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Leonard Lyman, 35Riverton, UT

Known as:
Linda Lyman
Related to:
Kyle Lyndon Lyman 68 Janet L Lyman 69 Cameron J Paul 39

Leonard Lyman Phones & Addresses

South Jordan, UT   

Reynoldsburg, OH   

Social networks

Leonard Lyman

Linkedin

Work

Company: Cabela's Nov 2018 Position: Marine lead

Education

School / High School: University of Utah 1979 to 1983

Skills

Water Treatment • Water • Customer Service • Sales • Environmental Awareness • Water Quality • Environmental Compliance • Wastewater Treatment • Chemistry • New Business Development • Product Development • Hydraulics • Sales Management • Operations Management • Process Simulation • Environmental Engineering • Management • Mining • Microsoft Excel • Inventory Management • Microsoft Office • Chemicals • Environmental • Customer Relations • Waste Water Treatment • Contract Negotiation • Manufacturing

Languages

English

Industries

Retail
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Leonard Lyman resumes & CV records

Resumes

Leonard Lyman Photo 20

President

Location:
2363 Jordan Haven Ct, South Jordan, UT 84095
Industry:
Retail
Work:
Cabela's
Marine Lead Tc Sales
Sales Representative Cabela's
Marine Sales Cabela's Aug 2010 - Jun 2011
Customer Service Cabela's Jan 2008 - Aug 2010
Greeter and Fire Arms Inspector Del Technologies Jan 2008 - Aug 2010
President Enchem 1990 - 1998
Sales and Project Management
Education:
University of Utah 1979 - 1983
Salt Lake Community College
Skills:
Water Treatment, Water, Customer Service, Sales, Environmental Awareness, Water Quality, Environmental Compliance, Wastewater Treatment, Chemistry, New Business Development, Product Development, Hydraulics, Sales Management, Operations Management, Process Simulation, Environmental Engineering, Management, Mining, Microsoft Excel, Inventory Management, Microsoft Office, Chemicals, Environmental, Customer Relations, Waste Water Treatment, Contract Negotiation, Manufacturing
Languages:
English

Publications & IP owners

Us Patents

Wastewater Treatment Process And Apparatus For High Flow Silica Removal

US Patent:
5904853, May 18, 1999
Filed:
Oct 24, 1997
Appl. No.:
8/957049
Inventors:
Stephen D. Allen - Holladay UT
Leonard Rees Lyman - South Jordan UT
Assignee:
Microbar Incorporated - Sunnyvale CA
International Classification:
C02F1/44;1/56
US Classification:
210638
Abstract:
A process and system for removing heavy metals, fluoride, silica and other contaminants from large volumes of wastewater is disclosed. In the process, a wastewater stream containing the contaminant is treated with a chemical coagulant to create a particle having a diameter greater than 5 microns. Treated wastewater is passed through a microfiltration membrane which physically separates the metal contaminant particle from the wastewater. Commercially available microfiltration membranes having a pore size from 0. 5 micron to 5 microns may be used. The treated wastewater flow rate through the microfiltration membranes can range from 700 gallons per square foot of membrane per day ("GFD") to 1500 GFD. Solids are removed from the membrane surface by periodically backflushing the microfiltration membranes and draining the filtration vessel within which the membranes are located. The dislodged solid material within the filtration vessel is flushed into a holding tank for further processing of the solids.

Wastewater Treatment Process And Apparatus For High Flow Fluoride Removal

US Patent:
5910251, Jun 8, 1999
Filed:
Oct 24, 1997
Appl. No.:
8/957053
Inventors:
Stephen D. Allen - Holladay UT
Leonard Rees Lyman - South Jordan UT
Assignee:
Microbar Incorporated - Sunnyvale CA
International Classification:
C02F 144
C02F 156
US Classification:
210638
Abstract:
A process and system for removing heavy metals, fluoride, silica and other contaminants from large volumes of wastewater is disclosed. In the process, a wastewater stream containing the contaminant is treated with a chemical coagulant to create a particle having a diameter greater than 5 microns. Treated wastewater is passed through a microfiltration membrane which physically separates the metal contaminant particle from the wastewater. Commercially available microfiltration membranes having a pore size from 0. 5 micron to 5 microns may be used. The treated wastewater flow rate through the microfiltration membranes can range from 700 gallons per square foot of membrane per day ("GFD") to 1500 GFD. Solids are removed from the membrane surface by periodically backflushing the microfiltration membranes and draining the filtration vessel within which the membranes are located. The dislodged solid material within the filtration vessel is flushed into a holding tank for further processing of the solids.

Process For Removing Silica From Wastewater

US Patent:
5965027, Oct 12, 1999
Filed:
Nov 6, 1997
Appl. No.:
8/965574
Inventors:
Stephen D. Allen - Holladay UT
Leonard R. Lyman - South Jordan UT
Assignee:
Microbar Incorporated - Sunnyvale CA
International Classification:
C02F 144
C02F 156
US Classification:
210638
Abstract:
A process and system for removing silica from large volumes of wastewater is disclosed. In the process, a wastewater stream containing silica is treated with a chemical coagulant, such as a epichlorohydrin/dimethylamine polymer, to create spherical particles which agglomerate into clusters having a diameter greater than 5 microns. Treated wastewater is passed through a microfiltration membrane which physically separates the silica contaminant particle from the wastewater. Commercially available microfiltration membranes having a pore size from 0. 5 micron to 5 microns may be used. The treated wastewater flow rate through the microfiltration membranes can range from 150 gallons per square foot of membrane per day ("GFD") to 600 GFD. Solids are removed from the membrane surface by periodically backflushing the microfiltration membranes and draining solids at timed intervals from the filtration vessel within which the membranes are located. The dislodged solid material within the filtration vessel is flushed into a holding tank for further processing of the solids.

Wastewater Treatment Process And Apparatus For High Flow Impurity Removal

US Patent:
5871648, Feb 16, 1999
Filed:
Nov 26, 1996
Appl. No.:
8/756681
Inventors:
Stephen D. Allen - Holladay UT
Leonard Rees Lyman - South Jordan UT
Assignee:
Environmental Chemistries, Inc. - Salt Lake City UT
International Classification:
C02F 144
C02F 156
US Classification:
210638
Abstract:
A process and system for removing heavy metals, fluoride, silica and other contaminants from large volumes of wastewater is disclosed. In the process, a wastewater stream containing the contaminant is treated with a chemical coagulant to create a particle having a diameter greater than 5 microns. Treated wastewater is passed through a microfiltration membrane which physically separates the metal contaminant particle from the wastewater. Commercially available microfiltration membranes having a pore size from 0. 5 micron to 5 microns may be used. The treated wastewater flow rate through the microfiltration membranes can range from 700 gallons per square foot of membrane per day ("GFD") to 1500 GFD. Solids are removed from the membrane surface by periodically backflushing the microfiltration membranes and draining the filtration vessel within which the membranes are located. The dislodged solid material within the filtration vessel is flushed into a holding tank for further processing of the solids.

Possible Relatives

David P Lyman  Dean E Lyman  Deanna L Lyman  Dale P Lyman  Deborah W Lyman  Danette L Lyman  Aaron T Lyman  Leonard Johnson  Leonard R Stancil  Leonard G Johnston 

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