Citation:

STREAM WATER QUALITY MODEL. U.S. Environmental Protection Agency, Washington, DC, 2004.

Impact/Purpose:

One-dimensional river and stream water quality model with steady state hydraulics, non-uniform steady flow, and diel heat budget/water-quality kinetics.

Description:

QUAL2K (or Q2K) is a river and stream water quality model that is intended to represent a modernized version of the QUAL2E (or Q2E) model (Brown and Barnwell 1987). Q2K is similar to Q2E in the following respects:

• One dimensional. The channel is well-mixed vertically and laterally.
• Steady state hydraulics. Non-uniform, steady flow is simulated.
• Diurnal heat budget. The heat budget and temperature are simulated as a function of meteorology on a diurnal time scale.
• Diurnal water-quality kinetics. All water quality variables are simulated on a diurnal time scale.
• Heat and mass inputs. Point and non-point loads and abstractions are simulated.

The QUAL2K framework includes the following new elements:

• Software Environment and Interface. Q2K is implemented within the Microsoft Windows environment. It is programmed in the Windows macro language: Visual Basic for Applications (VBA). Excel is used as the graphical user interface.
• Q2E segments the system into river reaches comprised of equally spaced elements. In contrast, Q2K uses unequally-spaced reaches. In addition, multiple loadings and abstractions can be input to any reach.
• Carbonaceous BOD speciation.Q2K uses two forms of carbonaceous BOD to represent organic carbon. These forms are a slowly oxidizing form (slow CBOD) and a rapidly oxidizing form (fast CBOD). In addition, non-living particulate organic matter (detritus) is simulated. This detrital material is composed of particulate carbon, nitrogen and phosphorus in a fixed stoichiometry.
• Anoxia.Q2K accommodates anoxia by reducing oxidation reactions to zero at low oxygen levels. In addition, denitrification is modeled as a first-order reaction that becomes pronounced at low oxygen concentrations.
• Sediment-water interactions. Sediment-water fluxes of dissolved oxygen and nutrients are simulated internally rather than being prescribed. That is, oxygen (SOD) and nutrient fluxes are simulated as a function of settling particulate organic matter, reactions within the sediments, and the concentrations of soluble forms in the overlying waters.Bottom algae. The model explicitly simulates attached bottom algae.
• Light extinction. Light extinction is calculated as a function of algae, detritus and inorganic solids.
• pH. Both alkalinity and total inorganic carbon are simulated. The river ?s pH is then simulated based on these two quantities.
• Pathogens. A generic pathogen is simulated. Pathogen removal is determined as a function of temperature, light, and settling.

URLs/Downloads:

surface-water-models-assess-exposures

Record Details:

Record Type:DOCUMENT( DATA/SOFTWARE/ MODEL)

Product Published Date:01/15/2004

Record Last Revised:02/13/2023

OMB Category:Other

Record ID: 75862

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Model Detail:

Model URL :https://www.epa.gov/ceam/surface-water-models-assess-exposures

Model Guidance Documents :Watershed and Water Quality Modeling Technical Support Center maintains a QUAL2K Users Manual and is included with the installation package. The Users Manual is periodically updated as the model is enhanced.

Model Inputs :Stream/River is broken down into branches and computational elements, forcing functions such as: flow, boundary concentrations, meteorological conditions, light, kinetic constants. More complex the application the greater the input requirements.

Model Outputs :User can give all model output within the Excel environment.

Model Computer Requirements:

Model Operating Systems Needs :Microsoft Windows 98 or Higher

Model Hardware Needs :Standard Desktop System. Higher performance machine maybe need for large simulations.

Model Programming Language(s) :Visual Basic, Microsoft Excel

other_req :QUAL2K requires Microsoft Office/Excel 2000 or Higher