Matches in DBpedia 2015-10 for { <http://dbpedia.org/resource/Transport_phenomena> ?p ?o }
- Transport_phenomena abstract "In engineering, physics and chemistry, the study of transport phenomena concerns the exchange of mass, energy, and momentum between observed and studied systems. While it draws from fields as diverse as continuum mechanics and thermodynamics, it places a heavy emphasis on the commonalities between the topics covered. Mass, momentum, and heat transport all share a very similar mathematical framework, and the parallels between them are exploited in the study of transport phenomena to draw deep mathematical connections that often provide very useful tools in the analysis of one field that are directly derived from the others.While it draws its theoretical foundation from the principles in a number of fields, most of the fundamental theory on the topic is a simple restatement of basic conservation laws.The fundamental analyses in all three subfields of mass transport, heat, and momentum are often grounded in the simple principle that the sum total of the quantities being studied must be conserved by the system and its environment. Thus, the different phenomena that lead to transport are each considered individually with the knowledge that the sum of their contributions must equal zero. This principle is useful for calculating any number of relevant quantities. For example, in fluid mechanics, a common use of transport analysis is to determine the velocity profile of a fluid flowing through a rigid volume.Transport phenomena are ubiquitous throughout the engineering disciplines. Some of the most common examples of transport analysis in engineering are seen in the fields of process, chemical, biological, and mechanical engineering, but the subject is a fundamental component of the curriculum in all disciplines involved in any way with fluid mechanics, heat transfer, and mass transfer. It is now considered to be a part of the engineering discipline as much as thermodynamics, mechanics, and electromagnetism.Transport phenomena encompasses all agents of physical change in the universe. Moreover, it is considered to be a fundamental building block which developed the universe, and which is responsible for the success of all life on earth. However, the scope here limits the transport phenomena to its relationship to artificial engineered systems.".
- Transport_phenomena wikiPageExternalLink fluid.
- Transport_phenomena wikiPageExternalLink heat.
- Transport_phenomena wikiPageExternalLink mass.
- Transport_phenomena wikiPageExternalLink teaching.matdl.org.
- Transport_phenomena wikiPageID "27147535".
- Transport_phenomena wikiPageLength "15779".
- Transport_phenomena wikiPageOutDegree "110".
- Transport_phenomena wikiPageRevisionID "677808603".
- Transport_phenomena wikiPageWikiLink Action_potential.
- Transport_phenomena wikiPageWikiLink Bioheat_transfer.
- Transport_phenomena wikiPageWikiLink Biomedical_engineering.
- Transport_phenomena wikiPageWikiLink Category:Chemical_engineering.
- Transport_phenomena wikiPageWikiLink Category:Transport_phenomena.
- Transport_phenomena wikiPageWikiLink Chemical_engineering.
- Transport_phenomena wikiPageWikiLink Chemical_potential.
- Transport_phenomena wikiPageWikiLink Chemistry.
- Transport_phenomena wikiPageWikiLink Chilton_and_Colburn_J-factor_analogy.
- Transport_phenomena wikiPageWikiLink Conservation_law.
- Transport_phenomena wikiPageWikiLink Conservation_law_(physics).
- Transport_phenomena wikiPageWikiLink Constitutive_equation.
- Transport_phenomena wikiPageWikiLink Constitutive_equations.
- Transport_phenomena wikiPageWikiLink Continuity_equation.
- Transport_phenomena wikiPageWikiLink Continuity_equations.
- Transport_phenomena wikiPageWikiLink Continuum_mechanics.
- Transport_phenomena wikiPageWikiLink Convection.
- Transport_phenomena wikiPageWikiLink Density.
- Transport_phenomena wikiPageWikiLink Differential_calculus.
- Transport_phenomena wikiPageWikiLink Diffusion.
- Transport_phenomena wikiPageWikiLink Dissipation.
- Transport_phenomena wikiPageWikiLink Drag_(physics).
- Transport_phenomena wikiPageWikiLink Earth.
- Transport_phenomena wikiPageWikiLink Electric_charge.
- Transport_phenomena wikiPageWikiLink Electromagnetism.
- Transport_phenomena wikiPageWikiLink Energy.
- Transport_phenomena wikiPageWikiLink Engineered_systems.
- Transport_phenomena wikiPageWikiLink Engineering.
- Transport_phenomena wikiPageWikiLink Ficks_law.
- Transport_phenomena wikiPageWikiLink Ficks_laws_of_diffusion.
- Transport_phenomena wikiPageWikiLink Fluid_dynamics.
- Transport_phenomena wikiPageWikiLink Fluid_flow.
- Transport_phenomena wikiPageWikiLink Fluid_mechanics.
- Transport_phenomena wikiPageWikiLink Fluid_statics.
- Transport_phenomena wikiPageWikiLink Force.
- Transport_phenomena wikiPageWikiLink Forced_convection.
- Transport_phenomena wikiPageWikiLink Forces.
- Transport_phenomena wikiPageWikiLink Fouriers_Law_of_Heat_Conduction.
- Transport_phenomena wikiPageWikiLink Fouriers_law.
- Transport_phenomena wikiPageWikiLink Free_convection.
- Transport_phenomena wikiPageWikiLink Grashof_number.
- Transport_phenomena wikiPageWikiLink Gravitational_force.
- Transport_phenomena wikiPageWikiLink Gravity.
- Transport_phenomena wikiPageWikiLink Heat.
- Transport_phenomena wikiPageWikiLink Heat_conduction.
- Transport_phenomena wikiPageWikiLink Heat_diffusion.
- Transport_phenomena wikiPageWikiLink Heat_equation.
- Transport_phenomena wikiPageWikiLink Heat_flux.
- Transport_phenomena wikiPageWikiLink Heat_transfer.
- Transport_phenomena wikiPageWikiLink Hydrostatics.
- Transport_phenomena wikiPageWikiLink Laminar_flow.
- Transport_phenomena wikiPageWikiLink Lars_Onsager.
- Transport_phenomena wikiPageWikiLink Ludwig_Prandtl.
- Transport_phenomena wikiPageWikiLink MIT_Engineering_Systems_Division.
- Transport_phenomena wikiPageWikiLink Mass.
- Transport_phenomena wikiPageWikiLink Mass_transfer.
- Transport_phenomena wikiPageWikiLink Matter.
- Transport_phenomena wikiPageWikiLink Mechanical_equilibrium.
- Transport_phenomena wikiPageWikiLink Mechanics.
- Transport_phenomena wikiPageWikiLink Metallurgy.
- Transport_phenomena wikiPageWikiLink Microfluidics.
- Transport_phenomena wikiPageWikiLink Molecular_diffusion.
- Transport_phenomena wikiPageWikiLink Molecule.
- Transport_phenomena wikiPageWikiLink Molecules.
- Transport_phenomena wikiPageWikiLink Momentum.
- Transport_phenomena wikiPageWikiLink Momentum_diffusion.
- Transport_phenomena wikiPageWikiLink Natural_convection.
- Transport_phenomena wikiPageWikiLink Navier-Stokes_equations.
- Transport_phenomena wikiPageWikiLink Navier–Stokes_equations.
- Transport_phenomena wikiPageWikiLink Newtonian_fluid.
- Transport_phenomena wikiPageWikiLink Nuclear_reactor.
- Transport_phenomena wikiPageWikiLink Perfusion.
- Transport_phenomena wikiPageWikiLink Phenomena.
- Transport_phenomena wikiPageWikiLink Phenomenon.
- Transport_phenomena wikiPageWikiLink Phonon.
- Transport_phenomena wikiPageWikiLink Phonons.
- Transport_phenomena wikiPageWikiLink Physical_change.
- Transport_phenomena wikiPageWikiLink Physical_system.
- Transport_phenomena wikiPageWikiLink Physics.
- Transport_phenomena wikiPageWikiLink Prandtl_number.
- Transport_phenomena wikiPageWikiLink Pressure.
- Transport_phenomena wikiPageWikiLink Principle_of_minimum_energy.
- Transport_phenomena wikiPageWikiLink Pulse_(physics).
- Transport_phenomena wikiPageWikiLink Radiant_energy.
- Transport_phenomena wikiPageWikiLink Reversible_process_(thermodynamics).
- Transport_phenomena wikiPageWikiLink Reynolds_analogy.
- Transport_phenomena wikiPageWikiLink Second_law_of_thermodynamics.
- Transport_phenomena wikiPageWikiLink Solid-state_physics.
- Transport_phenomena wikiPageWikiLink Solid_state_physics.
- Transport_phenomena wikiPageWikiLink Statistical_mechanics.
- Transport_phenomena wikiPageWikiLink Temperature.