Food Biochemistry and Food Processing (2 edition)

(Steven Felgate) #1

BLBS102-c05 BLBS102-Simpson March 21, 2012 12:2 Trim: 276mm X 219mm Printer Name: Yet to Come


5 Water Chemistry and Biochemistry 93

Figure 5.10.A sketch outlining the phase diagram of ice, water, and vapor.

above the critical point issupercritical water. In the seventeenth
century, Denis Papin (a physicist) generated high-pressure steam
using a closed boiler, and thereafter pressure canners have been
used to preserve food. Pressure cookers were popular during the
twentieth century. Pressure cooking and canning use subcriti-
cal water. Plastic bags are gradually replacing cans, and food
processing faces new challenges.
Properties of subcritical and supercritical water such as di-
electric constant, polarity, surface tension, density, viscosity,
and others, differ from those of normal water. These properties
can be tuned by adjusting water temperature. At high tempera-
ture, water is an excellent solvent for nonpolar substances such
as those for flavor and fragrance. Supercritical water has been
used for wastewater treatment to remove organic matter, and this
application will be interesting to the food industry if companies
are required to treat their wastes before discharging them into the
environment. The conditions for supercritical water cause poly-
mers to depolymerize and nutrients to degrade. More research
will tell whether supercritical water will convert polysaccharides
and proteins into useful products.
Supercritical water is an oxidant, which is desirable for the
destruction of substances. It destroys toxic material without the
need of a smokestack. Water is a “green” solvent and reagent, be-
cause it causes minimum damage to the environment. Therefore,
the potential for supercritical water is great.

AQUEOUS SOLUTIONS


Water dissolves a wide range of natural substances. Life began
in natural waters,aqueous solutions, and continuation of life
depends on them.
Water, a polar solvent, dissolves polar substances. Its po-
larity and its ability to hydrogen bond make it a nearly uni-
versal solvent. Water-soluble polar substances arehydrophilic,
whereas nonpolar substances insoluble in water arehydropho-
bicorlipophilic.Substances whose molecules have both polar
and nonpolar parts areamphiphilic. These substances include
detergents, proteins, aliphatic acids, alkaloids, and some amino
acids.
The high dielectric constant of water makes it an ideal solvent
for ionic substances, because it reduces the attraction between
positive and negative ions inelectrolytes: acids, bases, and salts.
Electrolyte solutions are intimately related to food and biological
sciences.

Colligative Properties of Aqueous Solutions

Vapor pressure of an aqueous solution depends only on the
concentration of the solute, not on the type and charge of the
solute. Vapor pressure affects the mp, the bp, and the osmotic
pressure, and these arecolligative properties.
Free download pdf