000 | 01597nam a2200217Ia 4500 | ||
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003 | NULRC | ||
005 | 20250520102901.0 | ||
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020 | _a131758454 | ||
040 | _cNULRC | ||
050 | _aTJ 260 .P68 1994 | ||
100 |
_aPoulikakos, D. _eauthor |
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245 | 0 |
_aConduction heat transfer / _cD. Poulikakos |
|
260 |
_aNew Jersey : _bPrentice-Hall, _cc1994 |
||
300 |
_axiv, 353 pages : _billustrations ; _c25 cm. |
||
504 | _aIncludes bibliographical references. | ||
505 | _aContents: The energy equation in heat conduction and common types of boundary conditions-- review of representative basic problems in heat condition-- multidimensional steady conduction: the method of separation of variables-- transient conduction with time-independent boundary conditions-- transient conduction with time-dependent boundary conditions-- transient conduction involving heat sources or sinks-- solution of transient heat conduction problems utilizing laplace transforms-- heat conduction in the presence of freezing or melting characterized by a sharp interface-- heat conduction during the freezing of binary alloys-- numerical solution of heat conduction problems-- recommended term projects in heat conduction. | ||
520 | _aThis introduction to conduction heat transfer blends a description of the necessary mathematics with contemporary engineering applications. Examples include: heat transfer in manufacturing processes, the cooling of electronic equipment and heat transfer in various applications. | ||
650 | _aHEAT -- CONDUCTION | ||
942 |
_2lcc _cBK |
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999 |
_c17794 _d17794 |