Jon M Rueck

from Topeka, KS
Age ~82

Jon Rueck Phones & Addresses

  • Topeka, KS
  • Rio Rancho, NM
  • 617 Walnut St, Silver Lake, KS 66539
  • Houston, TX
  • Dallas, TX
  • Columbia, SC



Jon Rueck Photo 1

Chairman At Rueck Associates

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Chairman at Rueck Associates, Chairman at Rueck Associates
Topeka, Kansas Area
Environmental Services
Rueck Associates since Jun 1986

Rueck Associates - Silver Lake, KS since Oct 1985

National Council of Examiners for Engineers and Surveyors 1991 - 2013
Environmental Committee Member

Owens Corning Jun 1964 - Aug 1967
Plastics, Fibrous Glass Sales, Customer Service
Air Pollution Training Institute 1982 - 1982
EPA Performance Test Review Procedures, Air Pollution Control, Ambient Air Pollution Source Identification
Kansas State University 1958 - 1964
BS, Nuclear Engineering

Business Records

Name / Title
Company / Classification
Phones & Addresses
Jon P. Rueck
Owner, President
Rueck Associates
Environmental Services · Engineering Services Public Relations Services · Public Relations Services Engineering Services · Engineering Svcs
617 Walnut St, Silver Lake, KS 66539
815 Cascade Ct SE, Albuquerque, NM 87124
(785) 582-4787, (785) 582-4050


Us Patents

Process And Apparatus For Treatment Of Exhaust Gases From Glass Melting Furnaces

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US Patent:
42082013, Jun 17, 1980
Dec 15, 1976
Appl. No.:
Jon M. Rueck - Silver Lake KS
Owens-Corning Fiberglas Corporation - Toledo OH
International Classification:
C03C 100
B01D 4602
US Classification:
65 27
An improvement in the treatment of exhaust gases from glass melting furnaces is provided. Exhaust gases from such furnaces contain pollutants or contaminants in the form of condensibles which have been difficult to remove. To render these condensibles more easily removed and so that a higher percentage of them are separated from the exhaust gases, the exhaust gases are combined with other gases containing particles and specifically with gases containing inert batch dust from a source of glass batch. These gases contain relatively large particles which act as nuclei on which condensibles in the furnace exhaust gases can condense. The relatively large particles also serve as reaction sites on which reactable components in the furnace exhaust gases can chemically react to produce reaction products which condense more readily and are easier to collect. The larger particles and the additional condensation products from the combined gases can be more readily filtered out so that fewer pollutants or contaminants escape. The collected particles or dust can then be taken back to the batch source for subsequent use.
Jon M Rueck from Topeka, KS, age ~82 Get Report