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McHardy J., Sawan S.P. — See Inside! Supercritical Fluid Cleaning by Samuel P. Haber: Book Cover * o Table of Contents Supercritical Fluid Cleaning: Fundamentals, Technology and Applications
McHardy J., Sawan  S.P. — See Inside! Supercritical Fluid Cleaning by Samuel P. Haber: Book Cover      *           o              Table of Contents  Supercritical Fluid Cleaning: Fundamentals, Technology and Applications



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Название: See Inside! Supercritical Fluid Cleaning by Samuel P. Haber: Book Cover * o Table of Contents Supercritical Fluid Cleaning: Fundamentals, Technology and Applications

Авторы: McHardy J., Sawan S.P.

Аннотация:

Although supercritial fluid (SCF) technology is now widely used in extraction and purification processes (in the petrochemical, food and pharmaceuticals industries), this book is the first to address the new application of cleaning. The objective is to provide a roadmap for readers who want to know whether SCF technology can meet their own processing and cleaning needs. It is particularly helpful to those striving to balance the requirements for a clean product and a clean environment. The interdisciplinary subject matter will appeal to scientists and engineers in all specialties ranging from materials and polymer sciences to chemistry and physics. It is also useful to those developing new processes for other applications, and references given at the end of each chapter provide links to the wider body of SCF literature.

The book is organized with topics progressing from the fundamental nature of the supercritical state, through process conditions and materials interactions, to economic considerations. Practical examples are included to show how the technology has been successfully applied. The first four chapters consider principles governing SCF processing, detailing issues such as solubility, design for cleanability, and the dynamics of particle removal. The next three chapters discuss surfactants and microemulsions, SCF interaction with polymers, and the use of supercritical carbon dioxide (CO2) as a cleaning solvent. The closing chapters focus on more practical considerations such as scaleup, equipment costs, and financial analysis.


Язык: en

Рубрика: Технология/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 1998

Количество страниц: 290

Добавлена в каталог: 26.06.2009

Операции: Положить на полку | Скопировать ссылку для форума | Скопировать ID
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Предметный указатель
Secondary solvent      27
SEM      207
SEMATECH      246 263
Semi-aqueous cleaning systems      163
Semiconductor wafers      70
Semicrystalline materials      149
Separation process      36
Separator tanks      109
Separator vessel      126
Series/parallel combination      257
SFPC      220
Shape factors      242
Shear      71 78
Shear stress      75
Shipping container      45
Significant New Alternatives Policy      196
Silicone oil      168
Silicones      270
Similarity      242 243
Similitude      221
Single-cycle system      248
Size of system      251
Skin      166
Small angle neutron      103
Small angle x-ray scattering      103
Smooth surface      34
Snap      196
Soak time      214
Sodium bis(2-ethylhexyl) sulfosuccinate      94
Sodium dodecyl sulfate      101
Soil      107
Soil, type      23
Solubility      23 24 125 231 235
Solubility parameters      12 270
Solubility, enhancers      27
Solubility, tuning      10
Solubilization      139
Solute concentration      26
Solvating power      25
Solvatochromic changes      102
Solvatochromic shifts      10
Solvent-free cleaning      39
Solvent/contaminant interaction      222
Solvents      9 19 88 269
Solvents, cleaning      22 163
Solvents, entrainers      116
Solvents, power      11 88 93
Sorption      35
Sorption of polymers      126
Sorption phenomena      33
Sorption, of carbon dioxide      137
Spectroscopy      102 103
Spherical particles      71
Spray-rinse      44
springs      52
Squalene      166
Stahl, Egon      11
Stainless steel      167 170 171 172 197 253 254
Stake’s drag      78
States of matter      5
Steel, alloy      254
Stirring      274
Stirring propeller      212
Storage      45
Stream velocity      74 82
Stress-strain      150
Strong plastic      151
Subcritical cleaning systems      254
Sublimation vapor pressure      4
Substrate surface      34
Supercritical fluid      1 6 267
Supercritical fluid, chromatography      2
Supercritical fluid, extractor      165
Supercritical fluid, microemulsion      89
Supercritical fluid, parts cleaning      220
Supercritical, carbon dioxide      2 22 25 71 80 84 88 104
Supercritical, region      6
Supercritical, state      1
Support personnel      263
surface      34
Surface adhesion      50
Surface interactions      33 172
Surface roughness      77
Surface tension      34 122 198 277
Surface-active agent      92
Surfactant      87 89 91 92 93 109
Surfactant systems      94 98
Sweeping motion      84
Swelling      141 143
Swelling, polymer      125 126
System dynamics      231
System size      251
TCA      41
Temperature      253
Temperature change, effect      136
Temperature-pressure chart      4
tensile strength      15 0
Terpenes      163
Test cube      207
Test stand      231
Tetracontane      169
Textiles      108
TGA      143
Thermal similarity      229
Thermoplastics      198 208 210
Thermoset polymers      198
Threaded fasteners      52
Three-body interactions      269
Threshold pressure      26
Through-holes      52
Time factors      223
Tough plastic      151
Toughness      150
Toxic substances      107
Toxicity      196
Transport properties      272
Transport rates      112
Trapped contaminants      35
Trichloroethane      41 195
Trichlorotrifluoroethane      23
Triglycerol      166
Trimethylphosphate      172
Triolein      166
Triple point      4
Tunability      268 272
Turbulence      35 235
Turbulent boundary layer      73
Turbulent core      73
Turbulent flow      71
Turbulent flow, laws      74
Turbulent kinetic energy      75
Ultrasonic cleaning      53
Uniaxis assembly      48
Uniformity of cleaning      275
Unimers      94
Utility costs      251
Vacuum pressure cleaning      215
Van der Waal’s force      72
Van der Waal’s interaction      77
vapor pressure      5 7 256
Vaporization      7 278
Variable pressure process      208
Velocity profile      71 75
Vessel design      221
Vessel open volume exchange      256
Vessel sizes      251
viscosity      9 19 80 122 231 273
Viscous sublayer      73 75
Volatile contaminants      36
Volatility      26
Volume turnover      235
VPC      215
wafers      70
Wall shear      79
Wall shear stress      75
Water      16
Water miscible machining fluids      168
Water volume      93
Water-based rinse system      44
Water-cleanable      38 45
Water-in-oil microemulsions      90 92
Water-soluble cutting fluids      41
Water-to-surfactant ratio      93
Wax      169
Weight change      136 143
Weight change, of polymers      134
Wetting      122
Xenon      113
Xylene cleaning process      263
Yield strength      150 151
Zero order limit      277
Zwitterionic surfactant      91 98
“Berty” autoclave      232
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