Courses taught at NC A&T State University (2018-now):
CAEE 362 - Fluid Mechanics and Hydraulics (Sophomore/Junior)
This the first level engineering fluid mechanics course which also integrates fundamental hydraulics concepts and applications pertinent to Civil and Architectural Engineering. Topics include properties of fluids, hydrostatic pressure and manometry, forces on submerged surfaces, Pascal's Law, Archimedes' Principles, the Bernoulli and energy equation for steady state flow, Reynolds transport theorem, energy and hydraulic grade lines, head loss calculations, momentum principle, flow and velocity measurement, pumps, branched and looped pipe systems and analysis of open channel flow, sub and dimension analysis.
CIEN 310- Introduction to Environmental Engineering (Junior)
This course provides an introduction to environmental pollution. Topics include physical, chemical and biological water quality parameters, water purification processes in natural systems, air pollution and solid waste management, and general design of waste control systems.
CIEN 412- Environmental Engineering Design (Senior)
This course defines the analysis and design of water and wastewater treatment systems. Topics included in the course are analysis and functional design of physical, chemical and biological treatment processes, sludge treatment processes and municipal solid waste management design.
CIEN 616- Solid Waste Management (G)
This course emphasizes the study of the collection, storage, transport and disposal of solid wastes. Examination of various engineering alternatives with appropriate consideration for air and water pollution control and land reclamation are considered.
CIEN 785- Sustainable Infrastructure (G)
Concepts and principles of sustainable engineering for infrastructure design and their application to analyze the impact of engineering design on resources consumption and the environment.
CIEN 785 - Engineering Statistics (G)
This course covers statistical methods used in Civil and Environmental Engineering practice and research. The focus will be on student understanding and application of the more common statistical measurements, tests and parameters.
This the first level engineering fluid mechanics course which also integrates fundamental hydraulics concepts and applications pertinent to Civil and Architectural Engineering. Topics include properties of fluids, hydrostatic pressure and manometry, forces on submerged surfaces, Pascal's Law, Archimedes' Principles, the Bernoulli and energy equation for steady state flow, Reynolds transport theorem, energy and hydraulic grade lines, head loss calculations, momentum principle, flow and velocity measurement, pumps, branched and looped pipe systems and analysis of open channel flow, sub and dimension analysis.
CIEN 310- Introduction to Environmental Engineering (Junior)
This course provides an introduction to environmental pollution. Topics include physical, chemical and biological water quality parameters, water purification processes in natural systems, air pollution and solid waste management, and general design of waste control systems.
CIEN 412- Environmental Engineering Design (Senior)
This course defines the analysis and design of water and wastewater treatment systems. Topics included in the course are analysis and functional design of physical, chemical and biological treatment processes, sludge treatment processes and municipal solid waste management design.
CIEN 616- Solid Waste Management (G)
This course emphasizes the study of the collection, storage, transport and disposal of solid wastes. Examination of various engineering alternatives with appropriate consideration for air and water pollution control and land reclamation are considered.
CIEN 785- Sustainable Infrastructure (G)
Concepts and principles of sustainable engineering for infrastructure design and their application to analyze the impact of engineering design on resources consumption and the environment.
CIEN 785 - Engineering Statistics (G)
This course covers statistical methods used in Civil and Environmental Engineering practice and research. The focus will be on student understanding and application of the more common statistical measurements, tests and parameters.
Courses taught at Lamar University (2015-2018):
CVEN 5388- Principles of Environmental Chemistry (G)
Introduction to aquatic chemistry, chemical thermodynamics, chemical kinetics and equilibrium, acid-base chemistry, chemical buffer, metal-ligand chemistry, precipitation and dissolution, and redox chemistry.
CVEN 5338- Solid Waste Management (G)
A study of solid waste collection, transfer and disposal systems. Investigation of the reclamation of resources by multiple use, reuse and improvement of existing sources to meet quality requirements.
CVEN 5301- Introduction to Environmental Engineering (G)
The course is designed to introduce the student to the fundamental principles of environmental engineering, and prepare the student with working knowledge to quantitatively evaluate the environmental, technical and economic problems involved with the control of air, water and solid pollutants.
CVEN 5387- Sustainable Infrastructure Design (G)
Summer course that covers advanced biological and physicochemical treatment processes for municipal and industrial wastewater. Simulation will be introduced for design and operation of treatment facilities.
CVEN 3370- Water and Wastewater Treatment (UG)
General survey of environmental engineering covering water supply and sanitary sewerage treatment systems. Design of drinking water and wastewater treatment facilities.
CVEN 3310- Water Chemistry in Environmental Engineering (UG)
Introduction to the hydrologic cycle and the chemistry and microbiology of the natural aquatic environment. Emphasis is on the physical, chemical and biological characterization of water and wastewater systems in relation to man's environment. Laboratory work is in the physical, chemical and biological analysis of water and wastewater.
CVEN 2301- Statics (UG)
Statics is a course that covers the mechanics of particles and rigid bodies in static equilibrium in two- and three- dimensional space. This includes the calculations of translational and rotational forces, force equilibrium concepts, center of mass, centroid of an area, and area moment of inertia.
Introduction to aquatic chemistry, chemical thermodynamics, chemical kinetics and equilibrium, acid-base chemistry, chemical buffer, metal-ligand chemistry, precipitation and dissolution, and redox chemistry.
CVEN 5338- Solid Waste Management (G)
A study of solid waste collection, transfer and disposal systems. Investigation of the reclamation of resources by multiple use, reuse and improvement of existing sources to meet quality requirements.
CVEN 5301- Introduction to Environmental Engineering (G)
The course is designed to introduce the student to the fundamental principles of environmental engineering, and prepare the student with working knowledge to quantitatively evaluate the environmental, technical and economic problems involved with the control of air, water and solid pollutants.
CVEN 5387- Sustainable Infrastructure Design (G)
Summer course that covers advanced biological and physicochemical treatment processes for municipal and industrial wastewater. Simulation will be introduced for design and operation of treatment facilities.
CVEN 3370- Water and Wastewater Treatment (UG)
General survey of environmental engineering covering water supply and sanitary sewerage treatment systems. Design of drinking water and wastewater treatment facilities.
CVEN 3310- Water Chemistry in Environmental Engineering (UG)
Introduction to the hydrologic cycle and the chemistry and microbiology of the natural aquatic environment. Emphasis is on the physical, chemical and biological characterization of water and wastewater systems in relation to man's environment. Laboratory work is in the physical, chemical and biological analysis of water and wastewater.
CVEN 2301- Statics (UG)
Statics is a course that covers the mechanics of particles and rigid bodies in static equilibrium in two- and three- dimensional space. This includes the calculations of translational and rotational forces, force equilibrium concepts, center of mass, centroid of an area, and area moment of inertia.