BENNETTE DAY BURKS
Engineers in Richmond, VA
License number
Virginia 0402038597
Issued Date
Jul 8, 2003
Expiration Date
Jul 31, 2017
Category
Professional Engineer License
Type
Professional Engineer
Address
Address
Richmond, VA
Personal information
See more information about BENNETTE DAY BURKS at radaris.comName
Address
Phone
1605 Hanover Ave, Richmond, VA 23220
Professional information
Principal, 3-Engineering, Llc
Position:
Principal at 3-Engineering, LLC
Location:
Richmond, Virginia Area
Industry:
Civil Engineering
Work:
3-Engineering, LLC
since Jul 2006
-
Principal
Consolidated Treatment Systems, Inc.
Jul 2000 - Jul 2006
-
Director of Engineering
Wisconsin Division of Safety and Buildings
Jan 1989 - Jul 2000
-
Bureau Director
Education:
University of Arkansas at Fayetteville 1982 - 1988
MSCE/BSCE, Civil Engineering University of New Orleans
BA, Psychology University of Wisconsin-Madison
MSCE/BSCE, Civil Engineering University of New Orleans
BA, Psychology University of Wisconsin-Madison
Skills:
Wastewater Treatment, Land Development, Water, Civil Engineering, Environmental Awareness, Municipalities, Hydrology, Soil, Stormwater Management, Environmental Compliance, Zoning
Interests:
Board Member, Fan District Association
Chair, Zoning Committee, Fan District Association
Board Member, Historic Monument Avenue and Fan District Foundation, Inc.
Honor & Awards:
Tau Beta Pi
Chi Epsilon
Aerobic Wastewater Treatment System
US Patent:
2005025, Nov 24, 2005
Filed:
May 21, 2004
Appl. No.:
10/850982
Inventors:
Bennette Burks - Richmond VA, US
International Classification:
C02F003/06
US Classification:
210150000, 210258000, 210257100
Abstract:
A wastewater treatment system integrates three tanks that oxidize organic compounds, retain solids, reduce nutrients, an inactivate pathogens, discharging an effluent that protects public health and the environment. The system homogenizes wastewater and controls its frequency, interval, volume, and rate of dosing into a treatment tank designed to develop, facilitate, optimize, and maintain dense microbial colonies both suspended in liquid and attached to engineered filter media. These colonies and filter media complete the oxidation, retention, reduction, and inactivation.