Convection Books
DIFFUSION theory AND ODOUR CONTROL LECTURE NOTE
Author: MRS NWOSU & DR EMERIBEOLE
School: Federal University of Technology, Owerri
Department: Science and Technology
Course Code: EVT417
Topics: Heat, Fourier's law, wien's Law, kirchoff's law, stefan b.hozman's law, convection, radiation, Fick's law, Gaussian distribution model, odoural gases
Author: JKC Obichere
School: Federal University of Technology, Owerri
Department: Engineering
Course Code: MCE309
Topics: electrostatic, convection currents, conduction currents, polarization in dielectrics, dielectric constant, dielectric strength, linear dielectrics, isotropic dielectrics, homogeneous dielectrics, continuity equation, relaxation time, boundary conditions
Author: JP Holman
School: Federal University of Technology, Owerri
Department: Engineering
Course Code: ENG304, MEE413
Topics: Steady-State Conduction, Unsteady-State Conduction, radiation heat transfer, natural convection systems, heat exchangers, mass transfer
Solution manual to accompany Heat transfer, Tenth edittion
Author: JP Holman
School: Federal University of Technology, Owerri
Department: Engineering
Course Code: ENG304, MEE413
Topics: Steady-State Conduction, Unsteady-State Conduction, radiation heat transfer, natural convection systems, heat exchangers, mass transfer
Lectures on Heat and Thermodynamics
Author: Michael Fowler
School: University of Ibadan
Department: Science and Technology
Course Code: PHY103
Topics: heat, thermal expansion, gas law, energy conservation, heat flow, latent heat, specific heat, calorimetry, Kinetic theory of gases, Velocity space, potential energy, Brownian motion, ideal gas thermodynamics, specific heat, isotherm, adiabat, heat engine, carnot cycle, engine efficiency, entropy, molecular collision, mean free path, conduction, convection, radiation
Applied Thermodynamics for engineering technologists ,5th edition
Author: TD Eastop, McConkey
School: Federal University, Oye-Ekiti
Department: Engineering
Course Code: MEE205
Topics: Thermodynamics, steady-flow equation, working fluid, reversible process, polytropic process, heat engine, entropy, exergy, heat engine cycle, carnot cycle absolute temperature scale, constant pressure cycle, air standard cycle. Otto cycle, diesel cycle, dual combustion cycle, combustion, fuels, combustion equations, enthalpy, power plant thermal efficiency, steam cycles, rankine cycle, gas turbine cycles, nozzles, jet propulsion, rotodynamic machinery, reciprocating internal-combustion engines, engine output, engine efficiency, supercharging, refrigeration, heat pumps, reversed heat engine cycles, vapour-compression cycles, gas cycles, psychrometry, air-conditioning, heat transfer, conduction equation, conduction, convection, heat exchangers, black-body radiation, combined cycles
Physics for university beginners Vol 1
Author: Adekola Adewale
School: University of Lagos
Department: Science and Technology
Course Code: FSC115
Topics: fundamental quantities, derived quantities, dimension, scalars, vectors, vector representation, unit vectors, vector multiplication, kinematics, displacement, speed, velocity, acceleration, freely falling bodies, projectile motion, horizontal projectile motion, Newton's laws of motion, elastic collision, inelastic collision, friction, circular motion, gravitation, angular speed, angular acceleration, conical pendulum, Banking, free-fall acceleration, gravitational potential energy, satellite motion, velocity escape, Kepler's law, work, energy, power, energy conversion, Kinetic energy, conservative forces, vector moment, mechanical equilibrium, rigid bodies rotation, moment of Inertia, Parallel Axis theorem, Hooke's law, stress, strain, density, fluid mechanics, fluid pressure, Pascal's Principle, Buoyancy principle, Archimedes Principle. fluid dynamics, Bernoulli principle, surface tension, Poiseuille's law, capillarity, Stoke's law, thermal physics, temperature scales, thermometers, Zeroth law of thermodynamics, thermal expansion, thermal stress, heat quantity, Latent heat, heat transfer, conduction, convection, radiation, Gas laws, Kinetic theory of gases, Thermodynamic processes, Adiabatic processes, Isobaric processes, Isochoric processes, Thermal efficiency, Carnot cycle, Refrigerator, Entropy
Engineering Flow and Heat Exchange,Third edition
Author: Octave Levenspiel
School: University of Nigeria, Nsukka
Department: Engineering
Course Code: MEC361
Topics: pumping energy, power ideal case, Compressible Flow of Gases, Molecular Flow, Non-Newtonian Fluids, Packed Beds, Fluidized Beds, Heat Exchange, Conduction, Convection, Radiation, Heat Transfer Resistances, Unsteady-State Heating, Cooling of Solid Objects, Heat Exchangers, Recuperators, Fluidized Bed Exchangers, Heat Regenerators
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