Pharmaceutical process engineering / Anthony J Hickey, David Ganderton
Series: Drugs and the pharmaceutical sciences ; V. 195Publisher: New York : Informa healthcare, ©2010Edition: 2th. edDescription: xiv, 222 páginas : ilustraciones, tablas ; 23 cmContent type: texto Media type: no mediado Carrier type: volumenISBN: 9781420084757Subject(s): Biomédica | Ingenieria de la produccion | Tecnologia farmaceuticaDDC classification: 615.19Item type | Current location | Collection | Call number | Vol info | Status | Date due | Barcode | Item holds |
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B. Campus los Cerros Colección general | Colección general | 615.19 H526 (Browse shelf) | 2010 | Available | 0000053874 |
Enhanced descriptions from Syndetics:
With step-by-step methods of drug production and knowledge of major unit operations and key concepts of pharmaceutical engineering, this guide will help to improve communication among the varied professionals working in the pharmaceutical industry.
Key features:
REVISION OF A BESTSELLER - Updates include recent advances in the field to keep pharmaceutical scientists and technologists up-to-date
IDEAL INTRODUCTORY TEXT - Covers basic engineering principles, drug production, and development processes, so scientists can easily convert bulk pharmaceutical products into patient-ready dosage forms
NEW INFORMATION - on quality principles that include quality by design; mathematical and statistical approaches to experimental design; computer aided design; and PAT (process analytical technology) keeps professionals at the forefront of their field
COMPREHENSIVE COVERAGE - Step-by-step methods of drug production, knowledge of major unit operations, and key concepts of pharmaceutical engineering will help to improve communication among the varied professionals working in the pharmaceutical industry
Include index and bibliography.
Fluid flow. -- Heat transfer. -- Mass transfer. -- Powders. -- Air conditioning and humidification. -- Drying. -- Solidliquid extraction. -- Crystallization. -- Evaporation and distillation. -- Filtration. -- Size reduction and classification. -- Mixing. -- Solid dosage forms. -- Sterilization. -- Bioprocessing. -- Quality principles. -- Quality by design. -- Experimental design. -- Process analytical technology.
With step-by-step methods of drug production and knowledge of major unit operations and key concepts of pharmaceutical engineering, this guide will help to improve communication among the varied professionals working in the pharmaceutical industry. Key features: REVISION OF A BESTSELLER - Updates include recent advances in the field to keep pharmaceutical scientists and technologists up-to-date IDEAL INTRODUCTORY TEXT - Covers basic engineering principles, drug production, and development processes, so scientists can easily convert bulk pharmaceutical products into patient-ready dosage forms NEW INFORMATION - on quality principles that include quality by design; mathematical and statistical approaches to experimental design; computer aided design; and PAT (process analytical technology) keeps professionals at the forefront of their field COMPREHENSIVE COVERAGE - Step-by-step methods of drug production, knowledge of major unit operations, and key concepts of pharmaceutical engineering will help to improve communication among the varied professionals working in the pharmaceutical industry.
Table of contents provided by Syndetics
- Preface (p. vii)
- Acknowledgments (p. ix)
- Units and Dimensions (p. xiii)
- 1 Introduction (p. 1)
- Part I Fundamentals
- 2 Fluid Flow (p. 4)
- 3 Heat Transfer (p. 31)
- 4 Mass Transfer (p. 46)
- 5 Powders (p. 53)
- Part II Processes
- 6 Air Conditioning and Humidification (p. 63)
- 7 Drying (p. 68)
- 8 Solid-Liquid Extraction (p. 87)
- 9 Crystallization (p. 92)
- 10 Evaporation and Distillation (p. 100)
- 11 Filtration (p. 117)
- 12 Size, Reduction and Classification (p. 136)
- 13 Mixing (p. 155)
- 14 Solid Dosage Forms (p. 168)
- 15 Sterilization (p. 178)
- 16 Bioprocessing (p. 183)
- Part III Quality Principles
- 17 Quality by Design (p. 193)
- 18 Statistical Experimental Design (p. 197)
- 19 Process Analytical Technology (p. 202)
- 20 Conclusion (p. 205)
- References (p. 207)
- Bibliography (p. 212)
- Index (p. 215)
Author notes provided by Syndetics
Anthony J. Hickey is Professor of Molecular Pharmaceutics and Biomedical Engineering, University of North Carolina at Chapel Hill, Chapel Hill, and President and CEO of Cirrus Pharmaceuticals, Inc., Durham, North Carolina, USA; Founder and former Chief Scientific Officer of Oriel Therapeutics, Inc.; and Chair of the Aerosols Expert Committee of the United States Pharmacopeia. The author, coauthor, and coeditor of numerous journal articles, book chapters, and books, including Pharmaceutical Inhalation Aerosol Technology, Inhalation Aerosols, and A Guide to Pharmaceutical Particulate Science (all Informa Healthcare titles), he is Fellow of the Institute of Biology, the American Association of Pharmaceutical Scientists, and the American Association for the Advancement of Science. He received his B.Sc. degree (1977) from Portsmouth Polytechnic, UK; M.Sc. degree (1980) from the University of Birmingham, UK; and Ph.D. (1985) and D.Sc. (2003) degrees from Aston University, Birmingham, UK.David Ganderton was formerly Director, Vectura Limited, Bath, UK. Dr. Ganderton received his B. Pharm. and Ph.D. degrees from the University of London, London, UK. He is the author or coauthor of numerous journal articles, book chapters, and books. Dr. Ganderton is also Fellow of the Royal Pharmaceutical Society of Great Britain.
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