Engineering Commons^™

Chemical Process Optimization For Dummies, Troy Mannino

Honors Theses

Chemical process optimization is a daunting task. The purpose of this work is to summarize and organize successful approaches which may be employed by the chemical process engineer when confronted with optimization problems. In general, optimization is making any process better; common goals are to increase the efficiency or maximize the economic potential of a process. The improvements made to a process during optimization are generally measured in terms of an objective function. Since the purpose of any industrial chemical process is to be profitable, objective functions most often have units of dollars. The objective function is dependent upon changes …

Chemical Process Analysis And Modeling Case Studies: Liquid Diffusion And Thermodynamic Considerations, Connor Redwine

Honors Theses

Two case studies completed under the direction of Jacobs Engineering are presented and discussed. In the first case study, the economics of the installation of an oil cooler are examined. A vapor recovery unit (VRU) for an enhanced oil recovery (EOR) facility in Grieve, WY, will be installed to capture the vapors from an oil tank. With the installation of the VRU, a question arose: would an oil cooler proposed to be installed before the oil tank be necessary? A simulation and economic analysis of the process suggests that oil cooler installation is still economically favorable. When the low pressure …

Optimization: A Perspective On Improving An Ethylbenzene Production Design, Derrick C. Marchant

Honors Theses

The goal of optimization in a chemical process or system involves improving an existing design or a combination of devices. In the case of an established process such as the ethylbenzene production process investigated here, the optimization involves improving an established process and choosing the best available case within a set of constraints that also considers maximizing the economic bottom line. An objective function must be selected for an optimization problem which defines the achievable goal. The objective function of the optimization process presented here is to minimize the estimated annual operating cost (EAOC). An EAOC takes in to account …

Economic Optimization Of An Ethylbenzene Process, Erin L. Dyer

Honors Theses

This report describes the process of optimizing an existing design for a chemical plant that produces the chemical intermediate ethylbenzene. For an engineer, economic optimization involves manipulating the design variables of a chemical process in order to improve the economic outcome of the project. In this case, the objective of the optimization was to maximize the net present value of the ethylbenzene plant. After analyzing the net present value of the existing design, the team conducted subsequent analyses on the operation of the process, adjusting variables such as temperature, pressure, and flow rate in order to minimize the costs of …

Exploration Of Cannabinoid And Opioid Agents From Plants Used In Traditional Medicine, John Fitzpatrick

Honors Theses

Ten plants, with known medicinal uses, were gathered to study for their possible production of secondary metabolites that act as opioid and cannabinoid agents. All plants were subjected to in vitro bioassays testing for their affinity for the opioid and cannabinoid receptors. Banisteriopsis caapi extracts displayed the greatest affinity for both opioid and cannabinoid receptors. B. caapi extracts underwent column fractionation yielding fractions that were subjected to further in vitro studies. We discovered that the ethanolic extract of this plant (foliage) binds to all three opioid receptors (µ, κ and δ) and cannabinoid receptors (CB1 and CB2) with values ranging …

A Look Into Process Optimization, Joshua Hunter Lambert

Honors Theses

The goal for this paper is to inform the reader on the optimization process in chemical engineering design. The reader will gain knowledge about the step-by-step process as well as terminology of the optimization journey. Optimization takes a great amount of work, and it can be a daunting task if one gets caught up in the minute details. However, I will show that looking at the big picture will drastically ease the process and make optimizing much simpler. A base case will first be presented. The base case should be modeled using a process simulator, and then an economic analysis …

Design And Synthesis Of Sigma-1 Probe For Positron Emission Tomography (Pet) Imaging, May Ly

Honors Theses

Sigma-1 receptor radioligands have the potential to detect and monitor various neurological diseases. Because sigma-1 receptors are believed to be associated with numerous psychiatric conditions and neurodegenerative diseases, radioligands for sigma-1 receptors have the potential to serve as novel diagnostic tools and may be useful in assessing treatment effectiveness. A benzothiazolone 18F-labeled sigma-1 receptor ligand, CM304, has demonstrated promise as a specific positron emission tomography radiotracer for visualizing sigma-1 receptors in living subjects. Based on CM304, backup molecules were created to improve the overall drug profile, including half- life and bioavailability.

Carbon Dioxide Capture By Functionalized Graphene Oxide Adsorbent, Sulihat Oreoluwa Aloba

Honors Theses

The accumulation of CO2 in the atmosphere is a major environmental hazard. As a result various methods for capturing CO2 was suggested. One of such methods included the development of carbon-based adsorbents due to their large surface area and low heat capacity for CO2 capture which was studied in this report. Graphene oxide (GO) was selected as the adsorbent for its potential benefit in CO2 capture. A modified hummers method was used for the synthesis of GO which showed the existence of the hydroxyl (3440 cm-1), epoxyl (1036 cm-1) and carboxyl (1720 cm-1) functional groups in its FTIR spectra. The …

Optimization Of A Chemical Production Facility: A Study Of Operating Conditions, Equipment Sizing, And Economics Of An Ethylbenzene Production Plant., Xi Peng

Honors Theses

Economics of a chemical plant depend on multiple factors: grade of a feed, types of catalyst, operating temperature and pressure, cost of equipment, and many other factors could have influences on economics of the plant. In a previous study about an ethylbenzene facility, our team scrutinize two proposed changes. An optimization plan is recommended by our team in order to maximize the net present value (NPV) of the plant. This report focuses on demonstrating rationales of setting certain operating conditions, showcasing the details of optimization, and elucidating the reasons behind applying these modifications. The team used simulating software PRO/-II to …

Using Greet To Analyze Natural Gas Usage In Municipal Fleets, Bradley E. Gibson

Honors Theses

GREET was used to calculate energy consumption and pollutants emitted from specific fuel/vehicle types when given a specific set of parameters. In this case, the parameters were the type of fuel mix from TVA, the selected vehicle year of 2015, the vehicle weight specified in the heavy-duty vehicle range, and type of simulation technique, which was the Hammersely Sequence Sampling. These inputs, along with seventeen fuel/vehicles mixes, specific pollutants, and cost considerations, were used to investigate the environmental impact of the transition from petrol diesel to natural gas in the municipal fleets of Chattanooga, Tennessee. The energy consumption included coal, …

Outlining The Biocidal Mechanisms Of Synthetic Antimicrobial Peptide Mimics, Tyler D. Brown

Honors Theses

Each day, antibiotic resistance affects the livelihood of individuals worldwide, especially in relation to hospital-acquired diseases. In an effort to combat this resistance, antimicrobial peptides, small biopolymers produced naturally by multicellular organisms, can be used to selectively eliminate bacteria and have demonstrated great potential as alternatives to conventional antibiotics. Many naturally-occurring antimicrobial peptides possess high concentrations of lysine and arginine amino acid residues, which are protonated and positively-charged at physiological pH. Herein, we describe the design and synthesis of antimicrobial peptide mimics, using amino acid mimics. N-3-aminopropyl methacrylamide (APMA) and 3-guanidinopropyl methacrylamide (GPMA) monomers mimic the amino acid residues lysine …

Experimental Investigation Of Injectivity In Unconsolidated Formations, Callie Pritchett

Honors Theses

No abstract provided.

Reduction Of Ketoximes To Amines By Catalytic Transfer Hydrogenation Using Raney Nickel And 2-Propanol As Hydrogen Donor, Katherynne E. Taylor

Honors Theses

Ketoximes successfully underwent hydrogenolysis and hydrogenation under catalytic transfer conditions with Raney Nickel and 2-propanol as a hydrogen donor. Ketoximes were reduced to primary amines when 2% KOH was included in the reaction. In the absence of KOH N-isopropyl-secondary-amines were obtained in good yields.

The Effect Of Co-Solvent And Ordered Lattice Structure On Catalysis Of Biodiesel Production In Microreactors, Benjamin J. D. Kegley

Honors Theses

In this study, stable single phase feedstocks for biodiesel production were successfully determined. The addition of free fatty acids, which are considered waste, to the soy bean oil and methanol processing feed as a co-solvent, produces a stable single phase. The single phase feedstock significantly increases initial global rates and supplements the oil with further biodiesel production. A stable single phase feedstock and increased reaction rates are desirable due to the use of continuous heterogeneous biodiesel production in microreactors currently being developed by this research group. Further design improvements to the microreactor design have been determined. Such improvements include the …

Utilizing Reversible Addition Fragmentation Chain Transer For The Synthesis Of Polymeric Gene Delivery Vehicles, Jared Spoons

Honors Theses

There are many techniques used today to make a variety of polymers but this thesis investigates the reversible addition-fragmentation chain transfer (RAFT) polymerization technique and illustrates the advantages and importance of using RAFT polymerization technique to make the desired polymer. The research focused on two monomer units that were to form the diblock copolymer; the hydrophilic part, oligo(ethylene glycol) methacrylate, and the cationic hydrophobic part 2-diethylaminoethyl methacrylate. The goal was to produce a target diblock copolymer with a Mn value of 44K and a PDI under 1.5 with the block sizes being a 35K Mn OEGMA chain and a 9K …

The Cooling Effect Of Cryotherapy On Power And Accuracy In The Pitching Arms Of Baseball Players, David Kimble Wilbanks

Honors Theses

As the human body does work, energy is released in the form of heat. The ability to perform the same action repeatedly and at the same intensity requires energy to be maintained. By preserving energy in sports, a reduction of injuries and an increase in performance duration would most likely be observed. More specifically in sports, for 200 years of baseball history, the pitcher has attempted to keep their arm warm during resting intervals of a game, in belief this would help sustain their level of performance. This study attempted to overturn this view. I hypothesized that by cooling their …

Performance And Stability For Room Temperature Ionic Liquid Membranes For The Dehumidification Of Methane, Dora Frances Sullivan-González

Honors Theses

The biogas production from organic waste—animal, sewage, landfill material— could be a valuable renewable fuel. Before this biogas—predominately bio-methane— can be converted to fuel, it must be dehumidified. Typically membrane-based gas dehumidification uses hydrophilic polymer membrane materials, such as polydimethylsiloxane (PDMS) and cellulose acetate (CA). The main problems with polymer dehumidification membranes are methane loss and the susceptibility of polymer materials to plasticization by H2O. Room temperature ionic liquid membranes (RTIL- membranes), according to recent literature, are not plasticized by water and have large water/CH4 selectivities. We built on the initial literature RTIL-dehumidification data by looking at a series of …

Gas Composition Analysis Using Limited Production Data Eagle Ford Case Study, Ryckur K. Shuttler

Honors Theses

No abstract provided.

Modeling Dissolution Of Oil Droplets During The Ascent In Marine Water After A Deep Water Oil Spill, Kalpanee D. Gunasingha

Honors Theses

No abstract provided.

Catalyst Studies With Implications On The Design And Fabrication Of Microreactors, Eric Snider

Honors Theses

Biodiesel, or fatty acid methyl ester (FAME), 'is a potential alternative, renewable fuel source to lessen foreign fuel dependency. Dr. Frank Jones' microreactor research group is investigating the use of microreactors to produce biodiesel. Microreactors can increase reaction rates, heat transfer, and lessen production costs due to their small size. The first generation of microreactors, coated with a nickel oxide (NiO) catalyst, has been developed and needs to be tested to determine their performance. Also, a catalyst study comparing NiO and platinum oxide (PtO2) will be performed to find the better catalyst for FAME production.

Replacement Options For The Ap1-Lew System, Tiffany M. Sherburn

Honors Theses

This report details the upgrade of Pfizer’s Active Pharmaceutical Ingredient-Low Endotoxin Water (API-LEW) distribution system. The current system is suffering from chloride induced stress corrosion which has caused pitting and cracking throughout the exterior portions of the loop. The system will eventually fail catastrophically if an update is not undertaken. Many variables and system constraints are considered to maintain the API-LEW grade water.

The system operates at 65 ^○C and maintains turbulence to prevent any microbial growth. The distribution loop spans 8,500 feet of 4 inch diameter stainless steel pipe which is carried on trestles that are exterior to …

Comparison Of Horizontal Ground Source (Geothermal) Heat Pump Layouts For Optimal Performance And Thermal Efficiency, Elizabeth M. Bocchino

Honors Theses

This study investigates the difference in thermal efficiencies of horizontal ground source heat pump layouts through computer simulation and experimental modeling. The main objective of this project was to determine if the shape of the layout affects the total heat exchange in a horizontal geothermal system. Geothermal energy is power extracted from the Earth and studies have been focused on increasing the efficiency of the heat transfer from the Earth to the system. Steady state and transient thermal analyses were conducted on two horizontal layout shapes, a U-loop and a coil, in ANSYS Fluent. This system was not full size, …

New Catalysts For The Photocatalytic Reduction Of Carbon Dioxide To C1 Organic Compounds, Anna Hailey

Honors Theses

Photocatalytic reduction of carbon dioxide (CO2) has recently been identified as one of the five notable research areas in catalysis because it simultaneously reduces carbon emissions while storing clean, green solar energy in organic compounds. The development of efficient photocatalysts that take advantage of solar radiation is therefore an important area of research. Titanium dioxide (TiO2) is a commonly-used photocatalyst for this reaction, but it requires ultraviolet (UV) radiation to excite its electrons. Carbon-doping (C-doping) has been shown to reduce the intensity of energy required, thus allowing the photocatalyst to take advantage of the visible light spectrum. Copper (Cu), added …

Investigation Of Solid-State Shear Pulverization Processing Parameters For Polyethylene-Clay Nanocomposites , Ben Aldrich

Honors Theses

Investigates multiple processing parameters, includingpolymer type, filler type, processing technique, severity of SSSP (Solid-state shear pulverization)processing, and postprocessing, of SSSP. HDPE and LLDPE polymers with pristine clay and organo-clay samples are explored. Effects on crystallization, high-temperature behavior, mechanicalproperties, and gas barrier properties are examined. Thermal, mechanical, and morphological characterization is conducted to determine polymer/filler compatibility and superior processing methods for the polymer-clay nanocomposites.

“Hydraulic Fracturing Efficiency In The Olmos Sand Formation”, Lauren N. Fogarty

Honors Theses

No abstract provided.

Cooling Tunnel Optimization, Trisha Janicki, Jason Thomas

Honors Theses

The goal of this senior design project was to design an Excel spreadsheet which would model a cooling tunnel at the production facility for Kellogg. This model takes the inputs from the operator, the ambient conditions, and the product going through the model and shows exactly what is happening within the tunnel. Once the model was built, an economic analysis was done based on the normal operations versus the increased efficiency of the cooling tunnel. This economic comparison showed that if the throughput of the cooling tunnel was increased by 17.6%, the cost of running the chiller, which is the …

Extensive Study Of The Pvc Industry: Relation Of The Processing Time And Processing Temperature To The Degree Of Fusion, As Well As A Strategic Plan For Increasing Consumer Demand, Erick Jason Comeaux

Honors Theses

No abstract provided.