1.

Record Nr.

UNINA9910583094003321

Titolo

Cold plasma in food and agriculture : fundamentals and applications / / edited by N. N. Misra, Oliver Schlüter, P. J. Cullen

Pubbl/distr/stampa

Amsterdam, [Netherlands] : , : Academic Press, , 2016

©2016

ISBN

0-12-801489-X

0-12-801365-6

Descrizione fisica

1 online resource (382 p.)

Disciplina

530.44

Soggetti

Low temperature plasmas

Low temperature engineering

Lingua di pubblicazione

Inglese

Formato

Materiale a stampa

Livello bibliografico

Monografia

Note generali

Description based upon print version of record.

Nota di bibliografia

Includes bibliographical references at the end of each chapters and index.

Nota di contenuto

Front Cover; Cold Plasma in Food and Agriculture: Fundamentals and Applications; Copyright; Contents; Contributors; Foreword; Chapter 1: Plasma in Food and Agriculture; 1. Challenges and Trends in Food Production; 1.1. Food Security; 1.2. Food Safety; 1.3. Minimal Processing; 1.4. Consumer and Regulatory Acceptance; 2. The Emergence of Nonthermal Solutions; 2.1. Related Nonthermal Technologies; 2.1.1. Pulsed Electric Field Processing; 2.1.2. Pulsed Ultraviolet-Light Processing; 2.1.3. Ozone Processing; 2.1.4. General Remarks; 3. What Is Cold Plasma?; 4. History

5. Cold Plasma in Food Processing-A Paradigm Shift6. Objective of the Book; Acknowledgments; References; Chapter 2: Physics of Cold Plasma; 1. Introduction; 2. Electron Kinetics; 3. Plasma Chemistry; 4. Breakdown Processes; 5. Plasma Sources; 5.1. Glow Discharge; 5.2. Microplasmas; 5.3. Corona Discharge; 5.4. Dielectric Barrier Discharge; 5.5. Jet Sources; 6. Modeling Approaches; 7. Summary; References; Chapter 3: The Chemistry of Cold Plasma; 1. Introduction; 2. Collisional Processes in Plasma; 2.1. Primary Plasma Processes-Collisions of Electrons

2.2. Secondary Plasma Processes-Collisions of Heavy Particles3. Some Case Studies in Plasma Chemistry of Relevance to Food and Agriculture;



3.1. The Plasma Chemistry of Ozone Formation; 3.2. Nitrogen Fixation by Cold Plasma; 3.2.1. The Plasma Production of Nitrogen Oxides and Nitric Acid; 3.2.2. Ammonia Production by Nonthermal Plasma; 3.3. Cold Plasma Treatment of VOCs; 4. Concluding Remarks; References; Chapter 4: Atmospheric Pressure Nonthermal Plasma Sources; 1. Introduction; 2. Corona Discharge APNTP; 2.1. Corona Discharge; 2.2. Pulsed Corona Discharge; 2.3. Application of Corona APNTP

3. Dielectric Barrier Discharge APNTP3.1. Dielectric Barrier Discharge; 3.2. Different Patterns of DBD; 3.3. Applications of DBD APNTP; 4. Glow Discharge APNTP; 4.1. Low Pressure Glow Discharge; 4.2. Atmospheric Pressure Glow Discharge; 4.3. Microdischarges; 4.4. Hollow Cathode Discharge; 4.5. Glow Discharge With Liquid Electrodes; 5. Atmospheric Pressure Plasma Jets; 6. High Voltage Pulsed Discharge Produced APNTP; 7. Conclusion; References; Chapter 5: Plasma Diagnostics; 1. Introduction; 2. Electrical Diagnostics of Plasma; 2.1. Langmuir Probe; 2.2. Equivalent Circuit Model

2.3. Interferometry3. Optical Diagnostics of Nonthermal Plasma; 3.1. Instrumentations; 3.2. Optical Emission Spectroscopy; 3.3. Spectral Profile (Voigt); 3.4. Plasma Density (Stark Broadening); 3.5. Optical Absorption Spectroscopy; 3.6. Laser-Induced Fluorescence; 3.7. Laser Scattering; 3.8. Infrared Spectroscopy; 4. Electron Spin Resonance; 5. Mass Spectrometry of Plasma; 6. Concluding Remarks; References; Chapter 6: Principles of Nonthermal Plasma Decontamination; 1. Introduction; 1.1. Plasma as a Tool for Biodecontamination; 2. Role of Plasma Species in Microbial Inactivation

2.1. Reactive Oxygen Species (ROS) and Reactive Nitrogen Species (RNS)