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Integral Transforms in Computational Heat and Fluid Flow is a
comprehensive volume that emphasizes the generalized integral
transform technique (G.I.T.T.) and the developments that have made
the technique a powerful computational tool of practical interest.
The book progressively demonstrates the approach through
increasingly difficult extensions and test problems. It begins with
an overview of the generalized integral transform technique in
contrast with classical analytical ideas.
Various applications are presented throughout the book, including
transient fin analysis with time-dependent surface dissipation,
laminar forced convection inside externally finned tubes, metals
oxidation at high temperatures, forced convection in liquid metals,
and Navier-Stokes equations.
This Handbook provides researchers, faculty, design engineers in
industrial R&D, and practicing engineers in the field concise
treatments of advanced and more-recently established topics in
thermal science and engineering, with an important emphasis on
micro- and nanosystems, not covered in earlier references on
applied thermal science, heat transfer or relevant aspects of
mechanical/chemical engineering. Major sections address new
developments in heat transfer, transport phenomena, single- and
multiphase flows with energy transfer, thermal-bioengineering,
thermal radiation, combined mode heat transfer, coupled heat and
mass transfer, and energy systems. Energy transport at the
macro-scale and micro/nano-scales is also included. The
internationally recognized team of authors adopt a consistent and
systematic approach and writing style, including ample cross
reference among topics, offering readers a user-friendly
knowledgebase greater than the sum of its parts, perfect for
frequent consultation. The Handbook of Thermal Science and
Engineering is ideal for academic and professional readers in the
traditional and emerging areas of mechanical engineering, chemical
engineering, aerospace engineering, bioengineering, electronics
fabrication, energy, and manufacturing concerned with the influence
thermal phenomena.
This Handbook provides researchers, faculty, design engineers in
industrial R&D, and practicing engineers in the field concise
treatments of advanced and more-recently established topics in
thermal science and engineering, with an important emphasis on
micro- and nanosystems, not covered in earlier references on
applied thermal science, heat transfer or relevant aspects of
mechanical/chemical engineering. Major sections address new
developments in heat transfer, transport phenomena, single- and
multiphase flows with energy transfer, thermal-bioengineering,
thermal radiation, combined mode heat transfer, coupled heat and
mass transfer, and energy systems. Energy transport at the
macro-scale and micro/nano-scales is also included. The
internationally recognized team of authors adopt a consistent and
systematic approach and writing style, including ample cross
reference among topics, offering readers a user-friendly
knowledgebase greater than the sum of its parts, perfect for
frequent consultation. The Handbook of Thermal Science and
Engineering is ideal for academic and professional readers in the
traditional and emerging areas of mechanical engineering, chemical
engineering, aerospace engineering, bioengineering, electronics
fabrication, energy, and manufacturing concerned with the influence
thermal phenomena.
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