See website (1) https://wpi.studentemployment.ngwebsolutions.com/jobxJobdetailPrint.aspx?JobId=4861&win=True, (2) https://wpi.studentemployment.ngwebsolutions.com/jobxJobdetailPrint.aspx?JobId=4862&win=True
(1) We are seeking a highly motivated PhD student to join our research team focused on enhancing the resilience of Wildland-Urban Interface (WUI) communities against wildfire threats. The successful candidate will be responsible for conducting data integration and classification of fire exposure scenarios, utilizing databases and literature to build a comprehensive framework for WUI fire shelter design. The student will actively participate in the design process of a tiered fire shelter system, integrating Hazard Mitigation Measures (HMM) and Fire Protection Engineering (FPE) principles. The candidate will assist with computational modeling using the Wildland Urban Interface Fire Dynamics Simulator (WFDS), validating the shelter designs through simulations and experimental data. The ideal candidate should have a strong background in fire dynamics, computational fluid dynamics (CFD), or related fields, with experience in data analysis and modeling. This is an excellent opportunity to contribute to cutting-edge research aimed at developing new standards for fire shelters in wildfire-prone areas. A Master’s degree in Fire Protection Engineering, Mechanical Engineering, or a related field is required.
(2) We are seeking a highly motivated graduate student to join our research group at Worcester Polytechnic Institute (WPI). The student will be conducting research on the topic “Near-field emissions and its relation to fire behavior”. The successful candidate will be responsible for conducting laboratory scale and field scale experiments (travel within U.S.) with the state-of-art measurement tools. The student will actively participate in the design and building of large-scale experimental setup for testing fire behavior. The student will collaborate with experts from federal agencies (USFS) and partner institutes (Univ. of Melbourne, UCLA etc.). The ideal candidate should have a strong background in the thermal sciences (fluid dynamics and heat transfer). This is an excellent opportunity to contribute to cutting-edge research aimed at understanding the fundamental coupling between fire behavior and emissions.