Sort by
Refine Your Search
-
Listed
-
Country
-
Field
-
profile: "Heat and Mass Transfer" (GIE). 2nd year, "Fluid Mechanics" (GITM). 2nd year, "Modeling I: Mechanics of Continuum Media" (MUIM). 1st year, "Exploration and Evaluation of Mineral Deposits" (MUMS
-
energy transfer, developing and employing computer simulations, laboratory experiments, and field analyses. Our aim is to gain fundamental insights and develop sustainable technologies to address societal
-
the top or bottom of this posting. In order to be considered as a transfer candidate, you must apply for this position. Applications not submitted through https://jobs.illinois.edu will not be considered
-
shuttle and Austin CapMetro buses with staff ID card For more details, please see: https://hr.utexas.edu/prospective/benefits and https://hr.utexas.edu/current/services/my-total-rewards . For more
-
, the university unites the natural and engineering sciences with the humanities, social sciences and medicine. This wide range of disciplines is a special feature, facilitating interdisciplinarity and transfer
-
infrastructures across buildings, industry, district heating, electric power grids, and sector-coupled energy networks. Through interdisciplinary research, large-scale collaborations, and active participation in
-
, gaining transferable skills and professional experience that prepare them for success in future employment. Wage compensation for this role is $16.40 /hour Transferable Skill Development OSU is committed
-
Minnesota State Community and Technical College | Moorhead, Minnesota | United States | 2 months ago
PowerSports Technology, and Diesel Equipment programs. Connections working at Minnesota State Community and Technical College More Jobs from This Employer https://main.hercjobs.org/jobs/21959909/heating
-
Sorbonne Université SIS (Sciences, Ingénierie, Santé) | Palaiseau, le de France | France | about 1 month ago
-scale plumes; turbulent filaments as well as large-scale storms spanning thousands of kilometers (see Figure in the pdf). These phenomena are thought to be powered by latent heat released from water
-
analysis of high-temperature receivers and reactors for the production of energy, fuels, and process heat. Modelling and analysis of heat transfer, radiation, and fluid flow in high-temperature single- and