Panas dalam makanan, BUKAN makanan panas

A food can be preserved (under refrigerated or nonrefrigerated con-ditions) by several methods.

1.       lowering of its water activity (by dehydration, cooling,or addition of salt/sugar),

2.       removal of air/oxygen,

3.       fermentation, and

4.       removal/inhibition/inactivation of microorganisms.

The properties of importance in thermal processing of foods are

1.       physical (density, viscosity, and glass transition temperature),

2.       thermal (thermal conductivity and specific heat for conventional heating),

3.       electrical (electrical conductivity for ohmic heating), and

4.       dielectric(dielectric constant and loss factor for microwave and radiofrequencyheating).

Thermal processing of foods.

1.       steam injection,

2.       steam in-fusion,

3.       tubular heat exchangers,

4.       shell and tube heat exchangers,

5.       plate heat exchangers,

6.       scraped surface heat exchangers,

7.       extruders,

8.       ohmic heaters,

9.       infrared heaters,

10.   adiofrequency heaters,

11.   microwave

12.   heaters,

13.   variations/combinations of these

Microorganisms are classified as

1.       aerobes and anaerobes

2.       psychrotrophs,mesophiles , or thermophiles

3.       obligate or facultative

persamaan yang berlaku pada mikroorganisme:

N=No*10^(-t/D,T)

D,T=D,ref*10^[(T,ref - T)/z]

k=Ae^(-E,a/RT)

Process safety and product quality

1.       making sure that theFvalue is at least the minimum value --> F=10^[(T,ref - T)/z]*t

2.       minimizing the Cv alue of the critical quality --> C=10^[(T,ref - T)/z,c]*t