Thomas Baxter Burton
Accountancy in Ogden, UT
License number
Utah 9828304-2601
Issued Date
Jun 13, 2016
Expiration Date
Sep 30, 2018
Category
Accountancy
Type
Certified Public Accountant
Address
Address
Ogden, UT
Education
WEBER STATE UNIVERSITY
WEBER STATE UNIVERSITY, Dec 9, 2011
Personal information
See more information about Thomas Baxter Burton at radaris.comName
Address
Phone
5252 N Grey Hawk Dr, Lehi, UT 84043
5610 N Highway 38, Brigham City, UT 84302
369 5Th Ave, Salt Lake City, UT 84103
Professional information
Installation Of Leakage Barriers To Enhance Yield Of Mineral Deposits In Unlined Solar Pond Systems
US Patent:
2013027, Oct 24, 2013
Filed:
Jun 20, 2013
Appl. No.:
13/922755
Inventors:
Thomas S. Burton - Ogden UT, US
Corey R. Milne - Ogden UT, US
Steven R. Day - Littleton CO, US
Corey R. Milne - Ogden UT, US
Steven R. Day - Littleton CO, US
International Classification:
E02B 7/02
US Classification:
405116
Abstract:
Slurry walls and methods of using those slurry walls to seal unlined solar ponds are provided. The slurry walls are formed from a mixture comprising clay and cement in water. A trench is keyed into the dike surrounding the solar pond, down to a geotechnically predetermined level. The slurry is deposited into the trench and allowed to harden, after which it is covered with a membrane or other covering. The inventive slurry walls reduce, and preferably prevent, leakage of water from the solar pond.
Installation Of Leakage Barriers To Enhance Yield Of Mineral Deposits In Unlined Solar Pond Systems
US Patent:
2012007, Mar 22, 2012
Filed:
Sep 22, 2011
Appl. No.:
13/240597
Inventors:
Mark Reynolds - Clinton UT, US
Thomas S. Burton - Ogden UT, US
Corey R. Milne - Ogden UT, US
Steven R. Day - Littleton CO, US
Thomas S. Burton - Ogden UT, US
Corey R. Milne - Ogden UT, US
Steven R. Day - Littleton CO, US
Assignee:
GREAT SALT LAKE MINERALS CORPORATION - Overland Park KS
International Classification:
E02B 7/02, C04B 28/04, C04B 28/08, C04B 14/00
US Classification:
405116, 106811, 106718, 106790
Abstract:
Slurry walls and methods of using those slurry walls to seal unlined solar ponds are provided. The slurry walls are formed from a mixture comprising clay and cement in water. A trench is keyed into the dike surrounding the solar pond, down to a geotechnically predetermined level. The slurry is deposited into the trench and allowed to harden, after which it is covered with a membrane or other covering. The inventive slurry walls reduce, and preferably prevent, leakage of water from the solar pond.