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Edward Vineyard Phones & Addresses

  • 5631 Fountain Gate Rd, Knoxville, TN 37918 (865) 688-5226
  • 6901 Resolute Rd, Knoxville, TN 37918 (865) 689-5146
  • 5317 Brazelton Rd, Knoxville, TN 37918 (865) 688-5226
  • Knox, TN

Work

Position: Professional/Technical

Education

Degree: Associate degree or higher

Emails

e***d@aol.com

Resumes

Resumes

Edward Vineyard Photo 1

Program Manager

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Location:
Knoxville, TN
Industry:
Research
Work:
Oak Ridge National Laboratory
Program Manager
Skills:
Research
Program Manager
Vineyard
Edward Vineyard Photo 2

Owner

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Location:
Knoxville, TN
Industry:
Research
Work:
Vineyard Associates
Owner
Education:
University of Tennessee, Knoxville 1972 - 1978
Master of Science, Masters
University of Tennessee
Edward Vineyard Photo 3

Edward Vineyard

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Edward Vineyard Photo 4

Edward Vineyard

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Publications

Us Patents

Absorption Heat Pump System And Method Of Using The Same

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US Patent:
20120000221, Jan 5, 2012
Filed:
Jul 2, 2010
Appl. No.:
12/829940
Inventors:
Omar ABDELAZIZ - Knoxville TN, US
Edward Allan VINEYARD - Knoxville TN, US
Abdolreza ZALTASH - Knoxville TN, US
Kai WANG - Oak Ridge TN, US
International Classification:
F25B 15/00
F25B 37/00
F25B 15/06
US Classification:
62112, 62478, 62494
Abstract:
An absorption heat pump system that can include a first assembly, a second assembly, and a thermal coupler is disclosed herein. The first assembly can include a condenser and an evaporator. The second assembly can include an absorber, a desorber, and a heat exchanger. The thermal coupler can include a first gas inlet, a second fluid inlet, and a mixed fluid outlet. The system can be configured with a first gas outlet of the desorber in fluid communication with the first gas inlet of the thermal coupler, and the mixed fluid outlet of the thermal coupler in fluid communication with a mixed fluid inlet of the evaporator. The system can also include a coolant absorber inlet and outlet on the absorber and a coolant condenser inlet and outlet on the condenser, with the coolant absorber outlet in fluid communication with the coolant condenser inlet.

Method And Device For Controlling Heat Pump

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US Patent:
20180224176, Aug 9, 2018
Filed:
Jun 9, 2017
Appl. No.:
15/619010
Inventors:
- Oak Ridge TN, US
Edward Allan VINEYARD - Knoxville TN, US
Omar ABDELAZIZ - Knoxville TN, US
International Classification:
F25B 49/02
F25B 30/02
Abstract:
A method for controlling a heat pump is provided. A working mode of the heat pump is determined. Based on a determination that the working mode of the heat pump is a heating mode, an ambient temperature of the heat pump is determined. Based on a determination that the ambient temperature of the heat pump is higher than a first predetermined temperature, a first compressor of the heat pump is operated. Based on a determination that the ambient temperature of the heat pump is lower than the first predetermined temperature, both the first compressor and a second compressor of the heat pump are enabled to operate, in response to a two-stage thermostat. The first compressor and the second compressor are coupled in parallel. The method allows the heat pump to be suitable for a cold climate.

Dryer Using High Frequency Vibration

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US Patent:
20180142951, May 24, 2018
Filed:
Oct 30, 2017
Appl. No.:
15/798057
Inventors:
- Oak Ridge TN, US
Kyle R. Gluesenkamp - Knoxville TN, US
Edward Allan Vineyard - Knoxville TN, US
Roger A. Kisner - Knoxville TN, US
International Classification:
F26B 5/02
D06F 58/02
D06F 58/20
Abstract:
A dryer includes a plurality of piezoelectric transducers in electrical communication with a high frequency piezoelectric oscillation generator. The piezoelectric oscillation generator controls the duty cycle and resonant frequency source signal that drive the plurality of piezoelectric transducers non-continuously. The piezoelectric transducers dry the wet articles without heating air passing through the articles.

Near Isothermal Combined Compressed Gas/Pumped-Hydro Electricity Storage With Waste Heat Recovery Capabilities

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US Patent:
20170082123, Mar 23, 2017
Filed:
Sep 1, 2016
Appl. No.:
15/254137
Inventors:
- Oak Ridge TN, US
Kyle J. Gluesenkamp - Knoxville TN, US
Omar A. Abdelaziz - Knoxville TN, US
Edward A. Vineyard - Knoxville TN, US
Ahmed Abu-Heiba - Alexandria, EG
Adewale O. Odukomaiya - Powder Springs GA, US
International Classification:
F15B 21/14
F15B 1/26
F15B 11/08
F03B 1/02
Abstract:
Systems store energy mechanically at a first time and extract the energy at a later time. When excess electricity from renewable sources or during off-peak periods is available, a pump directs a working liquid (L) to pressurize a gas (G) that is confined within a pressure vessel. When electricity from renewable sources is not available or during periods of peak demand or pricing, the pressurized gas (G) directs the working liquid (L) through a hydropower turbine. The turbine drives a generator through a mechanical coupling to provide electricity for powering a load. In addition, the system can leverage (take) any waste heat as the input to boost the efficiency of the system. The described systems function at ground level and are modular and scalable in capacity.

Magnetocaloric Refrigeration Using Fully Solid State Working Medium

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US Patent:
20160146515, May 26, 2016
Filed:
Nov 24, 2015
Appl. No.:
14/951191
Inventors:
Ayyoub Mehdizadeh MOMEN - Knoxville TN, US
Omar Abdelaziz - Knoxville TN, US
Edward Allan Vineyard - Knoxville TN, US
International Classification:
F25B 21/00
F25B 41/00
Abstract:
A magnetocaloric cooling system comprising a solid body or bodies, such as a cylinder or cube, having a plurality of channels extending between a first end and a second end of the cylinder or cube and a magnet at least partially surrounding the cylinder or cube. A metallic mass, such as a rod or plate, is positioned within each channel and slides within a respective channel between two sliding extremities so that in each sliding extremity, a portion of each metallic mass extends beyond an end of the solid body. A motor is used for reciprocating the metallic masses between the sliding extremities and a heat exchange mechanism directs heating or cooling where desired.

High Entropy Nimn-Based Magnetic Refrigerant Materials

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US Patent:
20160025386, Jan 28, 2016
Filed:
Jul 23, 2015
Appl. No.:
14/807203
Inventors:
- Oak Ridge TN, US
Oleg M. Barabash - Escondido CA, US
Wallace D. Porter - Clinton TN, US
Edward A. Vineyard - Knoxville TN, US
Thomas R. Watkins - Knoxville TN, US
International Classification:
F25B 21/00
C22C 19/00
C22C 19/03
Abstract:
A magnetocaloric alloy composition consists essentially of 20-40 weight % Mn, 6-26 weight % In, 1-5 weight % Si, and 0.3-12 wt. % of at least one other element selected from the group consisting of: Ga, Ge, Ag, Gd, Co, Pd, Sm, V, and Sn, balance Ni.
Edward A Vineyard from Knoxville, TN, age ~70 Get Report