Autore	Carberry James J
Pubbl/distr/stampa	[Place of publication not identified], : Dover Publications, 2001
Disciplina	660/.2
Soggetto topico	Chemical processes Catalysis Chemical & Materials Engineering Engineering & Applied Sciences Chemical Engineering
ISBN	1-62870-818-2
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	eng
Record Nr.	UNINA-9911007048103321

Edizione	[1st edition]
Pubbl/distr/stampa	Boca Raton : , : CRC Press, , [2014]
Descrizione fisica	1 online resource (442 p.)
Disciplina	660.2 660/.2
Soggetto topico	Incrustations - Prevention Descaling
ISBN	0-429-09528-7 1-4665-6864-X
Classificazione	SCI013060TEC010030
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	eng
Nota di contenuto	part I. Industrial: Carbonate, sulfate, phosphate, and fluoride scales -- part II. Industrial: Sulfate, silica, and silicate scales -- part III. Biological: Oxalate and hydroxyapatite scales -- part Ivolume Industrial: Suspended matter and oil dispersion -- part volume Scale/deposit characterization techniques.
Record Nr.	UNINA-9910787569203321

Edizione	[2nd ed.]
Pubbl/distr/stampa	Chichester, West Sussex, : Wiley, 2010
Descrizione fisica	1 online resource (583 p.)
Disciplina	660/.2
Altri autori (Persone)	BakeevKatherine A
Soggetto topico	Chemistry, Technical Analytical chemistry - Technological innovations Analytical chemistry - Technique Spectrum analysis Pharmaceutical chemistry
ISBN	9786612689413 9781282689411 128268941X 9780470689592 0470689595 9780470689608 0470689609
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	eng
Nota di contenuto	Machine generated contents note: Chapter 1 -- Overview of Process Analysis and PAT -- Jason E. Dickens -- 1.1 Introduction -- 1.2 Execution of Process Analysis Projects -- 1.3 Process Instrumentation -- 1.4 Conclusions -- 1.5 Glossy of Acronyms and Terms -- 1.6 References -- Chapter 2 -- Implementation of Process Analytical Technologies -- Robert Guenard and Gert Thurau -- 2.1 Introduction to implementation of process analytical technologies (PAT) in the industrial setting -- 2.2 Generalized process analytics work process -- 2.3 Considerations for PAT implementation in the pharmaceutical industry -- 2.4 Conclusions -- 2.5 References -- Chapter 3 -- Process Sampling: Theory of Sampling - the missing link in Process Analytical Technologies (PAT) -- Kim H. Esbensen and Peter Paasch-Mortensen -- 3.1 Introduction -- 3.2 Theory of Sampling TOS - introduction -- 3.3 Mass reduction as a specific sampling procedure -- 3.4 Fundamental Sampling Principle (FSP) -- 3.5 Sampling - a very practical issue -- 3.6 Reactors vessels - identical process sampling issues -- 3.7 Heterogeneity characterisaton of 1-d lots: variography -- 3.8 Data Quality - new insight from THE TOS -- 3.9 Validation in chemometrics AND PAT -- 3.10 Summary -- References -- Chapter 4 -- UV-visible spectroscopy for On-Line Analysis -- Marcel A. Liauw, Lewis C. Baylor and Patrick E. O'Rourke -- 4.1 Introduction -- 4.2 Theory -- 4.3 Instrumentation -- 4.4 Sample interface -- 4.5 Implementation -- 4.6 Applications -- 4.7 Detailed application notes -- 4.8 Conclusion -- References -- Chapter 5 -- Near-infrared Spectroscopy for Process Analytical Technology : Theory, Technology and Implementation -- Michael B. Simpson -- 5.1 Introduction -- 5.2 Theory of near-infrared spectroscopy -- 5.3 Analyser technologies in the near-infrared -- 5.4 The sampling interface -- 5.5 Practical examples of near-infrared analytical applications -- 5.6 Conclusion -- References -- Chapter 6 -- Infrared Spectroscopy for Process Analytical Applications -- John P. Coates -- 6.1 Introduction -- 6.2 Practical aspects of IR Spectroscopy -- 6.3 Instrumentation Design and Technology -- 6.4 Process IR Instrumentation -- 6.5 Applications of Process IR Analyzers -- 6.6 Process IR Analyzers: A Review -- 6.7 Trends and Directions -- Abbreviations and Acronyms -- References -- Chapter 7 -- Raman Spectroscopy -- Dr. Nancy L. Jestel -- 7.1 Attractive features of Raman spectroscopy -- 7.2 Potential issues with Raman spectroscopy -- 7.3 Fundamentals of Raman spectroscopy -- 7.4 Raman instrumentation -- 7.5 Quantitative Raman -- 7.6 Applications -- 7.7 Current state of process Raman spectroscopy -- 7.8 References -- Chapter 8 -- Near-Infrared Chemical Imaging for Product and Process Understanding -- E. Neil Lewis, Joseph W. Schoppelrei, Lisa Makein, Linda H. Kidder and Eunah Lee -- 8.1 The PAT initiative -- 8.2 The role of near-infrared chemical imaging (NIR-CI) in the pharmaceutical industry -- 8.3 Evolution of NIR imaging instrumentation -- 8.4 Chemical imaging principles -- 8.5 PAT applications -- 8.6 Processing case study one: estimating 'abundance' of sample components -- 8.7 Processing case study two: determining blend homogeneity through statistical analysis -- 8.8 Final thoughts -- Acknowledgements -- Chapter 9: -- Acoustic chemometric monitoring of industrial production processes -- Maths Halstensen & Kim H. Esbensen -- 9.1 What is acoustic chemometrics? -- 9.2 How acoustic chemometrics works -- 9.3 Industrial production process monitoring -- 9.4 Available on-line acoustic chemometric equipment -- 9.5 Discussion -- 9.6 Conclusions -- 9.7 References -- Chapter 10 -- Process NMR Spectroscopy: Technology and On-line Applications -- John C. Edwards, Ph.D. and Paul J. Giammatteo, Ph.D. -- 10.1 Introduction -- 10.2NMR Spectroscopy Overview -- 10.3 Process NMR Instrumentation -- 10.4 Postprocessing methodologies for NMR data -- 10.5 Advantages and limitations of NMR as a process analytical technology -- 10.6 On-line and at-line applications -- 10.7 Current Development and Applications -- 10.8 Conclusions -- References -- Chapter 11 -- Fluorescent Sensing and Process Analytical Applications -- Jason E. Dickens -- 11.1 Introduction -- 11.2 Luminescence fundamentals -- 11.3 LIF sensing fundamentals -- 11.4 LIF sensing instrumentation -- 11.5 Luminescent detection risks -- 11.6 Process analytical technology applications -- 11.7 Conclusions -- References -- Chapter 12 -- Chemometrics in Process Analytical Technology (PAT) -- Charles E. Miller -- 12.1 Introduction -- 12.2 Foundations of Chemometrics -- 12.3 Chemometric Methods in PAT -- 12.4 Overfitting and Model Validation -- 12.5 Outliers -- 12.6 Calibration Strategies in PAT -- 12.7 Sample and Variable Selection in Chemometrics -- 12.8 Troubleshooting/Improving an Existing Method -- 12.9 Calibration Transfer and Instrument Standardization -- 12.10 Chemometric Model Deployment Issues in PAT -- 12.11 People Issues -- 12.12 The Final Word -- Chapter 13 -- On-line PAT Applications of Spectroscopy in the Pharmaceutical Industry -- Brandye Smith-Goettler -- 13.1 Background -- 13.2 Reaction monitoring -- 13.3 Crystallization -- 13.4 API drying -- 13.5 Nanomilling -- 13.6 Hot-melt extrusion -- 13.7 Granulation -- 13.8 Powder blending -- 13.9 Compression -- 13.10 Coating -- 13.11 Biologics -- 13.12 Cleaning validation -- 13.13 Conclusions -- References -- Chapter 14 -- NIR spectroscopy in pharmaceutical analysis: Off-line and At-line PAT Applications -- Prof. Marcelo Blanco Romi;a -- 14.1 Introduction -- 14.2 Foundation of qualitative method development -- 14.3 Foundation of quantitative method development -- 14.4 Method validation -- 14.5 Calibration transfer -- 14.6 Pharmaceutical applications -- 14.7 Conclusions -- Chapter 15 -- Near-Infrared Spectroscopy (NIR) as a PAT tool in the Chemical Industry: Added value and implementation challenges -- Ann M. Brearley and Susan J. Foulk -- 15.1 Introduction -- 15.2 Successful process analyzer implementation -- 15.3 Example applications -- Chapter 16 -- Future trends for PAT for increased process understanding and growing applications in biomanufacturing -- Katherine A. Bakeev and Jose C. Menezes -- 16.1 Introduction -- 16.2 Regulatory Guidance and its Impact on PAT -- 16.3 Going Beyond Process Analyzers Towards Solutions -- 16.4 Emerging Application Areas of PAT -- 16.5 New and Emerging Sensor and Control Technologies -- 16.6 Advances in sampling: NeSSI[trademark symbol] -- 16.7 Challenges Ahead -- 16.8 Conclusion -- References.
Record Nr.	UNINA-9911019377003321

Pubbl/distr/stampa	Oxford, UK ; ; Ames, Iowa, : Blackwell Pub., 2005
Descrizione fisica	1 online resource (476 p.)
Disciplina	660.2 660.29 660/.2
Altri autori (Persone)	BakeevKatherine A
Soggetto topico	Chemical process control - Industrial applications Chemistry, Technical Chemistry, Analytic - Technological innovations Chemistry, Analytic - Technique Spectrum analysis Pharmaceutical chemistry
ISBN	1-280-74787-0 9786610747870 0-470-98845-2 1-4051-7319-X
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	eng
Nota di contenuto	Process Analytical Technology : Spectroscopic Tools and Implementation Strategies for the Chemical and Pharmaceutical Industries; Contents; Contributors; Preface; List of Abbreviations; 1 Process Analytical Chemistry: Introduction and Historical Perspective; 1.1 Historical perspective; 1.2 Early instrument development; 1.3 Sampling systems; 1.4 Examples; References; 2 Implementation of Process Analytical Technologies; 2.1 Introduction to implementation of process analytical technologies (PATs) in the industrial setting; 2.1.1 Definition of process analytics 2.1.2 Differences between process analyzers and laboratory analysis2.1.3 General industrial drivers for process analytics; 2.1.4 Types of applications (R&D vs. Manufacturing); 2.1.5 Organizational considerations; 2.2 Generalized process analytics work process; 2.2.1 Project identification and definition; 2.2.2 Analytical application development; 2.2.3 Design, specify and procure; 2.2.4 Implementation in production; 2.2.5 Routine operation; 2.2.6 Continuous improvement; 2.3 Differences between implementation in chemical and pharmaceutical industries; 2.3.1 Introduction; 2.3.2 Business model 2.3.3 Technical differences2.3.4 Regulatory differences; 2.4 Conclusions; References; 3 Near-Infrared Spectroscopy for Process Analytical Chemistry: Theory, Technology and Implementation; 3.1 Introduction; 3.2 Theory of near-infrared spectroscopy; 3.2.1 Molecular vibrations; 3.2.2 Anharmonicity of the potential well; 3.2.3 Combination and overtone absorptions in the near-infrared; 3.2.4 Examples of useful near-infrared absorption bands; 3.3 Analyser technologies in the near-infrared; 3.3.1 The scanning grating monochromator; 3.3.2 Light sources and detectors for near-infrared analysers 3.3.3 The polychromator photodiode-array analyser3.3.4 The acousto-optic tunable (AOTF) analyser; 3.3.5 Fourier transform near-infrared analysers; 3.4 The sampling interface; 3.4.1 Introduction; 3.4.2 Further discussion of sampling issues; 3.4.3 The use of fibre-optics; 3.5 Conclusion; Bibliography; 4 Infrared Spectroscopy for Process Analytical Applications; Abstract; 4.1 Introduction; 4.2 Basic IR spectroscopy; 4.3 Instrumentation design and technology; 4.4 Process IR instrumentation; 4.4.1 Commercially available IR instruments; 4.4.2 Important IR component technologies 4.4.3 New technologies for IR components and instruments4.4.4 Requirements for process infrared analyzers; 4.4.5 Sample handling for IR process analyzers; 4.4.6 Issues for consideration in the implementation of process IR; 4.5 Applications of process IR analyzers; 4.6 Process IR analyzers: A review; 4.7 Trends and directions; References; 5 Process Raman Spectroscopy; 5.1 How Raman spectroscopy works; 5.2 When Raman spectroscopy works well and when it does not; 5.2.1 Advantages; 5.2.2 Disadvantages and risks; 5.3 What are the special design issues for process Raman instruments?; 5.3.1 Safety 5.3.2 Laser wavelength selection
Record Nr.	UNISA-996205512603316

Autore	Speegle Michael
Pubbl/distr/stampa	[Place of publication not identified], : Delmar Cengage Learning, 2013
Disciplina	660/.2
Soggetto topico	Chemical processes - Safety measures Chemical engineering - Safety measures Chemical engineers - Health and hygiene Chemical & Materials Engineering Engineering & Applied Sciences Chemical Engineering
ISBN	9781133713050 113371305X 9781621986966 1621986969
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	eng
Record Nr.	UNINA-9911004774703321