Читать книгу Essentials of Thermal Processing - Gary Tucker S., Gary S. Tucker - Страница 4

1 Chapter 1Fig. 1.1 Antonie van Leeuwenhoek, painting by Jan Verkolje.Fig. 1.2 Nicolas Appert, drawing on Commemorative Stamp issued by Monaco in ...Fig. 1.3 Louis Pasteur, painting by A. Edelfeldt (1885).Fig. 1.4 Joseph Lister, painting by unknown.Fig. 1.5 Underwood and Prescott.

2 Chapter 2Fig. 2.1 Diagram showing relative size of bacteria, yeast and mould.Fig. 2.2 Growth rate versus time for the various phases of microbial growth....Fig. 2.3 pH growth ranges of micro‐organisms.Fig. 2.4 Graph showing survivor curves at three different temperatures.Fig. 2.5 Number of survivors in samples taken after every minute of heating;...Fig. 2.6 Graph showing z‐value calculated from D‐values at various temperatu...

3 Chapter 3Fig. 3.1 Materials of varying pH from battery acid at pH 0 through to strong...Fig. 3.2 Hurdles involved in making an acid product e.g. canned fruit.

4 Chapter 4Fig. 4.1 Maximum heat resistance data for C. botulinum, taken from Esty and ...Fig. 4.2 Maximum heat resistance data for C. botulinum, taken from Esty and ...Fig. 4.3 Example of a first‐order or logarithmic survivor curve, showing the...

5 Chapter 5Fig. 5.1 Grapefruit cannery.Fig. 5.2 Peaches being conveyed into a cannery.Fig. 5.3 Tomatoes being conveyed into the cannery.Fig. 5.4 Pineapple packed in internally plain cans.

6 Chapter 6Fig. 6.1 Pickled cucumbers ready to be processed.Fig. 6.2 Beetroot in vinegar brine with temperature measuring probe at geome...Fig. 6.3 Pickled onions.

7 Chapter 7Fig. 7.1 Levels of microorganisms in the raw ingredients of a prawn makhani ...Fig. 7.2 Graph showing changes in deflection in the upper surface of a flexi...Fig. 7.3 Graph showing changes in deflection in the upper surface of a flexi...

8 Chapter 8Fig. 8.1 Batch condensing steam retort.Fig. 8.2 Crateless retort showing the sequence in operating a bank of retort...Fig. 8.3 Water immersion retort showing the two vessels.Fig. 8.4 SuperAgi TM concept for a water spray retort.Fig. 8.5 Water cascade retort showing the powerful water shower.Fig. 8.6 Steam/air retort.Fig. 8.7 Shaka retort principle showing the reciprocating basket movement....Fig. 8.8 Reel and spiral retort.Fig. 8.9 Hydrostatic retort showing the movement of cans through different c...Fig. 8.10 Velocity profiles for turbulent and laminar (streamline) flow show...Fig. 8.11 Plate type heat exchanger.Fig. 8.12 Multi‐tube type tubular heat exchanger.Fig. 8.13 Concentric channel type heat exchanger.Fig. 8.14 Mono‐tube type tubular heat exchanger.Fig. 8.15 Scraped surface heat exchanger.

9 Chapter 9Fig. 9.1 Lines of constant F₀ and C‐value for foods instantaneously heated....Fig. 9.2 Lines of constant F₀ and C‐value for foods of finite size, calculat...Fig. 9.3 Percentage thiamine retention for pea puree processed at various te...Fig. 9.4 Calculating the retort temperature to minimise the browning reactio...Fig. 9.5 End of cooling C‐values for vitamin C in canned oranges, for proces...Fig. 9.6 Percentage retention of vitamin C in canned oranges, for process te...

10 Chapter 10Fig. 10.1 Likely retort cold spots for steam heating and cascading water hea...Fig. 10.2 Multi‐channel system from Ellab that can be connected to 16 type TFig. 10.3 Ellab Tracksense loggers.Fig. 10.4 Radiant heat transferred to an object.Fig. 10.5 Conduction heat (Q) transferred from the product surface at temper...Fig. 10.6 Slow rise in temperature typical of a conduction‐heating product; ...Fig. 10.7 Rapid rise in temperature typical of a convection‐heating product;...Fig. 10.8 Time–temperature plot for a broken‐heating product, canned meat ch...

11 Chapter 11Fig. 11.1 Changes in the cold point location for a freely‐moving liquid such...Fig. 11.2 Picture of alginate spore beads and amylase TTI tubes.Fig. 11.3 Example of a logarithmic heating curve for canned meat used to cal...

12 Chapter 13Fig. 13.1 Chart recording showing a process deviation caused by boiler failu...Fig. 13.2 Time‐temperature and time‐lethality graph for the process deviatio...Fig. 13.3 Semi‐log plot (logarithmic heating curve) for a chunks‐in‐jelly pe...Fig. 13.4 Pilot scale reel and spiral simulator.Fig. 13.5 Pilot scale hydrostat simulator.Fig. 13.6 Graph showing two scenarios of the same deviation, but at differen...

13 Chapter 14Fig. 14.1 Selection of packaging types for thermally processed foods.Fig. 14.2 Display of packaged thermally processed foods in South Africa.Fig. 14.3 Fruit cans do not use an internal lacquer and detinning takes plac...Fig. 14.4 The different stages of three‐piece can manufacture.Fig. 14.5 The different stages of 2‐piece DWI can manufacture.Fig. 14.6 A photograph of a cross section through a double seam.Fig. 14.7 Diagram of a double seam showing the various dimensions.Fig. 14.8 Selection of glass food packages, showing a range of jar and cap d...Fig. 14.9 Retortable pouches.Fig. 14.10 Seals of plastic cups being tested.Fig. 14.11 Retortable cartons.

14 Chapter 16Fig. 16.1 Relationship between fill temperature and the vacuum formed, for v...

15 Chapter 17Fig. 17.1 Product systems and the environment.Fig. 17.2 Stages required in the GHG assessment of a food product.Fig. 17.3 Outline flow diagram for bottled apple juice manufacture.