DUANE ALLAN GRUBER
Dentist in Greenville, PA

License number
Pennsylvania DS025956L
Category
Dentistry
Type
Dentist
Address
Address
Greenville, PA 16125

Professional information

Duane A Gruber Photo 1

Dr. Duane A Gruber, Greenville PA - DDS (Doctor of Dental Surgery)

Specialties:
Dentistry
Address:
Duane A. Gruber, D.D.S.
37 Hadley Rd STE A, Greenville 16125
(724) 588-9520 (Phone), (724) 589-5486 (Fax)
Procedures:
Composite (Tooth-Colored) Dental Fillings, Dental Bonding, Dental Bridges, Dental Crowns, Dental Implants, Dental Implants (Restoration), Dental Inlays, Dental Onlays, denture repair, Dentures (Upper and Lower), Impacted Wisdom Teeth, Non-Impacted Wisdom Teeth, Non-Surgical Gum Treatment, partial dentures, Porcelain Dental Veneers, Root Canal Therapy, Root Planing, Scaling, Simple Tooth Extractions, Teeth Whitening, Ultrasonic Dental Cleaning, Wisdom Tooth Extraction
Languages:
English
Education:
Medical School
Graduates Of Institutions Not Listed As Medical Schools
University Of Oklahoma
Graduated: 1989
Grove City University


Duane Allan Gruber Photo 2

Duane Allan Gruber, Greenville PA

Specialties:
Dentist
Address:
37A Hadley Rd, Greenville, PA 16125


Duane Gruber Photo 3

Chilled Water Storage For Milk Cooling Process

US Patent:
2003022, Dec 4, 2003
Filed:
May 29, 2003
Appl. No.:
10/446821
Inventors:
Duane Gruber - Greenville PA, US
Michael Gruber - Greenville PA, US
International Classification:
A01J003/00, A01J005/00
US Classification:
119/014090
Abstract:
A process for cooling liquids wherein a coolant is cooled in a chiller during off-peak electrical demand periods, then directed to a first insulated storage vessel where it is stored until off-peak electrical demand periods have ended. During peak electrical demand periods, the coolant flows from the first insulated storage vessel to a flat plate heat exchanger, where a flow of liquid to be cooled, entering through a second conduit, is cooled. The cooled liquid exiting the heat exchanger is directed to a second insulated storage vessel where little or no further cooling of the liquid will be necessary during peak electrical demand periods.


Duane Gruber Photo 4

Chilled Water Storage For Milk Cooling Process

US Patent:
7356997, Apr 15, 2008
Filed:
Mar 31, 2005
Appl. No.:
11/094537
Inventors:
Duane A. Gruber - Greenville PA, US
Michael E. Gruber - Greenville PA, US
International Classification:
G05D 23/32, F25D 17/02
US Classification:
62157, 62185, 62201, 62434
Abstract:
The chilled water storage for milk cooling process encompasses methods for chilling liquids during off peak hours for later consumption, including a method for cooling the interior of a building while conserving energy during peak demand hours, in which water is chilled in a water chiller during the off-peak electrical demand hours, then stored in an insulated tank until peak electrical demand hours. The stored cold water is then pumped through a heat exchanger connected to the ventilation system in the building to cool the air in the building. The water then passes into a second storage tank, where it is held until off-peak hours. A plurality of multi-directional valves automatically control the water flow through the system.


Duane Gruber Photo 5

Chilled Water Storage For Milk Cooling Process

US Patent:
7222492, May 29, 2007
Filed:
Dec 16, 2004
Appl. No.:
11/012320
Inventors:
Duane A. Gruber - Greenville PA, US
Michael E. Gruber - Greenville PA, US
International Classification:
F25D 17/02, A01J 5/00
US Classification:
62 99, 62201, 62396, 119 1409
Abstract:
A process for cooling liquids wherein a coolant is cooled in a chiller during off-peak electrical demand periods, then directed to a first insulated storage vessel where it is stored until off-peak electrical demand periods have ended. During peak electrical demand periods, the coolant flows from the first insulated storage vessel to a flat plate heat exchanger, where a flow of liquid to be cooled, entering through a second conduit, is cooled. The cooled liquid exiting the heat exchanger is directed to a second insulated storage vessel where little or no further cooling of the liquid will be necessary during peak electrical demand periods.