MARC details
| 000 -LEADER |
|---|
| fixed length control field |
13200cam a22003614i 4500 |
| 001 - CONTROL NUMBER |
|---|
| control field |
13933954 |
| 005 - DATE AND TIME OF LATEST TRANSACTION |
|---|
| control field |
20190718131850.0 |
| 008 - FIXED-LENGTH DATA ELEMENTS--GENERAL INFORMATION |
|---|
| fixed length control field |
050418s2006 njua b 001 0 eng |
| 020 ## - INTERNATIONAL STANDARD BOOK NUMBER |
|---|
| International Standard Book Number |
0471739510 |
| 020 ## - INTERNATIONAL STANDARD BOOK NUMBER |
|---|
| International Standard Book Number |
9780471739517 |
| 040 ## - CATALOGING SOURCE |
|---|
| Original cataloging agency |
DLC |
| Description conventions |
rda |
| Transcribing agency |
DLC |
| Modifying agency |
YDX |
| -- |
BAKER |
| -- |
DLC |
| Language of cataloging |
eng |
| 082 00 - DEWEY DECIMAL CLASSIFICATION NUMBER |
|---|
| Classification number |
620.5 |
| Edition number |
22 |
| Item number |
T.L.N |
| 100 1# - MAIN ENTRY--PERSONAL NAME |
|---|
| Personal name |
Theodore, Louis. |
| 9 (RLIN) |
9588 |
| 245 10 - TITLE STATEMENT |
|---|
| Title |
Nanotechnology : |
| Remainder of title |
basic calculations for engineers and scientists / |
| Statement of responsibility, etc |
Louis Theodore. |
| 264 #1 - PUBLICATION, DISTRIBUTION, ETC. (IMPRINT) |
|---|
| Place of publication, distribution, etc |
Hoboken, N.J. : |
| Name of publisher, distributor, etc |
Wiley-Interscience, |
| Date of publication, distribution, etc |
[2006] |
| 264 #4 - PUBLICATION, DISTRIBUTION, ETC. (IMPRINT) |
|---|
| Date of publication, distribution, etc |
copyright 2006 |
| 300 ## - PHYSICAL DESCRIPTION |
|---|
| Extent |
xx, 459 pages : |
| Other physical details |
illustrations ; |
| Dimensions |
25 cm. |
| 336 ## - CONTENT TYPE |
|---|
| Content type term |
text |
| Content type code |
txt |
| Source |
rdacontent |
| 337 ## - MEDIA TYPE |
|---|
| Media type term |
unmediated |
| Media type code |
n |
| Source |
rdamedia |
| 338 ## - CARRIER TYPE |
|---|
| Carrier type term |
volume |
| Carrier type code |
nc |
| Source |
rdacarrier |
| 504 ## - BIBLIOGRAPHY, ETC. NOTE |
|---|
| Bibliography, etc |
Includes bibliographical references and index. |
| 505 0# - FORMATTED CONTENTS NOTE |
|---|
| Formatted contents note |
Preface. Introduction. PART 1: CHEMISTRY FUNDAMENTALS AND PRINCIPLES. 1 Units, Conversion Constants, and Dimensional Analysis. 1.1 Background on the Metric System. 1.2 Describe the SI System of Units. 1.2.1 Seven Base Units. 1.2.2 Two Supplementary Units. 1.2.3 SI Multiples and Prefixes. 1.3 The Conversion Constant gc. 1.4 Unit Conversion Factors: General Approach. 1.5 Temperature Conversions. 1.6 Pressure Calculations. 1.7 Density and Thermal Conductivity. 1.8 Viscosity Conversions. 1.9 Air Quality Standard. 1.10 Conversion Factors for Particulate Measurements. 1.11 Significant Figures and Scientific Notation. 1.12 Uncertainty in Measurement. 2 Atoms, Elements, and the Periodic Table. 2.1 Atomic Theory. 2.2 The Avogadro Number. 2.3 Mass and Size of Atoms. 2.4 Atomic Conversions. 2.5 Atomic Number, Atomic Weight, and Mass Number. 2.6 Bismuth Application. 2.7 Elements. 2.8 Symbols for Elements. 2.9 Periodic Table Application. 2.10 Isotopes. 3 Molecular Rearrangements. 3.1 License Plate Sets. 3.2 Chemical Permutations and Combinations. 3.3 Formula Weight and Molecular Weight. 3.4 Mole/Molecule Relationship. 3.5 Pollutant Chemical Formulas. 3.6 Stoichiometry. 3.7 Limiting and Excess Reactants. 3.8 Combustion of Chlorobenzene. 3.9 Metal Alloy Calculation. 3.10 Chemical Production. 4 Concentration Terms. 4.1 Density, Specific Gravity, and Bulk Density. 4.2 Classes of Solution. 4.3 Molality versus Molarity. 4.4 Molar Relationships. 4.5 Concentration Conversion. 4.6 Chlorine Concentration. 4.7 Trace Concentration. 4.8 Ash Emission. 4.9 Dilution Factor. 4.10 Nano Exhaust to Atmosphere. 4.11 Flue Gas Analysis. 4.12 pH. 5 Particle Size, Surface Area, and Volume. 5.1 Sphere, Cube, Rectangular Parallelepiped, and Cylinder. 5.2 Parallelogram, Triangle, and Trapezoid. 5.3 Polygons. 5.4 Elipse and Ellipsoid. 5.5 Cones. 5.6 Torus. 5.7 Area to Volume Ratios. 5.8 Area to Volume Calculation. 5.9 Increase in Sphere Surface Area. 5.10 Increase in Cube Surface Area. 6 Materials Science Principles. 6.1 Metals, Polymers, and Ceramics. 6.2 Composites, Semiconductors, and Biomaterials. 6.3 Crystal Coordination Numbers. 6.4 Geometry of Metallic Unit Cells. 6.5 Geometry of Ionic Unit Cells. 6.6 Packing Factor. 6.7 Density Calculation. 6.8 Directions and Planes. 6.9 Linear Density. 6.10 Planar Density. 7 Physical and Chemical Property Estimation. 7.1 Property Differences. 7.2 Material Selection. 7.3 Vapor Pressure. 7.4 Vapor Pressure Calculation. 7.5 Heat of Vaporization From Vapor Pressure Data. 7.6 Critical and Reduced Properties. 7.7 Estimating Enthalpy of Vaporization. 7.8 Viscosity. 7.9 Thermal Conductivity. 7.10 Thermal Conductivity Application. 7.11 Nokay Equation and Lydersen's Method. 7.12 The Rihani and Doraiswamy Procedure, and the Lee-Kesler Equation. References: Part 1. PART 2: PARTICLE TECHNOLOGY. 8 Nature of Particulates. 8.1 Definition of Particulates. 8.2 Dust, Smoke, and Fumes. 8.3 Mist and Drizzle. 8.4 Changing Properties. 8.5 Dust Explosions. 8.6 Adsorption and Catalytic Activity in the Atmosphere. 8.7 Particle Size. 8.8 Particle Volume and Surface Area. 8.9 Volume/Surface Area Ratios. 8.10 Particle Formation. 9 Particle Size Distribution. 9.1 Representative Sampling. 9.2 Typical Particle Size Ranges. 9.3 Particle Size Distribution and Concentration for Industrial Particulates. 9.4 Particle Size Distribution. 9.5 Median and Mean Particle Size. 9.6 Standard Deviation. 9.7 The Frequency Distribution Curve. 9.8 The Cumulative Distribution Curve. 9.9 The Normal Distribution. 9.10 The Log Normal Distribution. 9.11 Effect of Size Distribution on Cumulative Distribution Plots. 9.12 Nanoparticle Size Variation With Time. 10 Particle Sizing and Measurement Methods. 10.1 Tyler and U.S. Standard Screens. 10.2 Equivalent Diameter Terms. 10.3 Aerodynamic Diameter. 10.4 Sizing Devices. 10.4.1 Microscopy. 10.4.2 Optical Counters. 10.4.3 Electrical Aerosol Analyzer. 10.4.4 Bahco Microparticle Classifier. 10.4.5 Impactors. 10.4.6 Photon Correlation Spectroscopy (PCS). 10.5 Rectangular Conduit Sampling. 10.6 Volumetric Flow Rate Calculation. 10.7 Particle Mass Flow Rate Calculation. 10.8 Average Particle Concentration. 10.9 Equal Annular Areas for Circular Ducts. 10.10 Traverse Point Location in Circular Ducts. 10.11 Duct Flow Equation Derivation. 10.12 Source Characteristics and Variations. 11 Fluid Particle Dynamics. 11.1 The Gravitational Force. 11.2 The Buoyant Force. 11.3 The Drag Force. 11.4 The Drag Coefficient. 11.5 Equation of Particle Motion/Balance of Forces on a Particle. 11.6 Particle Settling Velocity Equations. 11.7 Determination of the Flow Regime. 11.8 Settling Velocity Application. 11.9 The Cunningham Correction Factor. 11.10 Cunningham Correction Factor Values for Air at Atmospheric Pressure. 11.11 Particle Settling Velocity - Different Regimes. 11.12 Brownian Motion/Molecular Diffusion. 12 Particle Collection Mechanisms. 12.1 Gravity. 12.2 Centrifugal Force. 12.3 Inertial Impaction and Interception. 12.4 Electrostatic Effects. 12.5 Thermophoresis and Diffusiophoresis. 12.6 Acceleration Effects. 12.7 Brownian Motion/Molecular Diffusion Effects. 12.8 Nonspherical Particles. 12.9 Wall Effects. 12.10 Multiparticle Effects. 12.11 Multidimensional Flow. 12.12 Collection Efficiency for Nanosized/Submicron Particles. 13 Particle Collection Efficiency. 13.1 Collection Efficiency: Loading Data. 13.2 Collection Efficiency: Mass Rate. 13.3 Efficiency of Multiple Collectors. 13.4 Penetration. 13.5 Collection Efficiency: Numbers Basis. 13.6 Particle Size-Collection Efficiency Relationships. 13.7 Collection Efficiency: Surface Area Basis. 13.8 Particle Size Distribution/Size-Efficiency Calculation. 13.9 Check for Emission Standards Compliance: Numbers Basis. 13.10 Anderson 2000 Sampler. References: Part 2. PART 3: APPLICATIONS. 14 Legal Considerations. 14.1 Intellectual Property Law. 14.2 Patents. 14.3 Contract Law. 14.4 Tort Law. 14.5 Recent Patent Activity. 14.6 Conservation Law For Mass. 14.7 Conservation Law for Energy. 14.8 The Second Law of Thermodynamics. 14.9 Allowable Patent Application Claims. 14.10 Practicing One's Own Invention. 15 Size Reduction. 15.1 Size Reduction Objectives. 15.2 Plasma-Based and Flame-Hydrolysis Methods. 15.3 Chemical Vapor Deposition and Electrodeposition. 15.4 Sol-Gel Processing. 15.5 Mechanical Crushing. 15.6 Promising Technologies. 15.7 Energy and Power Requirements. 15.8 Potential Dust Explosions With Size Reduction. 15.9 Material Balance Size Reduction. 15.10 Size Reduction Surface Area Increase. 15.11 Fines Eductor Application. 15.12 Fines Eductor Size Reduction. 16 Prime Materials. 16.1 Metals. 16.2 Iron. 16.3 Aluminum. 16.4 Nickel. 16.5 Silver. 16.6 Gold. 16.7 Iron Oxides. 16.8 Aluminum Oxide. 16.9 Zirconium Dioxide. 16.10 Titanium Dioxide. 16.11 Zinc Oxide. 16.12 Silica Products. 17 Production Manufacturing Routes. 17.1 Carbon Nanotubes and Buckyballs. 17.2 Semiconductor Manufacturing. 17.3 Advanced Composites. 17.4 Advanced Ceramics. 17.5 Catalytic and Photocatalytic Applications. 17.6 Gas Sensors and Other Analytical Devices. 17.7 Consumer Products. 17.8 Drug Delivery Mechanisms and Medical Therapeutics. 17.9 Microelectronics Applications. 17.10 Future Activites. 18 Ventilation. 18.1 Indoor Air Quality. 18.2 Indoor Air/Ambient Air Comparison. 18.3 Sources of Contaminents in Indoor Air. 18.4 Industrial Ventilation System. 18.5 Dilution Ventilation vs. Local Exhaust Systems. 18.6 Ventilation Definitions. 18.7 Air Exchange Rate. 18.8 Accidental Emission. 18.9 Dilution Ventilation Application. 18.10 Vinyl Chloride Application. 18.11 Ventilation Models. 18.12 Minimum Ventilation Flowrate. 19 Dispersion Considerations. 19.1 Atmospheric Deposition Calculation. 19.2 Ground Deposition of Particles. 19.3 Plume Rise. 19.4 Pasquill-Gifford Model. 19.5 Ground-Level Particle Deposition. 19.6 Line and Area Sources. 19.7 Instantaneous "Puff" Model. 19.8 Instantaneous "Puff" Sources. 19.9 U.S. EPA Dispersion Models. 19.10 Dispersion in Water Systems and Soils. 19.11 Canal Concentration Profile. 19.12 Accidenctal/Emergency Discharge into a Lake/Reservoir. 20 Ethics. 20.1 Determination of Ethical Values. 20.2 Do's and Dont's. 20.3 Codes of Ethics. 20.4 The Heavy Metal Dilemma. Fact Pattern. 20.5 Let Them Worry About It. Fact Pattern. 20.6 It's In the Air. Fact Pattern. 20.7 Cheap at What Price. Fact Pattern. 20.8 Safety Comes First. Fact Pattern. 20.9 Intellectual Property. Fact Pattern. 20.10 There's No Such Thing as a Free Seminar. Fact Pattern. References: Part 3. PART 4: ENVIRONMENTAL CONCERNS. 21 Environmental Regulations. 21.1 The Regulatory System. 21.2 Air Quality Issues. 21.3 Particulate Loading. 21.4 Clean Air Act Acronyms. 21.5 Water Pollution Control. 21.5.1 Federal Water Pollution Control Act. 21.5.2 Safe Drinking Water Act. 21.5.3 Oil Pollution Control Act. 21.6 Water Quality Issues. 21.7 Clean Water Act and PWPs. 21.8 Wastewater Composition. 21.9 Solid Waste Management Issues. 21.10 Hazardous Waste Incinerator. 21.11 Nanotechnology Environmental Regulations Overview. 21.12 Nanotechnology Opponents. 22 Toxicology. 22.1 The Science of Toxicology. 22.2 Toxicology Classifications. 22.3 Routes of Exposure. 22.4 Threshold Limit Value (TLV). 22.5 Toxicology Terminology. 22.6 TLV vs. PEL. 22.7 Toxicity Factors. 22.8 OSHA and NIOSH. 22.9 Toxicology Determination. 22.10 IDLH and Lethal Level. 22.11 Chemical Exposure. 22.12 Threshold Limit Values. 23 Noncarcinogens. 23.1 Hazard Quotient. 23.2 Reference Dose. 23.3 Concept of Threshold. 23.4 Exposure Duration Classification. 23.5 Risk For Multiple Agents: Chronic Exposure. 23.6 Risk for Multiple Agents: Subchronic Exposure. 23.7 Multiple Exposure Pathways. 23.8 MCL and RfDF. 23.9 Uncertainly and Modifying Factors. 23.10 Calculating an RfD from NOAEL. 23.11 Metal Plating Facility Application. 23.12 Noncarcinogen Calculation Procedure. 24 Carcinogens. 24.1 Nonthreshold Concept. 24.1 Weight of Evidence and Slope Factor. 24.3 Carcinogenic Toxicity Values. 24.4 Benzene in Water Application. 24.5 Excess Lifetime Cancer Cases. 24.6 Action Level. 24.7 Accidental Spill. 24.8 Uncertainties and Limitations. 24.9 Multiple Chemical Agents and Exposure Pathways. 24.10 Exponential Risk Model. 24.11 Risk Algorithm. 24.12 Risk Algorithm Application for Benzene. 25 Health Risk Assessment. 25.1 Risk Definitions. 25.2 The Health Risk Evaluation Process. 25.3 Standand Values for Individuals. 25.4 Qualitative Risk Scenarios. 25.5 Example of a Health Risk Assessment. 25.6 Chemical Exposure in a Laboratory. 25.7 Laboratory Spill. 25.8 Respirators. 25.9 Performance of a Carbon Cartridge Respirator. 25.10 Sampling Program. 26 Hazard Risk Assessment. 26.1 Example of a Hazard. 26.2 Risk Evaluation Process for Accidents. 26.3 Plant and Process Safety. 26.4 Series and Parallel Systems. 26.5 Binomial Distribution. 26.6 The Poisson Distribution. 26.7 The Weibull Distribution. 26.8 The Normal Distribution. 26.9 Soil Contamination. 26.10 Event Tree Analysis. 26.11 Fault Tree Analysis. 26.12 Upper and Lower Flamability Limits. 27 Epidemiology. 27.1 Historical View. 27.2 Occupational Health. 27.3 Descriptive Studies. 27.4 Probability. 27.5 Prevalence. 27.6 Incidence Rate. 27.7 The Mean. 27.8 The Variance and the Standard Deviation. References: Part 4. Appendix Quantum Mechanics. Index. |
| 520 ## - SUMMARY, ETC. |
|---|
| Summary, etc |
Nanotechnology: Basic Calculations for Engineers and Scientists addresses the needs of the environmental engineer and scientist in industry. With 200 worked calculation problems and solutions, this book bridges the gap between the developing industry of nanomanufacturing and the existing understanding of environmental issues. |
| 650 #0 - SUBJECT ADDED ENTRY--TOPICAL TERM |
|---|
| Topical term or geographic name as entry element |
Nanotechnology |
| General subdivision |
Mathematics |
| Form subdivision |
Problems, exercises, etc. |
| 856 42 - ELECTRONIC LOCATION AND ACCESS |
|---|
| Materials specified |
Publisher description |
| Uniform Resource Identifier |
<a href="http://www.loc.gov/catdir/enhancements/fy0624/2005047794-d.html">http://www.loc.gov/catdir/enhancements/fy0624/2005047794-d.html</a> |
| 856 41 - ELECTRONIC LOCATION AND ACCESS |
|---|
| Materials specified |
Table of contents only |
| Uniform Resource Identifier |
<a href="http://www.loc.gov/catdir/enhancements/fy0624/2005047794-t.html">http://www.loc.gov/catdir/enhancements/fy0624/2005047794-t.html</a> |
| 856 42 - ELECTRONIC LOCATION AND ACCESS |
|---|
| Materials specified |
Contributor biographical information |
| Uniform Resource Identifier |
<a href="http://www.loc.gov/catdir/enhancements/fy0648/2005047794-b.html">http://www.loc.gov/catdir/enhancements/fy0648/2005047794-b.html</a> |
| 856 42 - ELECTRONIC LOCATION AND ACCESS |
|---|
| Materials specified |
Book review (E-STREAMS) |
| Uniform Resource Identifier |
<a href="http://www.e-streams.com/es1002/es1002_4557.html">http://www.e-streams.com/es1002/es1002_4557.html</a> |
| 906 ## - LOCAL DATA ELEMENT F, LDF (RLIN) |
|---|
| a |
7 |
| b |
cbc |
| c |
orignew |
| d |
1 |
| e |
ocip |
| f |
20 |
| g |
y-gencatlg |
| 942 ## - ADDED ENTRY ELEMENTS (KOHA) |
|---|
| Source of classification or shelving scheme |
Dewey Decimal Classification |
| Koha item type |
Books |