Dennis J. Werner
Engineering at Stalynn Ln, Houston, TX
License number
Louisiana PE.0019274
Issued Date
Mar 24, 1981
Expiration Date
Mar 31, 2017
Category
Civil Engineer
Type
Mechanical Engineer
Address
Address
25 Stalynn Ln, Houston, TX 77027
Professional information
President &Amp; Ceo
Position:
President & CEO at Wolverine Power Group
Location:
Houston, Texas Area
Industry:
Mechanical or Industrial Engineering
Work:
Wolverine Power Group
since Mar 2010
-
President & CEO
Yellowstone Power
Sep 2006 - Mar 2010
-
President & CEO
TriStar Turbine Technologies, Inc.
Jun 2001 - Sep 2006
-
President & CEO
Preco Turbine Services
Jul 1999 - Jun 2001
-
VP & GM
General Electric Co.
Jun 1974 - Jul 1999
-
Director Steam Turbine Repairs
Education:
Trinity University 1970 - 1974
BS, Engineering Science
BS, Engineering Science
Skills:
Engineering, Marketing Strategy, New Business Development, Business Strategy, Strategic Planning, Executive Management, Product Development, Entrepreneurship, Mergers & Acquisitions
Interests:
Golf, Tennis, Running
Honor & Awards:
Four Patents USA, one patent China
Strathmore's Who's Who in America
Patents pending USA & Turkey
System For Producing Power Using Low Pressure Gasification Of A Stock Fuel
US Patent:
2012013, Jun 7, 2012
Filed:
Dec 1, 2011
Appl. No.:
13/308765
Inventors:
Dennis John Werner - Houston TX, US
Thomas Edwin Hogan - Dallas TX, US
Thomas Edwin Hogan - Dallas TX, US
International Classification:
F02C 3/28
US Classification:
60781, 60 3912
Abstract:
A system for power generation using low pressure gasification of a stock fuel, such as coal or biomass. The system can include a gasifier, a gas clean up unit connected to a gas compressor, a gas turbine combustion system, a heat recovery steam generator, and a steam turbine. The gasifier can provide low pressure synthetic methane gas to the gas clean up unit, which can remove tars and sulfur from the synthetic methane gas, and can cool the synthetic methane gas. The gas compressor can receive the cooled synthetic methane gas and can compress the cooled synthetic methane gas. The gas turbine combustion system can receive the compressed synthetic methane gas and produce power and an exhaust gas. The heat recovery steam generator can receive the exhaust gas and generate steam. The steam turbine can receive the steam from the heat recovery steam generator and generate power.