomeration process, a mix muller process, a roll press compaction process, a pin mixer process, a batch tumble blending mixer process, an extrusion process, and a fluid bed process.Type: GrantFiled: April 29, 2005Date of Patent: October 20, 2009Assignee: The Clorox CompanyInventors: Dennis B. Jenkins, Charles F. Fritter, Ananth N. Shenoy
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Publication number: 20090007852Abstract: Composite particles and methods for making the same. An absorbent material is formed into a particle. An optional performance-enhancing active is coupled to the absorbent material before, during, or after the particle-forming process, homogeneously and/or in layers. Additionally, the composite absorbent particle may include a core material. Preferred methods for creating the absorbent particles include a pan agglomeration process, a high shear agglomeration process, a low shear agglomeration process, a high pressure agglomeration process, a low pressure agglomeration process, a rotary drum agglomeration process, a mix muller process, a roll press compaction process, a pin mixer process, a batch tumble blending mixer process, an extrusion process, and a fluid bed process.Type: ApplicationFiled: October 30, 2007Publication date: January 8, 2009Inventors: Charles F. Fritter, Ananth N. Shenoy, Kevin P. Wallis, Sarah P. Blondeau, Ryan M. Ochylski, Dennis Jenkins
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Publication number: 20080308045Abstract: Composite particles and methods for making the same. An absorbent material is formed into a particle. An optional performance-enhancing active is coupled to the absorbent material before, during, or after the particle-forming process, homogeneously and/or in layers. Additionally, the composite absorbent particle may include a core material. Preferred methods for creating the absorbent particles include a pan agglomeration process, a high shear agglomeration process, a low shear agglomeration process, a high pressure agglomeration process, a low pressure agglomeration process, a rotary drum agglomeration process, a mix muller process, a roll press compaction process, a pin mixer process, a batch tumble blending mixer process, an extrusion process, and a fluid bed process.Type: ApplicationFiled: October 11, 2007Publication date: December 18, 2008Inventors: Charles F. Fritter, Ananth N. Shenoy, Kevin P. Wallis, Sarah P. Blondeau, Ryan M. Ochylski, Dennis Jenkins
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Publication number: 20080184939Abstract: Composite particles and methods for making the same. An absorbent material is formed into a particle. An optional performance-enhancing active is coupled to the absorbent material before, during, or after the particle-forming process, homogeneously and/or in layers. Additionally, the composite absorbent particle may include a core material. Preferred methods for creating the absorbent particles include a pan agglomeration process, a high shear agglomeration process, a low shear agglomeration process, a high pressure agglomeration process, a low pressure agglomeration process, a rotary drum agglomeration process, a mix muller process, a roll press compaction process, a pin mixer process, a batch tumble blending mixer process, an extrusion process, and a fluid bed process.Type: ApplicationFiled: February 15, 2008Publication date: August 7, 2008Inventors: Charles Fritter, Ananth N. Shenoy
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Patent number: 7343874Abstract: A litter composition comprising a substantially particulate primary absorbent material and a binding agent, the binding agent comprising approximately 0.01%-40% of the litter composition. In one embodiment, the primary absorbent material comprises silica gel and the binding agent comprises a galactomannan. In additional embodiments, the litter composition also includes at least one of the following components: fixing agent, colorant agent, anti-bacterial agent, fragrance and/or supplemental absorbent material.Type: GrantFiled: August 7, 2002Date of Patent: March 18, 2008Assignee: The Clorox CompanyInventors: David DeLeeuw, Roger V. Lee, Charles F. Fritter, Dennis B. Jenkins, Ananth N. Shenoy, Ramesh Hernlem
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Publication number: 20040025798Abstract: A litter composition comprising a substantially particulate primary absorbent material and a binding agent, the binding agent comprising approximately 0.01%-40% of the litter composition. In one embodiment, the primary absorbent material comprises silica gel and the binding agent comprises a galactomannan. In additional embodiments, the litter composition also includes at least one of the following components: fixing agent, colorant agent, anti-bacterial agent, fragrance and/or supplemental absorbent material.Type: ApplicationFiled: August 7, 2002Publication date: February 12, 2004Inventors: Roger V. Lee, Charles F. Fritter, Dennis B. Jenkins, Ananth N. Shenoy, Ramesh Hernlem