Inside Aseptic
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Inside Aseptic

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Inside Aseptic cover

The ultimate guide for the beverage industry decision-makers. Investigating the future market challenges, understanding the technology that can be used to anticipate them and turn them into a successful business.

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Over GEA

Arising from the market success of beverages such as bottled ice teas, aseptic technology has expanded extensively over the last few years. Aseptic technology has developed at a fast pace in order to provide beverage producers with systems capable of guaranteeing high degrees of safety, simpler to manage, and increased flexiblity. The adoption of this technology has permitted many companies to launch innovative products onto commercially interesting markets.

This guide was written to provide information regarding diverse aspects of aseptic technology. The technology plays an important role: but other aspects, ranging from market trends to financial aspects, from quality management to ongoing personnel training, all contribute to the successful outcome of any project.

Topics featured in this guide were selected based on both years of experience and the input received from our ongoing relationship with many beverage Companies and Customers worldwide. We wish to dedicate this guide to them and to their present and future successes.

Inhoudsopgave

  1. Introduction
  2. 1.Markets, opportunities, a comparison of the technologies
    1. 1.1. “High acid” and “Low acid” beverages
    2. 1.2. Juices and Nectars
    3. 1.3. Sport Drinks
    4. 1.4. Tea and infusions
    5. 1.5. Functional Beverages
    6. 1.6. Milk-based products
    7. 1.6.1. UHT Milk
    8. 1.7. Historical perspective: Evolution of the technology from the Roman era to our day and age
    9. 1.7.1. "Aseptic" technology in the Roman era
    10. 1.7.2. The Roman "filling, capping and storage process"
    11. 1.8. Technologies to meet market demand
    12. 1.8.1. Use of preservatives
    13. 1.8.2. Hot fill
    14. 1.8.3. Ultra-clean filling
    15. 1.8.4. Aseptic Filling
    16. 1.8.5. Aseptic Blow Filling
    17. 1.9. Advantages and disadvantages of containers for beverages
    18. 1.9.1. Glass
    19. 1.9.2. Polylaminate carton
    20. 1.9.3. PET
    21. 1.9.4. HDPE
    22. 1.9.5. Cans
    23. 1.9.6. Pouches
    24. 1.10. Caps, closures, fitments
  3. 2.The right direction of sustainability
    1. 2.1. Material
    2. 2.2. Energy
    3. 2.3. Space
    4. 2.4. Time
  4. 3.Thermal treatment for product
    1. 3.1. Heat Exchangers for Liquid Products
    2. 3.1.1. Plate Heat Exchanger
    3. 3.1.2. Single Tube Heat Exchanger
    4. 3.1.3. Multi Tube Heat Exchanger
    5. 3.1.4. Triple Tube Heat Exchanger
    6. 3.1.5. Spiral Tube Heat Exchangers
    7. 3.1.6. Scraped Surface Heat Exchangers
    8. 3.2. Indirect and Direct Heating
    9. 3.3. Direct Heating UHT and ESL Designs
    10. 3.3.1. Direct Injection
    11. 3.3.2. Direct infusion
    12. 3.4. The best heat exchanger for your application
    13. 3.4.1. Heat Damage to food
    14. 3.4.2. System Selection Criteria
    15. 3.5. Conclusions
  5. 4.Understanding aseptic filling technology
    1. 4.1. Aseptic technology: an integrated system, not a series of connected machines.
    2. 4.2. Structure of an aseptic filling line
    3. 4.2.1. Sterilization
    4. 4.2.2. Container sterilization
    5. 4.3. Treatment of containers
    6. 4.3.1. Peroxyacetic Acid (POAA or PAA)
    7. 4.3.2. H2O2
    8. 4.4. PAA WET container sterilization
    9. 4.5. PAA vapour container sterilization
    10. 4.6. H2O2 CHP container sterilization
    11. 4.7. H2O2 VHP container sterilization
    12. 4.8. Preform sterilization technology
    13. 4.8.1. CHP sterilization
    14. 4.8.2. VHP sterilization
    15. 4.9. Cap sterilization technology
    16. 4.9.1. PAA spray sterilization
    17. 4.10. PAA immersion sterilization
    18. 4.10.1. CHP sterilization
    19. 4.10.2. VHP sterilization
    20. 4.10.3. Pre-sterilized caps handling
    21. 4.11. Energy-based sterilization without chemicals
    22. 4.11.1. UV light sterilization
    23. 4.11.2. Pulsed light sterilization
    24. 4.11.3. Ionizing radiation Sterilization
    25. 4.11.4. Electron beam sterilization
    26. 4.12. Aseptic Filling
    27. 4.12.1. Volumetric electronic filling
    28. 4.12.2. Weight filling
    29. 4.12.3. Other filling technologies
    30. 4.13. Capping
    31. 4.14. Bottle handling
    32. 4.15. Ancillary process equipment
    33. 4.15.1. Sterilizing solution production
    34. 4.16. Sterile water production
    35. 4.16.1. Utilities and fluids handling
    36. 4.16.2. CIP, SIP, COP, SOP
    37. 4.16.3. Integration of ancillary process units
    38. 4.16.4. Piping
    39. 4.16.5. Simplification of line handling
    40. 4.16.6. Radiation-based fluids sterilization
    41. 4.17. Line automation
  6. 5.Your new Aseptic Line
    1. 5.1. Preliminary Checklist
    2. 5.1.1. Volumes
    3. 5.1.2. Products
    4. 5.1.3. Design
    5. 5.1.4. Costs
    6. 5.1.5. Centralising production
    7. 5.2. Evaluation of the investment
    8. 5.2.1. Choose according to your own needs: the value curve
    9. 5.2.2. How to measure the performances of an aseptic line
  7. 6.Good maintenance: the best way to preserve the value of the investment
    1. 6.1. Service Culture
    2. 6.2. TPM
  8. 7.Improved safety: for the product, for operators and for the environment
    1. 7.1. Microbic Contamination
    2. 7.2. Contamination Control
    3. 7.3. Microbiological Isolator
    4. 7.4. Air Filtration
    5. 7.5. Differential Pressures
  9. 8.Aseptic filling and FDA
    1. 8.1. FDA Validation
    2. 8.2. Electronic Validation
    3. 8.2.1. GAMP 4 Module
    4. 8.3. Paper Recording vs Electronic Recording
  10. 9.Sell Aseptic to sell "more" and sell "better"
  11. 10.The Future of Aseptic
  12. Conclusions
  13. Addendum
    1. 1. Thermal treatment for products
Book details

Inside Aseptic
The ultimate guide for the beverage industry decision-makers

Second edition, June 2015
Copyright © GEA Procomac 2015
Graphic Design: GraphoServiceParma

All rights reserved. All quoted registered trade marks belong to their respective owners. GEA Procomac S.p.A. declines all responsibility for the contents of this document as its technical data, specifications and descriptions may be subjected to variation without notice. GEA Procomac S.p.A. will not be held responsible for any damage deriving from incomplete or inexact information provided in this document.