| 000 | 01777nam a2200181Ia 4500 | ||
|---|---|---|---|
| 008 | 140223b2002 xxu||||| |||| 00| 0 eng d | ||
| 020 |
_a9780824796181 _c0.00 |
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| 082 |
_a660.28426 _bKUD |
||
| 100 | _aKudra, Tadeusz | ||
| 245 | _aAdvanced Drying Technologies | ||
| 260 |
_aNew York _bMarcel Dekker, Inc. _c2002 |
||
| 300 | _a459p | ||
| 500 | _aPart: 1 General Discussion: Conventional and Novel Drying Concepts The Need for Advanced Drying Technologies Classification and Selection Criteria: Conventional Versus Novel Technologies Innovation and Trends in Drying Technologies Part: 2 Selected Advanced Drying Technologies Drying on Inert Particles Impinging Stream Drying Drying in Pulsed Fluid Beds Superheated Steam Drying Airless Drying Drying in Mobilized Bed Drying with Shock Waves Vacu Jet Drying System Contact-Sorption Drying Sonic Drying Pulse Combustion Drying Heat Pump Drying Part: 3 Selected Techniques for Drying and Dewatering The Carver-Greenfield Process Drying in a Plasma Torch Displacement Drying Vapor Drying Slush Drying Atmospheric Freeze Drying Part: 4 Hybrid Drying Technologies Radio Frequency Drying with 50 Ohm Technology Radio Frequency Assisted Heat-Pump Drying Radio Frequency-Vacuum Drying Microwave Convective Drying Microwave Vacuum Drying Filtermat Drying Spray-Fluid Bed-Vibrated Fluid Bed Drying Combined Filtration and Drying Other Hybrid Technologies Part: 5 Other Techniques Special Drying Technologies Symbols Reference Index | ||
| 600 | _aChemical Engineering | ||
| 700 | _aMajmudar, Arun S. | ||
| 890 | _aUK | ||
| 995 |
_AKUD _B005017 _CCHT-NIT _D6632.01 _E0 _F049 _G00022 _H0 _I0.00 _J9147.60 27.5% _L20061006 _M01 _UC _W20061101 _XPustak _ZReference |
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| 999 |
_c44192 _d44192 |
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