Ted Charles Lewis
Funeral Home and Crematory in Miner, MO

License number
Utah 143951-0903
Issued Date
Oct 25, 1982
Expiration Date
Dec 31, 1983
Category
Funeral Service
Type
Funeral Service Intern
Address
Address
Miner, MO

Professional information

Ted C Lewis Photo 1

Dr. Ted C Lewis, Sikeston MO - DMD (Doctor of Dental Medicine)

Specialties:
Dentistry
Address:
1250 N Main St, Sikeston 63801
(573) 472-2483 (Phone)
Languages:
English
Background:
Sanction:  1 time(s)


Ted Charles Lewis Photo 2

Ted Charles Lewis, Sikeston MO

Specialties:
Dentist
Address:
1250 N Main St, Sikeston, MO 63801


Ted Lewis Photo 3

Process For Making High Grade Protein Product

US Patent:
2009023, Sep 24, 2009
Filed:
Mar 20, 2009
Appl. No.:
12/383157
Inventors:
Ted C. Lewis - Sikeston MO, US
International Classification:
A23K 1/06, A23K 1/18, A23K 1/16
US Classification:
426 20, 426 31, 426 19
Abstract:
A process for making a high grade protein product, such as a mammalian feed product, using residue slurry from a cellulose fermentation and distillation process is provided. The residue slurry is compressed to remove much of the residual liquid. The compressed slurry is shaped, dried, leavened and granulated to provide the high grade protein product. Nutrients, flavorants, texturizers and other food product-enhancing ingredients may be added during the process. The granules of animal feed product can be packaged and stored in an inert or other stable environment for extended storage periods.


Ted Lewis Photo 4

Self-Contained, High Efficiency Cellulose Biomass Processing Plant

US Patent:
2011006, Mar 10, 2011
Filed:
Nov 16, 2010
Appl. No.:
12/947525
Inventors:
TED C. LEWIS - SIKESTON MO, US
International Classification:
C07K 1/14, B01J 19/10, B01J 19/12
US Classification:
530412, 422649, 422128, 4221863, 42218601, 422187
Abstract:
A self-contained, high efficiency cellulose biomass processing plant includes sources of quantum-based wave energy to facilitate the dilute acid hydrolysis of hemi-cellulose and alpha-cellulose bond. The sources of quantum-based wave energy supply one or more of, and suitably a combination of ultrasonic waves, ultraviolet waves, magnetic waves and direct current to facilitate fracture of the intermolecular bonds. An integrated plant is also provided which combines the cellulose biomass processing plant with apparatus for converting high protein residue into a finished high grade protein product. Due to the high efficiency resulting from use of quantum-based wave energy, the plant uses less energy, and can be small and portable.