William C. Pfefferle Explained

William C. Pfefferle
Birth Date:April 24, 1923
Birth Place:Philadelphia, Pennsylvania
Death Place:New Haven
Fields:Chemical engineering
Alma Mater:Drexel University
Known For:catalytic combustion, "Magnaforming"
Awards:ASME Gas Turbine Award
ACS Industrial Innovation Award
Spouse:Eleanor

William C. Pfefferle (April 24, 1923 – December 28, 2010) was an American scientist and inventor.[1] [2]

Biography

Pfefferle studied chemical engineering at Drexel University. He took a doctorate in physical chemistry at the University of Pennsylvania.

From 1952 to 1956, he worked at Standard Oil of Indiana (now part of BP).

In 1956 he moved to Engelhard Industries,[3] Iselin, NJ. While at Engelhard he invented "Magnaforming", a technique that now creates a large amount of the world's gasoline. He pioneered "permeation mediated catalysis" and developed phosphoric acid fuel cells.

Nicknamed the "father of catalytic combustion",[4] Pfefferle invented the original catalytic combustor for gas turbine engines in the early 1970s. Gas turbines work by mixing fuel with compressed and heated air, which burns and generates energy to turn the turbines. Unfortunately, nitrogen oxide gases, which contribute to global warming, are emitted during this process. Pfefferle developed a process using a catalyst to allow combustion while forming minimal amounts of nitrogen oxides and carbon monoxide.[5]

In 1977, Pfefferle founded William C. Pfefferle Associates, which he continued until 1986. He worked on several projects included a heavy oil burning downhole steam system for Dresser Industries.

In 1986, Pfefferle co-founded Precision Combustion[6] in North Haven, Connecticut. Pfefferle helped to develop clean and efficient catalytic combustion technologies for combustion engines. He also invented the "Microlith" catalytic reactor for automobiles and fuel processing, and the RCL catalytic combustor for ground-power gas turbine machines.

Pfefferle received the American Society of Mechanical Engineers (ASME) Gas Turbine Award in 2003.[7] Also in 2003, he received the American Chemical Society's (ACS) Industrial Innovation Award. He was survived by his wife Eleanor, whom he married in 1950.[2] [4]

Honors and accolades

U.S. patents held

Pfefferle held over 100 patents[1] including on two major processes, namely catalytic combustion and magnaforming:

Pfefferle also held numerous other patents concerning the catalytic method, combustion and related topics.[8]

Published work

External links

Notes and References

  1. http://www.legacy.com/obituaries/nhregister/obituary.aspx?page=lifestory&pid=147469205#fbLoggedOut New Haven Register
  2. http://www.legacy.com/obituaries/nytimes/obituary.aspx?n=william-c-pfefferle&pid=147513373#fbLoggedOut New York Times: William C. Pfefferle Jr. Obituary
  3. http://www.engelhard.com/Lang1 Engelhard Industries
  4. Worthy, Sharon. Bio-Medicine: Connecticut chemist receives award for cleaner air technology. 23 June 2003. Retrieved 31 October 2012.
  5. Robert N. Carter, Lance L. Smith, Hasan Karim, Marco Castaldi, Shah Etemad, George Muench, R. Samuel Boorse, Paul Menacherry and William C. Pfefferle (1998). Catalytic Combustion Technology Development for Gas Turbine Engine Applications. MRS Proceedings, 549, 93 doi:10.1557/PROC-549-93
  6. http://www.precision-combustion.com Precision Combustion, Inc
  7. http://www.asme.org/about-asme/honors-awards/literature-awards/gas-turbine-award ASME: Gas Turbine Award
    • 5,636,511 - Gas Turbine Torch Assembly
    • 5,634,784 - Catalytic Method
    • 5,601,426 - Catalytic Method
    • 5,593,299 - Catalytic Method
    • 5,531,066 - Fuel Injector and Ignitor Assembly
    • 5,466,651 - Catalytic Method
    • 5,453,003 - Catalytic Method
    • 5,440,872 - Catalytic Method
    • 5,437,152 - Catalytic Method
    • 5,421,154 - Exhaust Temperature Control
    • 5,417,933 - Catalytic Method
    • 5,376,345 - Catalytic Method and Apparatus
    • 5,342,591 - Microlith Catalyst Reaction System
    • 5,234,882 - Catalyst Coating Method
    • 5,146,881 - Catalytic Glow Plug
    • 5,051,241 - Microlith Catalytic Reaction System
    • 4,918,915 - Method for Clean Incineration of Wastes
    • 4,905,658 - Catalytic Valve for I.C. Engines
    • 4,896,636 - Catalytic Glow Plug
    • 4,864,811 - Method for Destroying Hazardous Organics
    • 4,819,595 - Method of Operating Catalytic Ignition Cyclic Engines
    • 4,811,707 - Method of Operating Catalytic Ignition Cyclic Engines
    • 4,773,368 - Method of Operating Catalytic Ignition Cyclic Engines
    • 4,646,707 - Method of Operating Catalytic Ignition Cyclic Engines
    • 4,603,547 - Catalytic Relight Coating for Gas Turbine
    • 4,439,136 - Thermal Shock Resistant Spherical Plate Structures
    • 4,407,785 - Minimizing Catalytic Activity Variations in Catalytic Gas Phase Reactions
    • 4,402,662 - Shock Resistant Catalysts
    • 4,384,843 - Combustion Method, Apparatus with Catalytic Tubes
    • 4,341,662 - Method of Catalytically Coating Low Porosity Ceramics
    • 4,337,028 - Catalyst Monolith
    • 4,295,818 - Catalytic Monolith and Method of Its Formulation
    • 4,287,090 - Method and Composition of Treating Flue Deposits
    • 4,276,203 - Catalytic System and Process for Producing It
    • 4,239,499 - Production of Synthetic Natural Gas (SNG) from Methanol
    • 4,094,142 - Turbine System Method and Apparatus
    • 4,073,716 - Process for Producing SNG and High Octane Motor Fuel
    • 4,065,917 - Method of Starting Combustion System Utilizing Catalyst
    • 4,019,316 - Method of Starting Combustion System Utilizing Catalyst
    • 4,011,839 - Low NOx Internal Combustion Engine
    • 3,982,879 - Low NOx Catalytic Furnace
    • 3,975,900 - Gas Turbine Catalytic Combustor Temperature Control
    • 3,940,923 - Reheat Gas Turbine Engine
    • 3,923,011 - Low NOx Internal Combustion Engine
    • 3,914,090 - Low NOx Catalytic Furnace
    • 3,875,047 - Pt Re Reforming Process
    • 3,846,979 - Two Stage Combustion Process
    • 3,705,095 - Use of Pt Re Catalysts in Magnaforming Process
    • 3,705,094 - Use of Pt Re Catalysts in Magnaforming Process
    • 3,679,578 - Platinum Rhenium Paraffinic Naphtha Reforming Process
    • 3,676,329 - Use of Pt Re Catalysts in Reforming Process
    • 3,676,328 - Use of Pt Re Catalysts in Reforming Process
    • 3,658,691 - Serial Reforming: Pt Re on Acidic and Non Acidic Base
    • 3,646,236 - Disproportionation of Toluene
    • 3,620.962 - Low Pressure Hydrocracking Process
    • 3,595,805 - Steam Reforming with Preliminary Hydrodesulfurization
    • 3,567,624 - Hydroforming with Preliminary Desulfurization
    • 3,481,722 - Process for Producing Hydrogen
    • 3,375,191 - Hydrocracking without Net Hydrogen Consumption
    • 3,344,586 - Gas Separation Apparatus
    • 3,290,406 - Process for Dehydrogenation
    • 3,278,268 - Method for Hydrogen Production
    • 3,264,207 - Controlling Hydrogen Partial Pressure in Reforming
    • 3,251,652 - Process for Producing Hydrogen
    • 3,241,293 - Diffusion Purification of Gases
    • 3,198,604 - Hydrogen Generating System
    • 3,144,313 - Diffusion Purification of Gases
    • 3,138,948 - Hydrogen Measuring System
    • 3,087,112 - Trace Gas Analyzer
    • 2,989,574 - Inhibition of Polymer Formation in Alkylation