This document outlines course units for a course on novel techniques in food packaging. The course covers topics such as active and intelligent packaging techniques, oxygen and ethylene scavenging technologies, antimicrobial packaging, nanotechnology applications in food packaging, biodegradable and eco-friendly packaging materials, and packaging regulations. The course aims to introduce students to cutting-edge packaging technologies and their applications in the food industry.
The document provides an analysis of the effect of different pretreatment methods in combination with organosolv delignification on the enzymatic hydrolysability of three feedstocks. It examines the composition of untreated biomass, the impact of different pretreatments on composition, and lignin characterization. The goal is to compare delignification ability, enzymatic hydrolysability, and establish correlations between lignin structure and delignification potential for different feedstocks and pretreatment combinations.
This document describes the development of an active and intelligent starch-based biodegradable food packaging system. Polyvinyl alcohol (PVA) and starch are used as the base polymers and cross-linked with glutaraldehyde to form films. Propolis extract is added as an active agent for its antimicrobial properties. Anthocyanin extracted from red cabbage is used as an intelligent agent due to its pH-responsive color change. Different film formulations are prepared by varying the concentration of propolis extract. The films are characterized through various tests to analyze their mechanical properties, water vapor transmission rate, moisture retention capability, swelling degree, biological leaching ability, colorimetric response, and antimicrobial activity. Films containing 20
1) Polysaccharide/protein nanomultilayer coatings were constructed by depositing alternating layers of κ-carrageenan and lysozyme on aminolyzed polyethylene terephthalate (PET) film.
2) The coatings were characterized and found to have low water vapor and oxygen permeability, indicating good barrier properties.
3) The nanomultilayer coating was then applied to fresh-cut and whole pears. Coated pears experienced less mass loss and maintained higher acidity and solid content than uncoated pears, demonstrating extended shelf-life.
Polysaccharide films and coatings fortified with polyphenols show promise for food packaging applications. A variety of polysaccharides (e.g., alginate, carrageenan, starch) and polyphenol extracts have been used to formulate films and coatings. Adding polyphenol extracts impacts the physical properties of the films, such as decreasing transparency and increasing darkness and thickness. Interactions between polysaccharides and polyphenols can be non-covalent (e.g., hydrogen bonding) or covalent (e.g., grafting). Optimization of formulation parameters like polyphenol addition level and film processing is needed to obtain films with desirable mechanical and barrier properties for different food applications.
This document summarizes a presentation about polysaccharide hydrogels and their applications. It discusses how polysaccharides can be used to form hydrogels through various methods like ionotropic gelation or chemical cross-linking. It then outlines several biomedical applications of polysaccharide hydrogels, including for drug and protein delivery, tissue engineering, dental applications, and heritage protection. The document also discusses using polysaccharide nanohydrogels for controlled drug delivery and how they can be loaded with various drugs and biological agents.
This document summarizes the use of metal oxide nanoparticles for active and intelligent food packaging. It discusses how metal oxide nanoparticles can be synthesized using various methods to produce different morphologies with antimicrobial properties. Common metal oxides used are zinc oxide and titanium dioxide nanoparticles, which are incorporated into packaging films using techniques like solution casting and electrospinning. These nanoparticles provide properties like oxygen and ethylene scavenging to extend food shelf-life when incorporated into active food packaging. However, the cytotoxicity of nanoparticles must be considered, as their effects on human cells and gut microbiota are still being researched to ensure safe use in food contact materials.
Canning has been a preservation process since ages. This presentation gives a brief description about the process and some of the problems related to it.
This document outlines projects, method validations, dissertations, international trainings, and administrative activities completed by the author. Some key points:
- The author conducted several short-term industrial application projects involving preservative efficacy, stability, and sensory studies of various products.
- Method validations and verifications were performed for several ELISA procedures to test for toxins, nutrients, and microbes in various food and feed samples.
- Dissertations supervised covered topics like isolation of metal-resistant bacteria, antibiotic resistance patterns, and microbiological stability studies of foods.
- International trainings were provided in areas like food safety, water/waste water, biodegradation, and microbial studies to scientists
The document provides an analysis of the effect of different pretreatment methods in combination with organosolv delignification on the enzymatic hydrolysability of three feedstocks. It examines the composition of untreated biomass, the impact of different pretreatments on composition, and lignin characterization. The goal is to compare delignification ability, enzymatic hydrolysability, and establish correlations between lignin structure and delignification potential for different feedstocks and pretreatment combinations.
This document describes the development of an active and intelligent starch-based biodegradable food packaging system. Polyvinyl alcohol (PVA) and starch are used as the base polymers and cross-linked with glutaraldehyde to form films. Propolis extract is added as an active agent for its antimicrobial properties. Anthocyanin extracted from red cabbage is used as an intelligent agent due to its pH-responsive color change. Different film formulations are prepared by varying the concentration of propolis extract. The films are characterized through various tests to analyze their mechanical properties, water vapor transmission rate, moisture retention capability, swelling degree, biological leaching ability, colorimetric response, and antimicrobial activity. Films containing 20
1) Polysaccharide/protein nanomultilayer coatings were constructed by depositing alternating layers of κ-carrageenan and lysozyme on aminolyzed polyethylene terephthalate (PET) film.
2) The coatings were characterized and found to have low water vapor and oxygen permeability, indicating good barrier properties.
3) The nanomultilayer coating was then applied to fresh-cut and whole pears. Coated pears experienced less mass loss and maintained higher acidity and solid content than uncoated pears, demonstrating extended shelf-life.
Polysaccharide films and coatings fortified with polyphenols show promise for food packaging applications. A variety of polysaccharides (e.g., alginate, carrageenan, starch) and polyphenol extracts have been used to formulate films and coatings. Adding polyphenol extracts impacts the physical properties of the films, such as decreasing transparency and increasing darkness and thickness. Interactions between polysaccharides and polyphenols can be non-covalent (e.g., hydrogen bonding) or covalent (e.g., grafting). Optimization of formulation parameters like polyphenol addition level and film processing is needed to obtain films with desirable mechanical and barrier properties for different food applications.
This document summarizes a presentation about polysaccharide hydrogels and their applications. It discusses how polysaccharides can be used to form hydrogels through various methods like ionotropic gelation or chemical cross-linking. It then outlines several biomedical applications of polysaccharide hydrogels, including for drug and protein delivery, tissue engineering, dental applications, and heritage protection. The document also discusses using polysaccharide nanohydrogels for controlled drug delivery and how they can be loaded with various drugs and biological agents.
This document summarizes the use of metal oxide nanoparticles for active and intelligent food packaging. It discusses how metal oxide nanoparticles can be synthesized using various methods to produce different morphologies with antimicrobial properties. Common metal oxides used are zinc oxide and titanium dioxide nanoparticles, which are incorporated into packaging films using techniques like solution casting and electrospinning. These nanoparticles provide properties like oxygen and ethylene scavenging to extend food shelf-life when incorporated into active food packaging. However, the cytotoxicity of nanoparticles must be considered, as their effects on human cells and gut microbiota are still being researched to ensure safe use in food contact materials.
Canning has been a preservation process since ages. This presentation gives a brief description about the process and some of the problems related to it.
This document outlines projects, method validations, dissertations, international trainings, and administrative activities completed by the author. Some key points:
- The author conducted several short-term industrial application projects involving preservative efficacy, stability, and sensory studies of various products.
- Method validations and verifications were performed for several ELISA procedures to test for toxins, nutrients, and microbes in various food and feed samples.
- Dissertations supervised covered topics like isolation of metal-resistant bacteria, antibiotic resistance patterns, and microbiological stability studies of foods.
- International trainings were provided in areas like food safety, water/waste water, biodegradation, and microbial studies to scientists
This document outlines the syllabus for an Industrial Microbiology degree program covering several semesters. It includes topics such as microscopy techniques, instrumentation, microbiology, genetics, biochemistry, fermentation technology, and industrial production processes. Specific topics covered include microscopy types, autoclaves, chromatography, staining techniques, immunological methods, biostatistics, bioinformatics, nucleic acids, protein synthesis, mutation, carbohydrates, lipids, enzymes, fermenter types, organic acid production, regulations, and the industrial production of items like antibiotics, vitamins, cheeses, beers, enzymes and amino acids. Recommended textbooks are also provided.
Applications of Nanotechnology in food by Supratim BiswasSupratim Biswas
This document provides an overview of the application of nanotechnology in the food processing industry. It begins with definitions of nanotechnology and a brief history. It then discusses various types of nanomaterials like inorganic, surface functionalized, and organic nanomaterials. Applications of nanotechnology in food processing include nanoencapsulation to improve nutrient delivery and nano-based packaging materials for improved barrier properties, active oxygen scavenging, and intelligent sensing abilities. The document concludes by noting the rapid growth of the nanotechnology market but also limitations like unknown health impacts that require more research and regulation before wide incorporation in the food industry.
This course covers bionanotechnology and nanomedicine. Topics include nanoparticle synthesis and applications in diagnostics and therapeutics. Techniques for patterning, microscopy, and biosensor functionalization will be discussed. Instructors will cover fundamental physics and chemistry of bionano materials, principles of microscopy, molecular nanotechnology, nanoparticle properties, and bio-nano imaging. Students will present on special topics and submit an essay on their presentation topic. The course meets twice weekly for 4 hours each session. Examinations include a presentation and essay due at the end of the course.
Dr. Igor V. Tetko introduces chemoinformatics, which uses informatics methods to solve chemical problems. It involves organizing and analyzing large chemical datasets. Key applications include drug discovery, chemical safety assessments like REACH, and predictive toxicology. Chemoinformatics helps address issues like high drug development costs and testing requirements by predicting properties in silico. The course covers topics like molecular representations, modeling techniques, and the online OCHEM database and modeling platform. Chemoinformatics aims to transform chemical data into knowledge to make better informed decisions.
M. Govardhanan is seeking a challenging career in biotechnology where he can utilize his 8+ years of experience in mammalian cell culture. He has worked at Syngene International, Lupin Limited, and Biocon Biopharmaceuticals in roles involving cell culture, downstream processing, batch execution, and equipment qualification. He has hands-on experience with bioreactors up to 2KL scale and single-use bioreactors up to 500L scale. M. Govardhanan holds an MSc in Biotechnology and a BSc in Biotechnology.
This document outlines the course objectives and content for a Biochemical Engineering course. The course will cover key concepts in microbiology, biochemistry, and their application in biochemical engineering. Students will learn to determine biokinetic parameters, design bioreactors for specific applications, and evaluate oxygen and mass transfer requirements for bioprocesses. The course content includes topics like basic biochemistry, enzyme kinetics, microbial growth kinetics, metabolism, transport phenomena, bioreactor design, and applications. Students are assigned a presentation on a research article involving biotechnology to be delivered in the first class.
This document summarizes a presentation on food structure design for health and well-being. It discusses using new concepts in food product innovation to produce nutritionally balanced foods that promote health. Key messages include tailoring foods to consumer preferences and needs, understanding how compositional and structural features relate to physiological effects, and using mathematical models to design processes that achieve desired quality and safety. The presentation covers hierarchical food structure, linking structure to functionality during digestion, and using processing innovations to design foods with enhanced structural and technological properties. It promotes designing foods smartly, sustainably, and for health promotion.
Presentation of Cristina M. M. Machado for the Workshop on Hydrolysis Route for Cellulosic Ethanol from Sugarcane.
Apresentação de Cristina M. M. Machado realizada no "Workshop on Hydrolysis Route for Cellulosic Ethanol from Sugarcane"
Date / Data : February 10 - 11th 2009/
10 e 11 de fevereiro de 2009
Place / Local: Unicamp, Campinas, Brazil
Event Website / Website do evento: http://www.bioetanol.org.br/workshop1
A variety of Nano-biomaterials are synthesised, characterised and tested to find out their potentialities by global scientific communities, during the last three decades. Among those, nanostructured ceramics, cements and coatings are being considered for major use in orthopaedic, dental and other medical applications. The development of novel biocompatible ceramic materials with improved biomedical functions is at the forefront of health-related applications, all over the world. Understanding of the potential biomedical applications of ceramic nanomaterials will provide a major insight into the future developments. This study reviews and enlists the prominent potential biomedical applications of ceramic nanomaterials, like Calcium Phosphate (CaP), Tri-Calcium Phosphate (TCP), Hydroxy-Apatite(HAP), TCP+HAP, Si substituted HAP, Calcium Sulphate and Carbonate, Bioactive Glasses, Bioactive Glass Ceramics, Titania-Based Ceramics, Zirconia Ceramics, Alumina Ceramcis and Ceramic Polymer Composites.
This document provides information on the BIO341 Bacteriology course. It discusses the importance of bacteriology in microbiology and its contributions to fields like genetics, molecular biology, and biochemistry. The course objectives are to provide students with basic knowledge of bacterial structure, classification, growth, physiology, and genetics. Topics covered include bacterial ecology, cell structure and function, taxonomy, nutrition and growth, metabolism, reproduction, pathogenesis, and practical laboratory techniques. Students will be assessed through assignments, tests, practical reports, and a final exam.
The document provides information about an open course offered by the Department of Botany to students of other departments. It includes details about the course code, name, credits, hours per week, and evaluation scheme.
The course is titled "Plants in human welfare" and is worth 100 points (4 credits) over 4 hours per week. Students will be evaluated through internal assessment (20 points) and a term end examination (80 points).
The course syllabus is divided into 10 topics ranging from the uses of plants, exploitation of microbes, mushroom cultivation, environmental clean-up by plants, genetically modified crops, and more. The term end examination will be worth 80 points and test knowledge across these topics.
How cells works slides. Che362 course taken by prof. Sivakumarcodervinod11147
. Cytoplasm - inside the membrane and contains many salts and biomolecules
1. Nucleus: Contains chromosomes and surrounded by a membrane.
•DNA replication and RNA synthesis (transcription) occurs
•Nucleolus is a specialized region where ribosomes subunits are assembled
•Contains nuclear pores for regulation of material flow
•In procaryotes, DNA processing takes place in the cytoplasm
Emerging biomaterials refer to new materials being developed for regenerative medicine and tissue engineering. They have properties making them suitable for cell growth and tissue regeneration, offering possibilities to enhance patient outcomes. Such materials include hydrogels, electrospun nanofibers, and 3D printed scaffolds. They are designed to be biocompatible and customizable for different medical applications while promoting tissue regeneration and improved patient outcomes. Emerging biomaterials face challenges like long-term stability and immune responses but strategies exist to address these challenges through testing, optimization, and collaboration.
Application of Nanotechnology in Agriculture with special reference to Pest M...Ramesh Kulkarni
Nanotechnology, a promising field of research opens up in the present decade a wide array of
opportunities in the present decade and is expected to give major impulses to technical innovations in
a variety of industrial sectors in the future.
This document provides a syllabus for microbiology courses over 5 semesters. It includes details on the theory and practical components of each semester. The theory sections cover topics such as general microbiology, microbial diversity, microbial growth and genetics, microbial metabolism and genetic engineering, and environmental microbiology. The practical sections list experiments to be conducted that are related to the theory topics, such as bacterial staining techniques, culturing microorganisms, studying microbial growth factors, and enzymatic assays. The syllabus provides a comprehensive overview of the subject matter and laboratory work covered in a microbiology degree program.
This document outlines the syllabus for the subject Biopharmaceutics and Pharmacokinetics at Dr. Babasaheb Ambedkar Marathwada University. The syllabus covers 14 sections that include topics such as absorption, distribution, metabolism, elimination of drugs, pharmacokinetic models, bioavailability and bioequivalence. Some key areas covered are factors affecting drug absorption, distribution and elimination processes in the body, pharmacokinetic parameters and concepts such as volume of distribution, clearance and half-life. Mathematical treatments of compartment models and methods to determine pharmacokinetic parameters are also included.
This presentation provides an overview of Pressure BioSciences, Inc. Key points include:
- PBI develops instruments and consumables for pressure cycling technology (PCT) sample preparation. PCT uses repeated high-pressure cycles to control molecular interactions.
- PBI's primary market is the biopharma industry, where PCT systems are used from biomarker discovery through validation and quality control. Over 270 PCT systems have been installed.
- A new next-generation PCT instrument, the Barocycler 2320EXTREME, was recently released.
- PBI is also developing ultra-shear technology to produce nanoemulsions for applications in food, pharmaceuticals, and other
Invited talk by prof. s.p.singh.international conference, bhavnagar uni conf....Saurashtra University
Amazing World of Microorganisms in Extreme Environment
Presentation as the Invited Talk at an International Conference, Bhavnagar University, Bhavnagar, Gujarat, India on 28 January 2020
Microbes :Historical Perspective & their Versatility
Exploration & Limitations
Extreme Habitats and Microbial forms
Biochemical & Genetic Characteristics of Enzymes
Metagenomics and non cultivable microorganisms
This document provides an introduction to the concepts of biotechnology and its applications in the pharmaceutical industry. It discusses key topics including the objective of the course, important modules to be covered, definitions of biotechnology, the stages of biotechnology development, areas and applications of biotechnology. Specific techniques discussed include enzyme immobilization, biosensors, protein engineering and genetic engineering. Methods of enzyme immobilization like adsorption, entrapment, covalent binding and cross-linking are also summarized along with their advantages and limitations.
This document outlines the syllabus for an Industrial Microbiology degree program covering several semesters. It includes topics such as microscopy techniques, instrumentation, microbiology, genetics, biochemistry, fermentation technology, and industrial production processes. Specific topics covered include microscopy types, autoclaves, chromatography, staining techniques, immunological methods, biostatistics, bioinformatics, nucleic acids, protein synthesis, mutation, carbohydrates, lipids, enzymes, fermenter types, organic acid production, regulations, and the industrial production of items like antibiotics, vitamins, cheeses, beers, enzymes and amino acids. Recommended textbooks are also provided.
Applications of Nanotechnology in food by Supratim BiswasSupratim Biswas
This document provides an overview of the application of nanotechnology in the food processing industry. It begins with definitions of nanotechnology and a brief history. It then discusses various types of nanomaterials like inorganic, surface functionalized, and organic nanomaterials. Applications of nanotechnology in food processing include nanoencapsulation to improve nutrient delivery and nano-based packaging materials for improved barrier properties, active oxygen scavenging, and intelligent sensing abilities. The document concludes by noting the rapid growth of the nanotechnology market but also limitations like unknown health impacts that require more research and regulation before wide incorporation in the food industry.
This course covers bionanotechnology and nanomedicine. Topics include nanoparticle synthesis and applications in diagnostics and therapeutics. Techniques for patterning, microscopy, and biosensor functionalization will be discussed. Instructors will cover fundamental physics and chemistry of bionano materials, principles of microscopy, molecular nanotechnology, nanoparticle properties, and bio-nano imaging. Students will present on special topics and submit an essay on their presentation topic. The course meets twice weekly for 4 hours each session. Examinations include a presentation and essay due at the end of the course.
Dr. Igor V. Tetko introduces chemoinformatics, which uses informatics methods to solve chemical problems. It involves organizing and analyzing large chemical datasets. Key applications include drug discovery, chemical safety assessments like REACH, and predictive toxicology. Chemoinformatics helps address issues like high drug development costs and testing requirements by predicting properties in silico. The course covers topics like molecular representations, modeling techniques, and the online OCHEM database and modeling platform. Chemoinformatics aims to transform chemical data into knowledge to make better informed decisions.
M. Govardhanan is seeking a challenging career in biotechnology where he can utilize his 8+ years of experience in mammalian cell culture. He has worked at Syngene International, Lupin Limited, and Biocon Biopharmaceuticals in roles involving cell culture, downstream processing, batch execution, and equipment qualification. He has hands-on experience with bioreactors up to 2KL scale and single-use bioreactors up to 500L scale. M. Govardhanan holds an MSc in Biotechnology and a BSc in Biotechnology.
This document outlines the course objectives and content for a Biochemical Engineering course. The course will cover key concepts in microbiology, biochemistry, and their application in biochemical engineering. Students will learn to determine biokinetic parameters, design bioreactors for specific applications, and evaluate oxygen and mass transfer requirements for bioprocesses. The course content includes topics like basic biochemistry, enzyme kinetics, microbial growth kinetics, metabolism, transport phenomena, bioreactor design, and applications. Students are assigned a presentation on a research article involving biotechnology to be delivered in the first class.
This document summarizes a presentation on food structure design for health and well-being. It discusses using new concepts in food product innovation to produce nutritionally balanced foods that promote health. Key messages include tailoring foods to consumer preferences and needs, understanding how compositional and structural features relate to physiological effects, and using mathematical models to design processes that achieve desired quality and safety. The presentation covers hierarchical food structure, linking structure to functionality during digestion, and using processing innovations to design foods with enhanced structural and technological properties. It promotes designing foods smartly, sustainably, and for health promotion.
Presentation of Cristina M. M. Machado for the Workshop on Hydrolysis Route for Cellulosic Ethanol from Sugarcane.
Apresentação de Cristina M. M. Machado realizada no "Workshop on Hydrolysis Route for Cellulosic Ethanol from Sugarcane"
Date / Data : February 10 - 11th 2009/
10 e 11 de fevereiro de 2009
Place / Local: Unicamp, Campinas, Brazil
Event Website / Website do evento: http://www.bioetanol.org.br/workshop1
A variety of Nano-biomaterials are synthesised, characterised and tested to find out their potentialities by global scientific communities, during the last three decades. Among those, nanostructured ceramics, cements and coatings are being considered for major use in orthopaedic, dental and other medical applications. The development of novel biocompatible ceramic materials with improved biomedical functions is at the forefront of health-related applications, all over the world. Understanding of the potential biomedical applications of ceramic nanomaterials will provide a major insight into the future developments. This study reviews and enlists the prominent potential biomedical applications of ceramic nanomaterials, like Calcium Phosphate (CaP), Tri-Calcium Phosphate (TCP), Hydroxy-Apatite(HAP), TCP+HAP, Si substituted HAP, Calcium Sulphate and Carbonate, Bioactive Glasses, Bioactive Glass Ceramics, Titania-Based Ceramics, Zirconia Ceramics, Alumina Ceramcis and Ceramic Polymer Composites.
This document provides information on the BIO341 Bacteriology course. It discusses the importance of bacteriology in microbiology and its contributions to fields like genetics, molecular biology, and biochemistry. The course objectives are to provide students with basic knowledge of bacterial structure, classification, growth, physiology, and genetics. Topics covered include bacterial ecology, cell structure and function, taxonomy, nutrition and growth, metabolism, reproduction, pathogenesis, and practical laboratory techniques. Students will be assessed through assignments, tests, practical reports, and a final exam.
The document provides information about an open course offered by the Department of Botany to students of other departments. It includes details about the course code, name, credits, hours per week, and evaluation scheme.
The course is titled "Plants in human welfare" and is worth 100 points (4 credits) over 4 hours per week. Students will be evaluated through internal assessment (20 points) and a term end examination (80 points).
The course syllabus is divided into 10 topics ranging from the uses of plants, exploitation of microbes, mushroom cultivation, environmental clean-up by plants, genetically modified crops, and more. The term end examination will be worth 80 points and test knowledge across these topics.
How cells works slides. Che362 course taken by prof. Sivakumarcodervinod11147
. Cytoplasm - inside the membrane and contains many salts and biomolecules
1. Nucleus: Contains chromosomes and surrounded by a membrane.
•DNA replication and RNA synthesis (transcription) occurs
•Nucleolus is a specialized region where ribosomes subunits are assembled
•Contains nuclear pores for regulation of material flow
•In procaryotes, DNA processing takes place in the cytoplasm
Emerging biomaterials refer to new materials being developed for regenerative medicine and tissue engineering. They have properties making them suitable for cell growth and tissue regeneration, offering possibilities to enhance patient outcomes. Such materials include hydrogels, electrospun nanofibers, and 3D printed scaffolds. They are designed to be biocompatible and customizable for different medical applications while promoting tissue regeneration and improved patient outcomes. Emerging biomaterials face challenges like long-term stability and immune responses but strategies exist to address these challenges through testing, optimization, and collaboration.
Application of Nanotechnology in Agriculture with special reference to Pest M...Ramesh Kulkarni
Nanotechnology, a promising field of research opens up in the present decade a wide array of
opportunities in the present decade and is expected to give major impulses to technical innovations in
a variety of industrial sectors in the future.
This document provides a syllabus for microbiology courses over 5 semesters. It includes details on the theory and practical components of each semester. The theory sections cover topics such as general microbiology, microbial diversity, microbial growth and genetics, microbial metabolism and genetic engineering, and environmental microbiology. The practical sections list experiments to be conducted that are related to the theory topics, such as bacterial staining techniques, culturing microorganisms, studying microbial growth factors, and enzymatic assays. The syllabus provides a comprehensive overview of the subject matter and laboratory work covered in a microbiology degree program.
This document outlines the syllabus for the subject Biopharmaceutics and Pharmacokinetics at Dr. Babasaheb Ambedkar Marathwada University. The syllabus covers 14 sections that include topics such as absorption, distribution, metabolism, elimination of drugs, pharmacokinetic models, bioavailability and bioequivalence. Some key areas covered are factors affecting drug absorption, distribution and elimination processes in the body, pharmacokinetic parameters and concepts such as volume of distribution, clearance and half-life. Mathematical treatments of compartment models and methods to determine pharmacokinetic parameters are also included.
This presentation provides an overview of Pressure BioSciences, Inc. Key points include:
- PBI develops instruments and consumables for pressure cycling technology (PCT) sample preparation. PCT uses repeated high-pressure cycles to control molecular interactions.
- PBI's primary market is the biopharma industry, where PCT systems are used from biomarker discovery through validation and quality control. Over 270 PCT systems have been installed.
- A new next-generation PCT instrument, the Barocycler 2320EXTREME, was recently released.
- PBI is also developing ultra-shear technology to produce nanoemulsions for applications in food, pharmaceuticals, and other
Invited talk by prof. s.p.singh.international conference, bhavnagar uni conf....Saurashtra University
Amazing World of Microorganisms in Extreme Environment
Presentation as the Invited Talk at an International Conference, Bhavnagar University, Bhavnagar, Gujarat, India on 28 January 2020
Microbes :Historical Perspective & their Versatility
Exploration & Limitations
Extreme Habitats and Microbial forms
Biochemical & Genetic Characteristics of Enzymes
Metagenomics and non cultivable microorganisms
This document provides an introduction to the concepts of biotechnology and its applications in the pharmaceutical industry. It discusses key topics including the objective of the course, important modules to be covered, definitions of biotechnology, the stages of biotechnology development, areas and applications of biotechnology. Specific techniques discussed include enzyme immobilization, biosensors, protein engineering and genetic engineering. Methods of enzyme immobilization like adsorption, entrapment, covalent binding and cross-linking are also summarized along with their advantages and limitations.
Reimagining Your Library Space: How to Increase the Vibes in Your Library No ...Diana Rendina
Librarians are leading the way in creating future-ready citizens – now we need to update our spaces to match. In this session, attendees will get inspiration for transforming their library spaces. You’ll learn how to survey students and patrons, create a focus group, and use design thinking to brainstorm ideas for your space. We’ll discuss budget friendly ways to change your space as well as how to find funding. No matter where you’re at, you’ll find ideas for reimagining your space in this session.
A workshop hosted by the South African Journal of Science aimed at postgraduate students and early career researchers with little or no experience in writing and publishing journal articles.
How to Manage Your Lost Opportunities in Odoo 17 CRMCeline George
Odoo 17 CRM allows us to track why we lose sales opportunities with "Lost Reasons." This helps analyze our sales process and identify areas for improvement. Here's how to configure lost reasons in Odoo 17 CRM
This presentation includes basic of PCOS their pathology and treatment and also Ayurveda correlation of PCOS and Ayurvedic line of treatment mentioned in classics.
This presentation was provided by Steph Pollock of The American Psychological Association’s Journals Program, and Damita Snow, of The American Society of Civil Engineers (ASCE), for the initial session of NISO's 2024 Training Series "DEIA in the Scholarly Landscape." Session One: 'Setting Expectations: a DEIA Primer,' was held June 6, 2024.
How to Fix the Import Error in the Odoo 17Celine George
An import error occurs when a program fails to import a module or library, disrupting its execution. In languages like Python, this issue arises when the specified module cannot be found or accessed, hindering the program's functionality. Resolving import errors is crucial for maintaining smooth software operation and uninterrupted development processes.
This document provides an overview of wound healing, its functions, stages, mechanisms, factors affecting it, and complications.
A wound is a break in the integrity of the skin or tissues, which may be associated with disruption of the structure and function.
Healing is the body’s response to injury in an attempt to restore normal structure and functions.
Healing can occur in two ways: Regeneration and Repair
There are 4 phases of wound healing: hemostasis, inflammation, proliferation, and remodeling. This document also describes the mechanism of wound healing. Factors that affect healing include infection, uncontrolled diabetes, poor nutrition, age, anemia, the presence of foreign bodies, etc.
Complications of wound healing like infection, hyperpigmentation of scar, contractures, and keloid formation.
Exploiting Artificial Intelligence for Empowering Researchers and Faculty, In...Dr. Vinod Kumar Kanvaria
Exploiting Artificial Intelligence for Empowering Researchers and Faculty,
International FDP on Fundamentals of Research in Social Sciences
at Integral University, Lucknow, 06.06.2024
By Dr. Vinod Kumar Kanvaria
How to Add Chatter in the odoo 17 ERP ModuleCeline George
In Odoo, the chatter is like a chat tool that helps you work together on records. You can leave notes and track things, making it easier to talk with your team and partners. Inside chatter, all communication history, activity, and changes will be displayed.
This slide is special for master students (MIBS & MIFB) in UUM. Also useful for readers who are interested in the topic of contemporary Islamic banking.
BÀI TẬP BỔ TRỢ TIẾNG ANH 8 CẢ NĂM - GLOBAL SUCCESS - NĂM HỌC 2023-2024 (CÓ FI...
Pgfe tsyllabus 2_k7
1. FT-8101 ENGINEERING PROPERTIES OF BIOMATERIALS
AND APPLICATIONS
LTP Credits:4
400
Unit – I
Introduction: Biomaterials and their properties in relation to processing, their role in the
development of new products and processes
(04 Hrs)
Physico-Chemical Characteristics: Physico-chemical characteristics: shape, sphericity,
size, volume, density, porosity, surface area, coefficients of friction, and angle of repose and
influence of constituents on processing and design of equipments
(08 Hrs)
Unit – II
Mechanical & Rheological Properties: Flow behaviour of granular and powdered food
materials, textural profile analysis of food products
(06 Hrs)
Aero and hydrodynamic characteristics: Concepts and application of drag coefficients,
terminal velocity in agricultural products processing and handling
(06 Hrs)
Unit – III
Thermal, Electrical and Optical Properties: Specific heat, thermal conductivity, thermal
diffusivity, electrical resistance and conductance, dielectric constant, reflectivity, transmitivity
and absorbtivity of incident rays.
(12 Hrs)
Unit – IV
Applications: Application of engineering properties in process development as well as
design and operation of equipment and structures associated with handling, processing and
storage of raw as well as processed food products
(12 Hrs)
Recommended Books
Title Author Publisher
Engineering Properties of M.A. Rao & S.S. H. Rizvi
Foods
Micro-structural principles J. M. Aguilera & D. W.
of food processing and Stanley
Engineering
Physical properties of plant N. N. Mohsenin
and animal materials
2. FT-8102 FOOD RHEOLOGY AND MICROSTRUCTURE
LTP Credits:4
400
Unit – I
Examining Food Microstructures: History of Food Microstructure Studies, Light Microscopy,
Transmission Electron Microscopy, Scanning Electron Microscopy, Other Instrumentation and
Techniques (04 Hrs)
Fundamentals of Structuring: Polymer, Colloid, and Materials Science; Food Polymers, Polymer
Solutions, Phase Transitions, Colloids and Surface Chemistry, Mechanical and Rheological
Properties, Rheology of Foods, Mechanical Properties of Food Solids, Food Structure in the Mouth
and Beyond
(08 Hrs)
Unit – II
Image Analysis: Image Acquisition, Image Processing, Measurement Analysis (03 Hrs)
Food Structuring: Traditional Food Structuring and Texture Improvement, Approaches to Food
Structuring, Extrusion and Spinning, Structuring Fat Products, Structure and Stability, Gels, Gelation
Mechanisms, Mixed Gels, The Microstructure of Gels, Structure-Property Relations in Gels
(10 Hrs)
Unit – III
Microstructural Components and Food Assemblies: Water and Ice, Proteins, Lipids,
Carbohydrates, Cells and Cell Membranes, Structural Aspects of Animal Tissue, Structural Aspects of
Plant Tissue (06 Hrs)
Food Microstructure and Quality: Measurement of Texture, Structural Aspects of Food Texture,
Quality and Structure
(06 Hrs)
Unit – IV
Microstructure and Mass Transfer: Solid-Liquid Extraction: Fundamental Aspects of Extraction,
The Extraction process, Extraction of Food Materials, Modifying Microstructure, Modeling the
Extraction Process (06 Hrs)
Simultaneous Heat and Mass Transfer: Dehydration: Basic Concepts, The Drying Process,
Osmotic Dehydration, Influence of Drying on Structural Properties, Frying of Foods (02 Hrs)
The Micro-structural Approach: Structure-Property Relationships, The Micro-structural Approach
(03 Hrs)
Recommended Books:
Title Author
Microstructural Principles of Food Processing José Miguel Aguilera
Engineering
Food Texture Moskowitz
Principles of Food Processing Richard W. Hartel
Phase Transitions in Foods Yrjö H. Roos
New Frontiers in Food Microstructure Donald B. Bechtel
Mass transfer Thomas Kilgore Sherwood
Image Analysis for the Biological Sciences C. A. Glasbey
An Introduction to Rheology H.A. Barnes
Fat Crystal Networks Alejandro G. Marangoni
Multidimensional Microscopy Philip C. Cheng
Food Emulsions Stig Friberg
Dehydration of Foods Gustavo V. Barbosa-Cánovas
Food Processing (Industry at Work) Melvin Berger
Polymer Gels D. DeRossi
hermal Processing of Packaged Foods S.D. Holdsworth
Chemical Engineering for the Food Industry D. Leo Pyle
3. FT-8103 ADVANCES IN FOOD PROCESS TECHNOLOGY
LTP Credits:4
400
Unit – I
Modeling of Microbial Food Spoilages: Microbial growth dynamics models, partial
differentiation equation models, application of models in thermal preservation, Concept,
mechanism of microbial destructions, equipments etc.
(06 Hrs)
Membrane Technology: Introduction to pressure activated membrane processes,
performance of RO/UF and NF and industrial application.
(06 Hrs)
Unit – II
Supercritical Fluid Extraction: Property of near critical fluids (NCF), solubility and
efficiency of NCF extraction, equipment and experimental techniques used in NCF
extraction and industrial application.
(06 Hrs)
Use of Microwave Energy in Foods: Theory of microwave heating, dielectric properties of
food materials, working principle of magnetron, microwave blanching, sterilization and finish
drying.
(06 Hrs)
Unit – III
Hurdle Technology: Types of preservation techniques and their principles, concept of
hurdle technology and its application.
(04 Hrs)
High Pressure Processing of Foods: Concept of high pressure processing, quality
changes, effects of pressure on microorganisms and its application in food processing.
(04 Hrs)
Unit – IV
Ultrasonic in Food Processing: Properties and generation of ultrasonic, ultrasonic
imaging, application of ultrasonics as an analytical tool and processing techniques
(04 Hrs)
Newer Techniques in Food Processing: Application of technologies of high intensity light,
pulse electric field, ohmic heating, micronization in food processing and preservation
(08 Hrs)
Nanotechnology: Principles, mechanism and applications in foods
(04 Hrs)
Recommended Books:
Title Author
New Methods of Food Preservation G. W. Gould
(Non Thermal Processing of Foods)
Introduction to Food Engineering R. P. Singh
Food processing technology Fellows, P. J.
4. FT-8104 NOVEL TECHNIQUES IN FOOD PACKAGING
LTP Credits:4
400
Unit – I
Active and intelligent packaging: Active Packaging Techniques and intelligent Packaging
Techniques, current use of novel Packaging Techniques, consumers and novel Packaging
(04 Hrs)
Oxygen, ethylene and other scavengers: Oxygen scavenging technology, selecting right types of
oxygen scavenger, ethylene scavenging technology, corbon dioxide and other scavengers
(04 Hrs)
Antimicrobial food packaging: Antimicrobial agents, constructing antimicrobial packaging systems,
factors affecting the effectiveness of antimicrobial packaging
(04 Hrs)
Unit – II
Non-migratory bioactive polymers (NMBP) in food packaging: Advantages of NMBP, Inherently
bioactive synthetic polymers: types and application, Polymers with immobilized bioactive compounds
and their applications (04 Hrs)
Time Temperature indicators (TTIs): Defining and classifying TTIs, Requierments for TTIs,
development of TTIs, Maximizing the effectiveness of TTIs, Using TTIs to monitor shelf life during
distribution (08 Hrs)
The use of freshness indicator in packaging: Compounds indicating the quality of packaged food
products, freshness indicators, pathogen indicators, other methods for spoilage detection
(04 Hrs)
Unit – III
Packaging-flavour interaction: Factors affecting flavour absorpstion, role of food matrix, role of
differing packaging materials,flavour modification and sensory quality (02 Hrs)
Moisture regulation: Silica gel, clay, molecular sieve, humectants, salts, irreversible adsorption
(02 Hrs)
Developments in modified atmosphere packaging (MAP): Novel MAP gas, testing novel MAP
applications, applying high oxygen MAP (03 Hrs)
Recyling packaging materials: Recyclability of packaging plastics, improving the recyclability of
plastics packaging, testing safety and quality of recycled materials, using recycled plastics in
packaging
(03 Hrs)
Unit – IV
Green plastics for food packaging: Problems of plastic packaging wastes, range of biopolymers,
developing novel biodegradable materials (02 Hrs)
Integrating Intelligent packaging, storage and distribution: Supply chain for perishable foods,
role of packaging in the supply chain, creating integrated packaging, storage and distribution: alarm
systems and TTIs (04 Hrs)
Testing consumer responses to new packaging concepts: New packaging techniques and the
consumers, methods for testing consumer responses, consumer attitudes towards active and
intelligent packaging (03 Hrs)
Safety and legislative aspects of packaging: Regulatory considerations, plastic, metal, paper and
glass packaging
(03 Hrs)
Recommended Books:
Title Author
Novel Food Packaging Techniques Ahvenainen
Food Packaging Robertson
Handbook of Package Engineering Hanlon, Kelsey & Forcinio
A Handbook of Food Packaging Paine and Paine
5. FT-8105 FOOD QUALITY AND PLANT MANAGEMENT
LTP Credits:4
400
Unit – I
Food laws, regulation, standards and specifications: Agmark- 1937, FPO 1955, PFA –
1954, BIS –1952, consumer protection act –1986, Vanaspati control order –1978, export
quality control and inspection act- 1963, food safety and standards act - 2006, ISO–9000
series: 9001, 9002, 9000 (2000)
(08 Hrs)
Unit – II
Quality Control, Production planning and Network analysis: Introduction, Evaluation of
food quality; Statistical approaches in quality control and quality assurance; objectives of
production planning and concept of total quality control (TQM). Requirement of good
manufacturing process (GMP), good hygienic process (GHP), use of hazard analysis critical
control Point (HACCP) and its implication in food industries, Procedure of production control,
Project planning network / PERT and CPM network.
(16 Hrs)
Unit – III
Analytical Techniques in Foods: Application and operating parameters of
Spectrophotometry, AAS, GC, HPLC.
(08 Hrs)
Industrial Legislation, Disputes and trade Unions: Industrial legislation and laws, acts
and disputes. Industrial disputes act –1947, WTO, GATT, CAC, Patent Laws and IPR
(06 Hrs)
Unit – IV
Industrial Organization structure: Types of organization structure, Principles of
development of organization structure, forms of business organization, Division of industries,
industrial sectors (private and public), Problems associated to public sector industries, social
obligations of industries towards society
(10 Hrs)
Recommended Books:
Title Author Publisher
Quality control in food Kramer and Twigg
industry (Vol. I and II)
Hand book of analysis Fruits Ranganna Tata Mc Graw Hill, New Delhi
and Vegetables Pdts.
Modern method of analysis Stewart and
Whittaker
Sensory quality control M.A. Amerian
Food analysis theory and Pomeranz and CBS, New Delhi
practices Meloan
Food analysis and quality M.Jocob CBS, New Delhi
control
Sensory analysis of food J.R. Piggot
Food analysis Principle and Dieter W. Geuwedit
technique and Whitaker
6. FT-8201 FOOD PROCESS EQUIPMENT DESIGN
LTP Credits:5
410
Unit – I
Machine Design: Introduction to equipment or machine design, Basic requirements for machine
elements and machines, classification of engineering materials, selection of materials for engineering
purposes, mechanical properties of metals, Manufacturing considerations in machine design;
introduction to load, stress, strain, Young Modulus of Elasticity or Stress modulus or Modulus of
rigidity, Stress strain diagram, Factor of safety, Theories of failure under static load, Corrosion
mechanism and its control. (12 Hrs)
CAD/CAM: Concepts and applications in design
(03 Hrs)
Unit – II
Riveted Joints: Introduction Riveted points, kinds of riveted joints, failures of riveted joints, strength
of riveted joint, Riveted value, efficiency of riveted joint, assumption for design of riveted joint, Design
of riveted joint, Numerical problems. (08 Hrs)
Welded Joints: Introduction to welding, advantages of welded joints over riveted joints,
disadvantages of welding joints, classification of welding processes, types of welded joints, strength
of welded joints, numerical problems (06 Hrs)
Shafts, Keys & Coupling: Different types of shafts, failures in shafts, design of strength shafts and
axels, Types of keys, strength of keys, types of shafts coupling & their designs
(04 Hrs)
Unit – III
Pressure Vessels: Basic data for design of pressure vessels, classification of pressure vessels,
stresses in thin cylindrical cshell, circumferential (hoop) stresses and longitudinal stresses, design of
thick pressure vessels by Lame’s equation, Vlavarino equation, Birine’s equation and Barlow’s
equation, Design of cylinder heads and cover plates, optimum proportions of a vessel, determination
of optimum vessel size, Purging of vessels, Stresses induced in vellels; Reinforcement of cylinder for
high pressure vessels (12 Hrs)
Storage Tanks: Loss mechanism in storage tanks, optimum proportions of a storage tank, spherical
storage tanks, design of rectangular storage tanks, different types of roofs of tanks, nozzles and
mountings in storage tanks, estimation of nozzle diameter for drain and vent in a storage tank
(06 Hrs)
Unit – IV
Heat Exchangers: Concept of overall heat transfer coefficient, LMTD, efficiency of parallel and
counter current flow heat exchanger, design of double pipe heat exchanger, design of hair pin heat
exchanger, multitude finned inner tubes, design of shell and tube heat exchanger (07 Hrs)
Design of Pipes: Different types of pipes, fabrication method of different types of pipes, testing of
piping material, colour codes, different types of piping pints, different types of flow regulators
(03 Hrs)
Recommended Books:
Title Author
Process equipment design M. V. Joshi
Fundamentals of food process Engg. R.T. Toledo
Food Engg. Operations Brennan, J.G. and J.R. Cowell
Food Process Engg. Heldman, D.R. and R.P.Singh
Fundamentals of Engg. Heat andMass Transfer R.C. Sachdeva
Equipments for bakers S. A. Matz
7. FT-8202 TECHNOLOGY OF FROZEN FOODS
LTP Credits:3
300
Unit – I
Fundamentals of Freezing: Glass transitions in frozen foods and biomaterials,
Microbiology of frozen foods, Thermophysical properties of frozen foods, Freezing loads and
Freezing time calculation, Innovations in freezing process
(08 Hrs)
Unit – II
Facilities for the Cold Chain: Freezing methods and equipment, Cold store design and
maintenance, Transportation of frozen foods, Retail display equipment and management,
Household refrigerators and freezers, Monitoring and control of the cold chain.
(06 Hrs)
Unit – III
Quality and Safety of Frozen Foods: Quality and safety of frozen meat and meat product,
Quality and safety of frozen poultry and poultry products, Safety and quality of frozen fish,
Shellfish, and related products, Quality and safety of frozen vegetables, Quality and safety
of frozen fruits, Quality and safety of frozen dairy products, Quality and safety of frozen
ready meads, Quality and safety of frozen bakery products, Quality and safety of frozen
eggs and egg products
(10 Hrs)
Unit – IV
Monitoring and Measuring Techniques for Quality and Safety: Chemical Measurements,
Sensory analysis of frozen foods, Foodborne illnesses and detection of pathogenic
microorganisms, Shelf-life prediction of frozen foods.
(04 Hrs)
Packaging of Frozen Foods: Introduction to frozen food packaging, Plastic packaging of
frozen foods, Paper and card packaging of frozen foods, Packaging of frozen foods with
other materials, Packaging machinery
(08 Hrs)
Recommended Books:
Title Author
Quality in Frozen Foods Marilyn C. Erickson,Yen-
Con Hung
Handbook of Frozen Isabel Guerrero Legaretta
Foods
Managing Frozen Foods Kennedy Chris J CBS, New Delhi
8. FT-8203 COMPUTER SIMULATION AND MODELING IN
FOOD PROCESSING
LTP Credits:5
410
Unit – I
Modelling and Simulation: Fundamentals of modeling and simulation; Definition of basic
terms like system, entity attribute, activity, state of system, system environment; categories
of system, stochastic activities; Different steps for modulation and simulation, Types of
models; Advantages of modulation and simulation, disadvantages of modulation; Monte
Carlo Method or random simulation, Application areas of simulation
(12 Hrs)
Unit – II
Computer programmes, flow charts and algorithm of some numerical methods:
Numerical methods for solving of transcedental model equations; Iterative convergence
method, derivation and algorithm of bisectional method or intermediate value theorem; False
position or Regula Falsi method; Newton Raphson method, Convergence of Newton
Raphson method, Generalized Newton’s method for multiple roots, Secant Method,
Convergence of secant method; Iterative or method of successive approximation;
Introduction to numerical integration, trapezoidal rule, Simpson’s 1/3 rd rule, Truncation
error in Trapezodial rule, Simpson’s 1/3 rd rule. Solution of Ordinary Differential Equation
Model: Picard Method, Taylor’s Series method, Euler’s method, Modified Euler’s method,
First order, third and fourth order, Runga Kutta method. Solution of partial differential
equations models: Differential Laplace, Poisson, parabolic and hyperbolic equation, Finite
difference method, graphical method, Bender - Schmidt method
(20 Hrs)
Unit – III
Optimization: Introduction, optimization theory, optimization methods, Graphical and
numerical methods of optimization, Unconstrained optimization, Constrained optimization,
Programming optimization, experimental optimization, Response surface methodology
(RSM)
(12 Hrs)
Unit – IV
Modelling and simulation of some food engineering operations: Thermal processing,
convection dehydration, osmotic dehydration, spray drying, Freeze Drying, Freezing
process; deep fat frying; extrusion process; filtration processes; membrane separation
process; distillation and Extraction processes
(16 Hrs)
Recommended Books:
Title Author
Computerized Control Systems in the Food Industry Gauri S. Mittal
Response surface methodology R. H. Myers
Computer aided techniques in Food Technology Israel Saguy
Response surfaces design and analysis A. I. Khuri & J. A. Cornell
Design of Experiments Montgomery
9. FT-8204 FLAVOUR TECHNOLOGY
LTP Credits:3
300
Unit – I
Introduction: Fundamentals of flavour, Classification of food flavor, flavour profile, factors
affecting flavours, bioflavour and reconstituted flavour, flavor release from foods, interaction
of flavor compounds with foods
(06 Hrs)
Flavour Extraction: Methods of flavour extraction, isolation, separation and equipment
(03 Hrs)
Unit – II
Flavor Precursors: Flavor Compounds from Carbohydrates and Proteins, Lipid oxidation
(03 Hrs)
Flavour intensifiers: Flavour intensifiers and their effects, Chemistry and technology of
various flavour intensifiers
(03 Hrs)
Flavour Biogenesis: Fruit aroma, vegetable aroma, Methyl ketones, diacetyl,
acetaldehyde, lactones, terpenes, esters, pyrazines, vanilla flavour, enzyme and
fermentation flavors
(05 Hrs)
Unit – III
Process Flavors: Effect of processing on flavor compounds, Non enzymatic browning, heat
reaction flavors
(05 Hrs)
Food Flavours: Flavour constituents: Onion, garlic, cheese, milk, meat, wine, coffee, tea,
chocolate, citrus flavour
(04 Hrs)
Unit – IV
Flavour encapsulation and stabilization: Principles and techniques of flavour
encapsulation, types of encapsulation, factors affecting stabilization of encapsulated flavour
and their applications in food industry, Packaging and flavor compounds interaction, Effect
of storage, processing, transportation and environmental conditions on flavour components /
constituents
(07 Hrs)
Recommended Books:
Title Author
Source Book of Flavors Reineccius, G.
Flavour chemistry and technology Heath, H. B.
Understanding Natural Flavors. Piggott, J. R., Paterson, A.
Food Flavor: Morton, I. D., Macleod A. J.
Recent advances in flavour Yamanishi, T.
researches
Bioprocess Production of Flavor, Gabelman, A.
Fragrance, and Color Ingredients
Food Flavorings. Ashurst P. R.
10. FT-8205 NUTRACEUTICALS AND FUNCTIONAL FOODS
LTP Credits:4
400
Unit – I
Defining nutraceuticals and functional foods, Nature, type and scope of nutraceutical and
functional foods
(04 Hrs)
Nutraceutical and functional food applications and their health benefits, Nutraceutical
compounds and their classification based on chemical and biochemical nature with suitable
and relevant descriptions
(06 Hrs)
Unit – II
Nutraceuticals for specific situations such as cancer, heart disease, stress, osteoarthritis,
hypertension etc
(04 Hrs)
Antioxidants and other phytochemicals, (isoflavones, lycopenes), their role as nutraceuticals
and functional foods, Dietary fibers and complex carbohydrates as functional food
ingredients
(06 Hrs)
Protein as a functional food ingredient, Probiotic foods and their functional role, Herbs as
functional, health promoting activity of common herbs
(04 Hrs)
Unit – III
Cereal products as functional foods – oats, wheat bran, rice bran etc.
(04 Hrs)
Functional vegetables products, oil seeds and sea foods
(04 Hrs)
Coffee, tea and other beverages as functional foods/drinks and their protective effects
(04 Hrs)
Unit – IV
Effects of processing, storage and interactions of various environmental factors on the
potentials of such foods
(06 Hrs)
Marketing and regulatory issues for functional foods and nutraceuticals
(03 Hrs)
Recent development and advances in the areas of nutraceutical and functional foods
(03 Hrs)
Recommended Books:
Title Author
Functional Foods R. Chadwick,S. Henson,B. Moseley,G.
Methods of Analysis for Functional W. Jeffrey Hurst
Foods and Nutraceuticals
Handbook of Functional Dairy Products
Functional Foods Mazza
Handbook of Nutraceuticals and Robert E.C. Wildman
Functional Foods
11. FT-9101A ADVANCES IN DAIRY ENGINEERING & TECH.
LTP Credits:4
310
Unit – I
Introduction: Physico-thermal properties of milk and milk products and its application in
processing and equipment design
(04 Hrs)
Homogenization of milk: Principle of homogenization, single and double stage
homogenizers, care and maintenance of homogenizers, design principles of homogenizers,
application of homogenization in dairy industry
(06 Hrs)
Unit – II
Tanks, Pumps, Stirrer mixtures: Designs and equipment of tank, types of tanks, pumps in
dairy industry, Agitation and mixing, construction of agitators, patterns of flow & power
consumption
(04 Hrs)
Thermal processing of milk: Pasteurization of milk; batch, flash and continuous
pasteurizer, HTST pasteurizer and design principle and thermal death kinetics, care and
maintenance, UHT processing of milk, quality changes during processing of milk
(08 Hrs)
Unit – III
Concentration of milk: Evaporator, types of evaporator, machineries, heat and mass
balance in single and multiple effect evaporator, performance characteristics of evaporators
and their selection criteria, steam economy
(10 Hrs)
Unit – IV
Spray and drum drying: Theory of drying, estimation of drying rates and drying time, drying
equipments, particle size calculation, design of spray and drum dryer
(08 Hrs)
Dairy products: Frozen dairy products, Cheese, Casein and its derivatives, Lactose their
composition, standards, manufacturing, process control and quality control parameters
(08 Hrs)
Recommended Books:
Title Author
Dairy products Lampart, Lincoln M.
Milk and Milk Products Eckles, Comb and Macy
Ice Cream Arbuckle
Dairy Engineering John T Bowen
12. FT-9101B ADVANCES IN MEAT FISH AND POULTRY TECH.
LTP Credits:4
310
Unit – I
Meat Industry: Meat and meat products in India-an Industrial profile, Meat production and trade
practices, Prospects and problems in production of fresh meat in India, Research and
Development activities on meat, fish and poultry products (06 Hrs)
Gross and microstructure of muscle, Mechanism of muscle contraction and relaxation:
Organization of skeletal muscle from gross structure to molecular level, Muscle Communication
(sarcolemma, sarcoplasmic reticulum, Innervation), Muscle metabolism, Different types of
connective tissues and their relevance to properties of meat, Myofilament proteins and their
major functions, Nervous tissue, nerves and the nature of stimuli, membrane potential in nerve
and muscle, Events that occur during relaxation and contraction
(10 Hrs)
Unit – II
Cattle and beef, sheep and mutton, pig and pork and their fabrication: Breeds, Pre
slaughter care, ante and post mortem, slaughter, handling of offal (edible and inedible).Cuts of
beef, pork and mutton (10 Hrs)
Meat inspection and grading: Application and Enforcement of inspection laws, elements of
inspection (sanitation, antemortem inspection, postmortem inspection, condemnation, product
inspection, laboratory inspection, labeling). Identification of inspected products, product
inspection, types of grades, factors used to establish quality grades, conformation, fleshing and
finish
(06 Hrs)
Unit – III
Properties of fresh meat: Perception of tenderness, Factors effecting tenderness, connective
tissue, collagen, sarcomere contractile state, Myofibrillar tenderness, marbling, Methods to
improve tenderness (Electrical stimulation, aging, Meat color, Pigments associated with color,
Chemical state of pigments, methods to improve meat color. Water holding capacity (Net charge
effect and stearic effect) (05 Hrs)
Poultry meat: Kind of poultry, processing of poultry. Special poultry products, Breaded poultry,
Smoked turkey, Packaged pre cooked chicken, Freeze dried poultry meat
(04 Hrs)
Unit – IV
Meat analogues and restructured meat products: Textured plant proteins, processes for
preparation of meat analogues and restructured meat products (03 Hrs)
Fish processing and fish products: Selection of raw material for processing of streaking and
filleting of fish; production of fish paste, fish oils, sauce, fish protein concentrates
(04 Hrs)
Recommended Books:
Title Author
Meat poultry and Sea Food Technology Henricksons
Fish Technology R.J. Robert
Poultry product Technology G.J. Mountney
Meat Processing Joseph Kerry, John Kerry and David
Ledwood
Meat Hand Book Albert Levie
Poultry Processing G.H.Weiss:
Processing of Aquatic Food Products F.W. Wheaton and T. B. Lawson
Poultry meat processing and quality G Mead
13. FT-9101C BIOTECHNOLOGICAL TOOLS IN FOOD ANALYSIS
LTP Credits:4
310
Unit – I
Introduction: Concept of Biotechnology, history, old vs new Biotechnology, Different food
borne pathogens
(04 Hrs)
Genetic Engineering: Concept, different vector systems used in gene cloning, gene cloning
procedures: isolation of DNA fragment, joining to vector, expression & selector of
recombinant with suitable example, DNA fingerprinting, Method of DNA fingerprinting,
Identification techniques, Practical applications
(12 Hrs)
Unit – II
Polymerase Chain Reaction: Introduction and principle, process of PCR, Development of a
PCR assay, PCR optimization, Practical modifications to the PCR technique, Advantages
and disadvantages, Applications, Application of PCR in the detection of different pathogen
species, MPCR analysis
(10 Hrs)
Unit – III
ELISA: Concept of Antigen & Antibody, ELISA, Types of ELISA, Methods, ELISA kits,
Applications in food and agriculture
(06 Hrs)
Immunoassay kits: Types of Immunoassays, Principle of detection of kits, Monoclonal
Antibodies-antigen, antibody, Nomenclature, Production of monoclonal antibodies-in vitro
and in -vivo, merits and demerits, application in food industries
(08 Hrs)
Unit – IV
Biosensor: Types of biosensor- Calorimetric, Potentiometric, Amperometric, Optical, Piezo-
electric, Immunosensors, Principle of detection, Application, Biosensors in food analysis
(08 Hrs)
14. FT-9101D EXPERIMENTAL DESIGN AND STATISTICS
LTP Credits:4
310
Unit – I
Introduction: Basic statistical concepts, concepts Strategy of experiments, basic principles,
guidelines for designing experiments and importance of designed experiments in food
research
(05 Hrs)
Multiple Regression and correlation: Multivariate relationships, multiple linear regression,
multiple and partial correlation, significance of testing in multiple correlation, variable
selection in multiple regression
(06 Hrs)
Unit – II
Design of experiments: Full factiorial design, 2K design, completely randomized design,
randomized block design, central composite design, central composite rotatable design,
factorial design, Box Behenken design, applications of various designs in food processing
research, limitations of individual design
(07 Hrs)
Unit – III
Data analysis and modeling: Multiple regression analysis, canonical analysis, ridge
analysis, variable selection, mathematical modeling, interpretation of model parameters and
selection criteria of best models
(06 Hrs)
Unit – IV
Multivariate analysis: Concept of cluster analysis, factor analysis, principal component
analysis
(06 Hrs)
Recommended Books:
Title Author
Statistical Methods W. G. Cocharan
Response surface methodology R. H. Myers
Computer aided techniques in Food Israel Saguy
Technology
Response surfaces design and analysis A. I. Khuri & J. A. Cornell
15. FT-9102A ADVANCES IN FRUITS & VEGETABLE TECH.
LTP Credits:4
310
Unit – I
Introduction: Importance of fruits and vegetable processing, impact on Indian economy,
processing concept
(04 Hrs)
Processing characteristics: Advances in fruits and vegetable selection, grading, sorting,
blanching and other pre processing steps in automation of processing line, kinetics of quality
changes: physical, chemical, sensory and nutritional changes during processing
(08 Hrs)
Unit – II
Thermal processing: Influence of elevated temperature on microbial population, product
quality, process time calculation, blanching techniques and purpose of blanching,
determination of blanching processes, concept of commercial sterilization, heating and
cooling of food in container, influence of commercial sterilization on product quality
(10 Hrs)
Aseptic processing: Concept of aseptic processing and packaging, quality assurance,
machineries and their maintenance, package characteristics
(06 Hrs)
Unit – III
Drying and Dehydration: Concept of drying and drying curves, state of water in fruits and
vegetables, drying effect on product quality and nutritive value, Advances in drying of fruits
and vegetables
(08 Hrs)
Unit – IV
Minimally processed fruits and vegetables: Concept of hurdle technology, thermal
heating approach to minimal processing, high frequency heating, microwave heating and
ohmic heating
(12 Hrs)
Recommended Books
Title Author
Commercial Fruit Processing Woodruf and Luh
Commercial Fruits and Vegetable Products W.V. Cruess
Thermobacterology in Food Process Stumbo C.R.
Handbook of Fruit science and Technology: Production, D.K. salunkhe and S.S.
Composition, storage and processing Kadam
Freezing Effects on Food Quality Lester E. Jeremiah
Handbook of Food Analysis Leo M.L. Nollet
Postharvest Physiology of Vegetables J. Weichmann
16. FT-9102B ADVANCES IN CEREAL AND PULSES TECH.
LTP Credits:4
310
Unit - I
Paddy Processing: Paddy varieties, their composition and quality characteristics. curing of
paddy. parboiling processes, cold water soaking and hot water soaking processes, paddy
dryer-LSU dryer. by products of paddy processing - paddy husk and its uses - as boiler fuel,
husk ash, activated carbon, furfural and other by products, Production of flattened rice and
puffed rice from paddy
(08 Hrs)
Rice Milling: Paddy dehusking processes: rice mill flow chart, Engelberg huller mills,
modern rice mills. Components of modern rice mill, pre cleaners, shellers, under runner
shellers and centrifugal shellers, paddy separators – Satake and Schule designs, Polishers-
cone polishers and other types, bran and brokens separators, Rice mill yields and loss due
to brokens at different stages of milling, Rice mill machinery handling. Methods of rice bran
oil extraction
(08 Hrs)
Unit - II
Milling of Pulses: Major Pulses grown in the country and their application, Status of Pulse
milling industry in India, need for modernization, Traditional milling process, merits and
demerits, Drying of legumes, Sun drying, Traditional Processing steps – Pre-cleaning,
Pitting, Oil application, conditioning, Dehusking and splitting, Machinery and equipment
employed, mass balance, losses during milling; Modern milling process, Mechanical hot air
drying and conditioning, merits and demerits, Dehusking in Pulse Pearler, Water
conditioning, splitting of pulses in Pulse splitter, process flow chart, Merits and demerits,
Mini dal mill, working principle, advantages and disadvantages, Grinding of split pulses,
pulse flour products, their applications, equipment used
(10 Hrs)
Unit - III
Milling and Processing of Maize : Dry milling of maize: Storage and drying, Pre-cleaning,
cleaning equipment, Degermination and Dehusking, Roller milling, Sifting, Purifying,
Aspiration, Pneumatics in a maize mill, Products of milling-Flour, Semolina, Brewers’ grits
etc and their applications
(06 Hrs)
Wet milling of Maize and corn: Modern methods of processing, Cleaning, Steeping,
Degermination, Bran and Fibre separation, Gluten and Starch Separation, extraction
process; Equipment needed for Degermination, Debranning and starch separation, Starch
conversion into other value added products, Acid Hydrolysis, Enzyme Hydrolysis,
Isomerization processes, Processing for Dextrose, Malto Dextrin and other products.
Extraction and refining of Corn oil in brief.
(08 Hrs)
Unit - IV
Storage and Handling: Bag Storage, Bag Storage structure design, Parameters of good
storage structure, Cover Plinth Storage Structures, CAP storage (Ceiling and Plinth
Storage), Plans for Bag storage, lay outs, Dunnage, Materials for Dunnage, Pallets,
Protection against Rodents, Fungi, Pests and Mites, Fumigation Processes for bag storage
piles, Bulk Storage in silos and large Bins; Problems of Silo storage, Construction of Silos,
Physical load and mechanical strength of Silos, concrete and Metal Silos, Silo flow
17. problems, Relative merits and demerits of Silo storage to Bag Storage, Relative Costs of
Silo and Bag Storage, Conveyors and Elevators for feeding and discharging into Silos. In
silo Aeration and Drying, Problems of Dust Explosion in Grain Storages, Quality Changes of
Grains during storages and remedial measures to prevent unwanted quality changes
(08 Hrs)
Recommended Books:
Title Author
Post Harvest Technology of Cereals, Pulses and Oilseeds Chakraverty, A
The Chemistry and Technology of Cereals as Food and Feed Samuel Matz
Technology of Cereals N. L. Kent and A. D.
Evans
Maize-Recent Progress in Chemistry and Technology George E Inglett
Pulses – Chemistry, Technology and Nutrition Ruth H. Matthews
Modern Cereal Science and Technology Y. Pomeranz
Storage of Cereal Grains and their Products Cryde M. Christensen
Hand Book Of Cereal Science and Technology Karel Kulp and Joseph
P Pante
18. FT-9102C BIOPROCESS ENGINEERING
LTP Credits:4
310
Unit – I
Introduction: Interaction of chemical engineering, biochemistry and microbiology, Chemical
Reaction kinetics, kinetics of batch and continuous cultures, process variables, biocatalyst
and enzyme kinetics
(08 Hrs)
Unit – II
Sterilization and Sanitation: Thermal death kinetics, sterilization of equipment and media,
yield and product recovery; plant and environmental sanitation
(06 Hrs)
Product recovery operations: Handling of materials in microbial systems, filtration,
centrifugation, sedimentation, chromatography, membrane separation (UF and NF) and
electrophoresis, separation and disintegration of cells for product recovery operations
(08 Hrs)
Unit – III
Fermentor and bioreactors: Transport phenomenon in microbial systems, types of reactor,
working principles, aeration and agitation, design and analysis of biological fermentor and
bioreactors; advances in continuous fermentation
(10 Hrs)
Bioprocess instrumentation: Offline analytical methods, physical, chemical and
biosensors, online sensors
(06 Hrs)
Unit – IV
Modeling, simulation and scale-up: Bioprocess modeling and simulation and its
application in industrial fermentation, scale-up of fermentation processes
(10 Hrs)
Recommended Books:
Title Author
Biochemical Engg. Aiba and Humphrey
Biochemical Engg. Fundamentals Bailley and Ollis
Advances in biochemical Engg. Schimid
Principles of Fermentation Tech Stanbury
19. FT-9102D ADVANCED FOOD PROCESS ENGG
LTP Credits:4
310
Unit – I
Fluid Foods: Material and energy balance, Flow of fluids foods. Hygienic design concepts,
sanitary pipe fittings, pumps and fans, bulk milk coolers, milk collecting and chilling centers,
milk tanks, stirrers and mixers, milk reception equipment, pasteurizers, sterilizers and
treatment by irradiations, CIP system, corrosion process and their controls
(08 Hrs)
Unit – II
Separators: Centrifugation, separation, cyclone separators, homogenizers, ultra-filtration,
reverse osmosis and electrodialysis, Equipment for cheese, ice cream, butter manufacture,
and other special milk products
(06 Hrs)
Unit – III
Thermal Processing: Thermal processing, sterilization classification U.H.T. systems and
recent advances, factors affecting spoilage of different types of food products and design of
thermal processes. Survival curves, thermal death curves, analysis of thermal resistance
data, process time evaluation, Design of batch and continuous sterilization cycles in vat,
inter-relationship between batch and continuous reactors, design calculations
(10 Hrs)
Unit – IV
Refrigeration: Refrigeration cycles, performance of refrigeration compressors, refrigeration
system balance and multiple evaporation systems. Flash cooling, design of condensors,
evaporators, cooling towers, thermo-electric cooling, cryogenics, different refrigeration
systems for ultra low refrigeration
Thermodynamics of Food Freezing: Properties o frozen foods, freezing point depression,
Ice crystal formation, Enthalpy change during freezing, experimental related numerical
problems, Predicting rates of product freezing and design of food freezing equipment
Energy Management: Energy audit and management strategies in food process industries
(16 Hrs)
Reference Books:
Title Author
Fundamentals of Engineering Heat and mass transfer R.C. Sachdeva
Fundamentals of Food Process Engineering R.T. Toledo
Food Engineering Operations Brennan, J.G. and J.R.
Cowell
Food Process Engineering Heldman, D.R. and
R.P.Singh
Elements of Food Engg Harper J.C.
Fundamentals of Food Process Engg Charm S.E.
Thermobacteriology in Food Process Stumbo C.R.