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Harry R Diz

from Saint Simons Island, GA
Age ~77
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Also known as:
Harry Childens Diz, Harry Childens Tele Diz, Harry Childrens Tel Diz
Related to:
Jodie S Diz, 54Gay W Diz, 72Nicole P Diz, 49David P Diz, 44Suzanne DizMichael A Diz, 47Richard B Diz, 50
Connected to:
Alicia Diz, 71Enrique Diz, 53Fernando Diz, 67Victor R Diz, 61Merlee M Diza, 33Michael A Diza, 58Leette Dizaar, 51Tammy D Dizaar, 54Derrill R Dizard, 71Mireille C Dizard, 43

Harry Diz Phones & Addresses

  • Saint Simons Island, GA
  • 9820 Old Waterford Rd, Erie, PA 16509
  • 530 Shawnee Dr, Erie, PA 16505 (814) 455-6851
  • 2709 Chelsea Ct, Blacksburg, VA 24060 (540) 951-1350
  • Petersburg, VA
  • Midlothian, VA

Professional Records

License Records

Harry Richard Diz

Address:
Erie, PA 16509
License #:
PE073875 - Expired
Category:
Engineers
Type:
Professional Engineer

Business Records

Name / Title
Company / Classification
Phones & Addresses
Harry R. Diz
Principal
Biofuel Engineering Science Ltd
Engineering Services
530 Shawnee Dr, Erie, PA 16505

Publications

Us Patents

Dual Method Of Hydrogen Production

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US Patent:
20060272955, Dec 7, 2006
Filed:
May 31, 2006
Appl. No.:
11/443804
Inventors:
Mitchell Felder - Hermitage PA, US
Justin Felder - Hermitage PA, US
Harry Diz - Erie PA, US
International Classification:
C25B 1/02
US Classification:
205637000
Abstract:
The present invention provides a dual method of hydrogen production, wherein organic feed material is heated with excess or diverted heat from a secondary hydrogen production method, thereby substantially deactivating or killing methanogens within the organic feed material. Hydrogen producing microorganisms contained or added to the organic feed material metabolize the organic feed material in a bioreactor to produce hydrogen in a primary hydrogen production method. As the methanogens are no longer substantially present to convert produced hydrogen to methane, a biogas that contains hydrogen without substantial methane can be produced.

Dual Hydrogen Production Apparatus

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US Patent:
20060272956, Dec 7, 2006
Filed:
May 31, 2006
Appl. No.:
11/443889
Inventors:
Mitchell Felder - Hermitage PA, US
Justin Felder - Hermitage PA, US
Harry Diz - Erie PA, US
International Classification:
C25B 1/02
US Classification:
205637000
Abstract:
The present invention provides an apparatus for the dual production of hydrogen, wherein organic feed material of a primary hydrogen production apparatus is heated with excess or diverted heat from a secondary hydrogen production apparatus, thereby substantially deactivating or killing methanogens within the organic feed material. Hydrogen producing microorganisms contained or added to the organic feed material metabolize the organic feed material in a bioreactor to produce hydrogen in a primary hydrogen production apparatus. As the methanogens are no longer substantially present to convert produced hydrogen to methane, a biogas that contains hydrogen without substantial methane can be produced.

Method Of Hydrogen Production Utilizing Excess Heat From An Industrial Facility

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US Patent:
20060275206, Dec 7, 2006
Filed:
May 31, 2006
Appl. No.:
11/443810
Inventors:
Mitchell Felder - Hermitage PA, US
Justin Felder - Hermitage PA, US
Harry Diz - Erie PA, US
International Classification:
C01B 3/02
US Classification:
423648100
Abstract:
The present invention provides a method of hydrogen production, wherein organic feed material is heated with excess or diverted heat from an industrial facility, thereby substantially deactivating or killing methanogens within the organic feed material. Hydrogen producing bacteria contained or added to the organic feed material metabolize the organic feed material in a bioreactor to produce hydrogen. As the methanogens are no longer substantially present to convert produced hydrogen to methane, a biogas that contains hydrogen without substantial methane can be produced.

Hydrogen Producing Apparatus Utilizing Excess Heat From An Industrial Facility

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US Patent:
20060275894, Dec 7, 2006
Filed:
May 31, 2006
Appl. No.:
11/444027
Inventors:
Mitchell Felder - Hermitage PA, US
Justin Felder - Hermitage PA, US
Harry Diz - Erie PA, US
International Classification:
C12M 3/00
US Classification:
435289100
Abstract:
The present invention provides a hydrogen production apparatus, where a bioreactor is combined with an industrial facility such that the industrial facility heats an organic feed material prior to conveyance of the organic feed material into the bioreactor. The apparatus includes a bioreactor, a feed container, a heating means such as a heat exchanger and an industrial facility with a heat waste source.

Method For Isolating Potential Antibiotic Microorganisms

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US Patent:
20060281141, Dec 14, 2006
Filed:
Jun 9, 2006
Appl. No.:
11/450058
Inventors:
Michell Felder - Hermitage PA, US
Harry Diz - Erie PA, US
Justin Felder - Hermitage PA, US
International Classification:
C12Q 1/18
US Classification:
435032000
Abstract:
The present invention provides a method identifying nonparaffinophilic microorganisms suitable for antibiotic screening. The method provides the growing of nonparaffinophilic microorganisms on substrates in a bioreactor, wherein the bioreactor provides an environment conducive to the metabolism of many nonparaffinophilic microorganisms while being restrictive to methanogens and methane production. The method may further include substrates coated with a gelatinous matrix, wherein the gelatinous matrix coating baits the nonparaffinophilic microorganisms.

Method For Utilizing Nonparaffinophilic Microorganisms For Producing Specific Waste Degradation

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US Patent:
20060281144, Dec 14, 2006
Filed:
Jun 9, 2006
Appl. No.:
11/450560
Inventors:
Mitchell Felder - Hermitage PA, US
Harry Diz - Erie PA, US
Justin Felder - Hermitage PA, US
International Classification:
C12Q 1/04
US Classification:
435034000
Abstract:
The present invention provides a method identifying nonparaffinophilic microorganisms suitable for biodegradation or bioremediation that do not substantially produce methane. The method provides the growing of nonparaffinophilic microorganisms on substrates in a bioreactor, wherein the bioreactor provides an environment conducive to the metabolism of many nonparaffinophilic microorganisms while being restrictive to methanogens and methane production. The method may further include substrates coated with a gelatinous matrix, wherein the gelatinous matrix coating baits the nonparaffinophilic microorganisms.

Production Of Hydrogen Gas And Isolation Of Hydrogen Producing Microorganisms Using Replenishing Coated Substrates

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US Patent:
20060281158, Dec 14, 2006
Filed:
Jun 9, 2006
Appl. No.:
11/449895
Inventors:
Justin Felder - Hermitage PA, US
Mitchell Felder - Hermitage PA, US
Harry Diz - Erie PA, US
International Classification:
C12P 3/00
C12M 1/34
US Classification:
435168000, 435287500
Abstract:
The present invention provides a system of baiting and growing microorganisms on a gelatinous matrix. A bioreactor is provided wherein the bioreactor provides an environment conducive to the breakdown of organic aqueous material and the production of hydrogen from microorganisms and restrictive to the production of methane from methanogens. The bioreactor includes substrates coated with a gelatinous matrix, wherein the gelatinous matrix coating is replenished by additional coating material pumped into interior channels of the substrates wherein the substrates are permeable by the coating.

Method For Sustained Microbial Production Of Hydrogen Gas In A Bioreactor

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US Patent:
20060281159, Dec 14, 2006
Filed:
Jun 9, 2006
Appl. No.:
11/450011
Inventors:
Harry Diz - Erie PA, US
Mitchell Felder - Hermitage PA, US
Justin Felder - Hermitage PA, US
International Classification:
C12P 3/00
US Classification:
435168000
Abstract:
The present invention provides a method of hydrogen production from hydrogen producing microorganisms, wherein a bioreactor provides an environment conducive to the production of hydrogen from hydrogen producing microorganisms and restrictive to the production of methane from methanogens. The hydrogen producing microorganisms metabolize an organic feed material substrate, wherein the organic feed material is preferably maintained between about 3.5 and 6.0 pH while contained within the bioreactor. The organic feed material is further heated prior to entry into the bioreactor, to substantially deactivate or kill methanogens.
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Harry R Diz from Saint Simons Island, GA, age ~77 Get Report