Increasingly prevalent patient violence within the dementia population is a challenge to long term care providers. Violent incidents can lead to serious musculoskeletal and neurological health complications. I propose to use video surveillance and a novel brain monitoring system in a care facility-based elderly population, to monitor violent episodes and brain vitality after incidents. This will […]

The proposed project studies the noise sources of airplane high-lift devices (HLD) that are responsible for most of the aircraft noise at approach. The latter in turn creates noise nuisances that create health issues to populations close to large urban airports. Two approaches are followed. A state-of-the art simulation that predicts most of the turbulent […]

Polymer electrolyte membrane fuel cell (PEMFC) has emerged as an eminent technology to address today’s growing energy crisis and environmental issues. PEMFC technology faces multiple challenges before widespread commercialization. Water transport inside a PEMFC has a significant impact on the cell performance and durability. In this internship a numerical model is implemented to study the transport […]

This project aims to develop a standard that relates the loss of functionality in the porous transport layer (PTL) due to the presence of defects to the performance of a polymer electrolyte membrane fuel cell. This work attempts to screen defects in the PTL using previously developed testing protocols. Currently there are no existing protocols […]

igmotion Inc. was created to develop wearable health monitoring sensors and service the ‘at-home’ care segment of the elder care market. This project involves studying of existing literature and development of novel solutions for power management and energy harvesting for the product including tracking and fall detection systems using hybridpower. Analysis of proper control approaches […]

In this project, we will develop solid-state hydrogen storage materials for the potential applications of fuel cell electric vehicles. Based on the most cutting-edge achievements in related fields, two categories of two-dimensional layered nanomaterials are proposed. Their hydrogen storage capabilities will be elaborated by in-depth characterization of material structure and hydrogen storage properties. Moreover, we […]

The objective of the proposed research is to investigate novel solid-state materials that have potential for hydrogen storage applications in fuel cell electric vehicles. Of interest are materials that can store hydrogen at ambient conditions and low pressures, have high gravimetric and volumetric hydrogen capacities, and can be safely packed into a hydrogen storage tank […]

The aim of this project is to develop a wrist based fall detection and activity monitoring device for older adults. This device will be used to reliably and automatically detect falls and alert the health care providers so that immediate help can be dispatched and made available to fallers. In addition to detecting falls, this […]

Carbon Engineering (CE) is developing a technology to absorb CO2 through Direct Air Capture (DAC) as a means to reduce GHG’s and combat climate change. CE is building a demonstration plant and plans to build a first commercial plant, which will sell CO2 for use in the production of low carbon fuels. This project aims […]

This project will characterize the ability of vintage (1930 – 1970’s) pipeline materials to support large deformations and develop numerical simulation tools capable of predicting the onset of failure. Of particular interest to this project is the analysis of geotechnical hazards including the ground movements that could impact pipelines including landslides and subsidence events. The […]

Microfluidic systems, also known as “lab-on-a-chip devices”, take advantage of physical forces at the microscale to offer precise control and manipulation of fluids in micron-sized geometries. While these systems promise to revolutionize the life sciences industry, rapid fabrication of these devices during technology development remains a challenge, particularly the critical bonding step between thermoplastic parts. […]

The objective of this project is to improve the quality of the hard-to-reach areas of the hydraulic turbine blades using abrasive waterjet polishing method. By this way, the energy lost caused by parietal friction between the turbine blades and the flow will be decreased and consequently the efficiency of the turbine will be improved. Previously, […]