This study presents the preliminary design and performance assessment of a 12-MW utility-scale photovoltaic (PV) solar power plant proposed for Hebbronville, Texas. The site was selected due to its high solar irradiance, land availability, and proximity to existing electrical infrastructure. Solar resource data obtained primarily from the NREL database, using two years of solar data, is used to evaluate system performance. The study analyzes plant layout, PV module and inverter selection, and the use of fixed-tilt and tracking panel configurations. Using photovoltaic performance factors (POFs) and standard generation calculations, the plant’s expected power generation and annual energy production are estimated to evaluate the anticipated performance of the system.

This project designs a 15-MW photovoltaic (PV) power plant, located just outside San Angelo, TX in San Saba County, Texas (30.98∘N, −99.00∘W), to evaluate the performance trade-offs between two configurations: a fixed-tilt stationary system and a horizontal single-axis tracking (HSAT) system. Utilizing three years of meteorological data (2021–2023) from the NREL National Solar Radiation Database, the study will perform parametric analyses on the Ground Coverage Ratio (GCR) and DC:AC loading ratios. Calculations will determine annual energy yield, Performance Ratio (PR), and Levelized Cost of Energy (LCOE). Results will quantify the energy gain of tracking systems against increased land requirements and O&M costs, providing a technical justification for solar deployment in the Texas CREZ corridor

This poster presents the electrical and controls design of the Automated Parts Washer (APW), a senior capstone sponsored by Mary Kay and developed by engineering students at Texas Christian University. The system will integrate sensors, actuators, and a programmable control architecture to automate the washing cycle while minimizing operator intervention, designed to improve efficiency, safety, and consistency in industrial component cleaning.. A PLC control system coordinates key subsystems including fluid pumps, spray nozzles, and heating elements, and an ultrasonic bath component to ensure uniform cleaning coverage. Electrical design emphasizes safe power distribution, component protection, and reliable signal interfacing between sensors and control hardware. Control logic will be implemented to manage cycle timing, temperature regulation, and fluid circulation while incorporating safety interlocks and fault detection. Human-machine interaction is provided through a user interface that allows operators to select wash cycles and monitor system status. The resulting design demonstrates how integrated electrical systems and control strategies can transform a traditionally manual cleaning process into a repeatable, automated solution suitable for small-scale manufacturing and maintenance environments.

Climate change and economic factors have led to a considerable increase in demand for renewable power generation in Texas, with yearly renewable generation increasing from 12% in 2015 to 34% in 2025. This study evaluates the feasibility of a 100 MW wind power plant located on the outskirts of El Paso, TX. The plant would require 30 to 40 wind turbines producing 3 MW each, powering up to 75,000 homes on average and providing clean, independent energy to the surrounding metropolitan area. The report focuses on the technical concerns of the proposed wind power plant and predicts its performance based on average hourly weather data in the region.

Due to unprecedented urbanization in North Texas, coyotes have become more frequently observed in urban settings. The proposed project will examine the spatial distribution of coyote observations in North Texas, focusing on identifying spatial patterns. It also assesses whether these patterns are indicators of long-term adaptation in response to rapid urbanization in the region.  This study will use spatial analysis techniques to determine whether coyote observations are spatially clustered, identify potential hotspots, and assess whether the clustering is associated with a certain cover type. In addition, visual comparisons of multitemporal observations of data will be conducted to evaluate whether distribution patterns change over time. By integrating hotspot analysis and land cover data, the project aims to better understand how coyotes may be adapting to urban environments in North Texas.

This project proposes using ArcGIS-based spatial analysis to identify various vegetation zones at the Fort Worth Nature Center & Refuge and the surrounding areas, with the goal of supporting ecological management decisions. This will be accomplished through spatial overlay and other GIS analysis tools applied to relevant datasets, including topography (elevation), soil type, land cover, geology, and vegetation distribution derived from existing geospatial datasets. The distribution of plants based on these factors will help identify distinct zones, such as Fort Worth prairie, Cross Timbers savanna, and riparian forest. By compiling the results of the GIS analysis and producing maps to support both visual and statistical analysis, the project will provide insights for end users to identify existing and potentially new zones for ecological management.

This study analyzes the spatial relationship between energy infrastructure and population growth in Texas using GIS. Energy datasets, including power plants and pipelines, are combined with population data to evaluate whether infrastructure aligns with areas of increasing demand. Areas that do not have the infrastructure to handle the demands will result in blackouts and possibly more permanent issues to the power grid. Results are expected to show high energy concentration in low-population regions like West Texas, while rapidly growing urban areas such as Dallas–Fort Worth and Houston may face increasing demand pressures. These findings will inform energy planning and infrastructure development for these various energy companies and ONCOR.

Students find it difficult to work in uncomfortable temperatures. The temperature of the Paschal High School auditorium has been a complaint of students and staff for years. A recent survey found that 75% of students and teachers find the auditorium either uncomfortably cold or uncomfortably hot. This research explores the temperature fluctuations in the auditorium in the context of events taking place in the auditorium. Six sensors were placed around the Paschal High School auditorium and recorded the temperature and humidity every couple of seconds from December 19 to March 1st. From this data, I was able to calculate “feel’s like” temperature, and graph this against time, taking note of any significant events that may have affected temperature.

As climate-related health effects become increasingly more visible, the public perceptions of planetary health education may change. This study explored public expectations for the role of health professionals in planetary health advocacy, education, and clinical practice. A link to an online Qualtrics survey was sent to potential participants through community service events, coalition meetings, and websites. Responses were validated for a final analytical sample of 88 adults aged 18 and older. Results indicate that a large majority of participants have a positive view on environmental conservation, reflected by a mean score of 54.7 (SD 7.8) out of a possible 75 on the New Ecological Paradigm Scale. A majority of respondents indicated they were already observing health impacts of climate change in their daily lives, most commonly as increased allergy-related symptoms (70.2%), injuries due to severe weather events such as storms or floods (64.3%), and heat-related illnesses (57.1%). Respondents indicated that health professionals and professional organizations should play an active role in educating the public and advocating for policy responses to the health effects of climate change. The most frequent responses were found for health professionals bringing climate-health effects to public attention (88.1%), professional organizations engaging in significant advocacy (86.9%), and clinicians leading sustainability efforts in hospitals and clinics (85.7%). Significantly, 78.6% of participants expressed that health professionals have a responsibility to discuss these health effects directly with their patients. Overall, this sample of adults perceives that human health is already negatively affected by environmental changes and strongly supports health professionals to take advocacy and educational roles to address planetary health problems.

When Roundup is used on plants and soils, Glyphosate has different effects on the solubility (LogKow) and degradation pathways of molecules based on soil factors. These soil factors have to do with the organic composition of the soil. Organic matter in soils comes from 1,2,4-Trihydroxybenzene, Ferulic Acid, and Vanillic Acid. Pesticides degrade these molecules and make daughter molecules. This can show the assessment on how glyphosate alters degradation by comparing parent–daughter product distributions and LogKow.