Engineering Commons^™

Hydrologic Evaluation Of Established Rain Gardens In Lincoln, Nebraska Using A Storm Runoff Simulator, Andrew R. Anderson

Department of Environmental Engineering: Theses and Student Research

Increased urbanization has resulted in water quality and flooding problems for many receiving waters in the United States. Bioretention, or rain gardens, is one of the most widely popular and effective best management practices in low impact development (LID), which strives to return a watershed to a predevelopment hydrologic regime. Many studies have evaluated large bioretention cells in research settings. There is little information on the effectiveness of homeowner-maintained rain gardens that rely on deep percolation as the method for water exfiltration. Additionally, few studies address rain garden performance in cold, arid, or semi-arid climates found in the Midwest U.S. …

A Framework For Evaluating Sorbent Usage Rate Of Various Sorption Column Configurations With And Without Bypass Blending, Benjamin A. Stewart

Department of Environmental Engineering: Theses and Student Research

Sorption systems are a prevalent technology in the field of environmental engineering for treating waters contaminated with organic and/or inorganic compounds. Examples of such contaminants include taste and odor, hardness, disinfection byproduct precursors, and arsenic.

The primary operating costs for these sorption systems lie in sorbent replacement. Different column arrangements and the use of bypass blending have the potential to reduce sorbent usage. Thus, this research aimed to develop a decision framework to assist engineers and practitioners in considering when to apply single columns, parallel columns, and lead-lag series configurations, with and without bypass, based on sorbent usage rate. This …

Economic And Environmental Sustainability Of Using Bio-Fuels For Small Nebraska Greenhouses, David M. Mabie

Department of Environmental Engineering: Theses and Student Research

The primary goal of this paper was to increase profitability in Nebraska greenhouses by using biomass fuels for heating instead of propane. Several different fuels were tested, including whole shelled corn, dry distiller’s grains pelletized, wood pellets and blends between each biomass. The main fuel focus was on whole shelled corn. Bomb calorimetry tests were performed on biomass fuels and their respective ashes. Several furnace and heat exchanger efficiency tests were performed, with cost effectiveness analysis for each fuel type. Emissions data was also collected for each fuel on carbon monoxide, carbon dioxide, nitrous oxides, sulfuric oxides, and particulate matter. …

Design And Modeling Of Infrastructure For Residential And Community Water Reuse, Shannon M. Killion

Department of Environmental Engineering: Theses and Student Research

Water scarcity and deteriorating water infrastructure are of growing concern in the United States. The conventional methods of treating and transporting potable water and wastewater are being challenged as new technology creates opportunities for water reuse. Instead of simply replacing the current infrastructure for centralized treatment systems, alternatives such as dual distribution and decentralized treatment systems are being investigated as more sustainable alternatives.

Implementing dual distribution systems leads to benefits such as reducing the amount of water treated to potable standards and reducing freshwater withdrawals. A dual distribution system allows the non-potable demands to be shifted from the potable water …