Project Details
Program
Mechanical Engineering
Field of Study
Mechanical Engineering, Physics, Electrical Engineering, Chemical Engineering, Environmental Engineering
Division
Physical Sciences and Engineering
Faculty Lab Link
Project Description
The project involves design, development, and implementation of a laser-based optical sensor. The sensor will be used to monitor environmental pollutants (e.g., NOx, CO) and/or greenhouse gas emissions (e.g., N2O, CH4, CO2). The student will work on studying the electromagnetic spectrum of various molecules, choosing the candidate optical transitions, setting up the laser-based optical setup, and performing laboratory measurements to detect species concentration in trace quantities. Advanced sensing strategies, such as wavelength modulation, cavity-enhancement and frequency combs will be utilized. Machine-learning based methods will be used to enhance sensor sensitivity and selectivity, and to do de-noising. The student will gain expertise in spectroscopy, statistical thermodynamics, machine learning, optical engineering, and mechanical design.
About the Researcher
Aamir Farooq
Professor, Mechanical Engineering
Affiliations
Education Profile
- Ph.D., Mechanical Engineering, Stanford University, 2010
- M.S., Mechanical Engineering, Stanford University, 2006
- B.S., Mechanical Engineering, GIK Institute of Engineering Sciences and Technology, 2002
Research Interests
Dr. Farooqa's research interests are in the areas of energy sciences, combustion chemistry, spectroscopy and laser-based sensors. He is the principal investigator of Chemical Kinetics and Laser Sensors Laboratory and is affiliated with the Clean Combustion Research Center. Professor Farooqa's group focuses on the development and useA of advanced experimental techniquesA to understand fundamental processes in traditional and renewable energy-conversion devices.A TheA laboratory carries out experimentalA research onA chemical kinetics using shock tubes and rapid compression machine. These idealized reactors enable the study of reaction kinetics, fuel chemistry, ignition properties, and emissions under conditions suitable for future high-efficiency, low-emission engines and gas turbines. Professor Farooq is interested in the development of new laser-based sensors and their application to a variety of energy systems. These sensors are used to make in-situ measurements of various parameters of interest such as species concentration, gas temperature, flow velocity, mass flux, and particle number density. Small-sized quantum-cascade lasers are used to design highly sensitive sensors that are portable and can be applied directly in industrial settings. Also, Professor Farooq is interested in developing laser-based sensors for biomedical and environmenta-monitoring applications.Selected Publications
- M. Lamperti, R. Gotti, D. Gatti, M.K. Shakfa, E. Cane, F. Tamassia, P. Schunemann, P. Laporta, A. Farooq, M. Marangoni, ""Optical frequency metrology in the bending modes region"", Communication Physics 3 175 (2020)
- H. Jin, L. Xing, D. Liu, J. Hao, J. Yang, A. Farooq, ""First aromatic ring formation by the radical-chain reaction of vinylacetylene and propargyl"", Combustion and Flame 225, 524 a- 534 (2021)
- M. Figueroa-Labastida, A. Farooq, ""Simultaneous lateral and endwall high-speed visualization of ignition in a circular shock tube"", Combustion and Flame 214, 263 a- 265 (2020)
- F. Khaled, A. Farooq, ""On the universality of ignition delay times of distillate fuels at high temperatures: A statistical approach"", Combustion and Flame 210 145 a- 158 (2019)
- E.F. Nasir, A. Farooq, ""Intra-pulse laser absorption sensor with cavity enhancement for oxidation experiments in a rapid compression machine"", Optics Express 26 14601 a- 14609 (2018)
Desired Project Deliverables
- Spectroscopic analysis - Optical design of the sensor - Experimental validation and demonstration of sensor performance
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3-6 months
Internship period
100+
Research Projects
3.5/4
Cumulative GPA
310
Interns a Year