Food Biochemistry and Food Processing (2 edition)

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

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Water Chemistry and Biochemistry

C. Chieh

Introduction

The Compound Water

The Polar Water Molecules

Water Vapor Chemistry and Spectroscopy

Hydrogen Bonding and Polymeric Water in Vapor

Condensed Water Phases

Solid H 2 O

Other Phases of Ice

Vapor Pressure of Ice Ih

Liquid H 2 O—Water

Vapor Pressure of Liquid H 2 O

Transformation of Solid, Liquid, and Vapor

Subcritical and Supercritical Waters

Aqueous Solutions

Colligative Properties of Aqueous Solutions

Solution of Electrolytes

Self-Ionization of Water

Solutions of Acids and Bases

Titration

Solutions of Amino Acids

Solutions of Salts

Buffer Solutions

Hydrophilic and Hydrophobic Effects

Hard Waters and Their Treatments

Ionic Strength and Solubility of Foodstuff

Water as Reagent and Product

Esterification, Hydrolysis, and Lipids

Water in Digestion and Syntheses of Proteins

Water in Digestion and Synthesis of Carbohydrates

Water, Minerals, and Vitamins

Food Chemistry of Water

Water as a Common Component of Food

Water Activity

Aquatic Organisms and Drinking Water

Water and State of Food

Modified fromHandbook of Water Chemistry, copyright 2004©by Chung

Chieh. Used with permission.

Interaction of Water and Microwave

Water Resources and the Hydrological Cycle

Acknowledgments

References

INTRODUCTION

Water, the compound H 2 O, is the most common food ingredient.

Its rarely used chemical names are hydrogen oxide or dihydrogen

monoxide. So much of this compound exists on the planet earth

that it is often taken for granted. Water is present in solid, liquid,

and gas forms in the small range of temperatures and pressures

near the surface of the earth. Moreover, natural waters always

have substances dissolved in them, and only elaborate processes

produce pure water.

The chemistry and physics of water are organized studies of

water: its chemical composition, formation, molecular structure,

rotation, vibration, electronic energies, density, heat capacity,

temperature dependency of vapor pressure, and its collective

behavior in condensed phases (liquid and solid). In a broader

sense, the study of water also includes interactions of water with

atoms, ions, molecules, and biological matter. The knowledge of

water forms the foundation for biochemistry and food chemistry.

Nearly every aspect of biochemistry and food chemistry has

something to do with water, because water is intimately linked

to life, including the origin of life.

Science has developed many scientific concepts as powerful

tools for the study of water. Although the study of water reveals

a wealth of scientific concepts, only a selection of topics about

water will be covered in the limited space here.

Biochemistry studies the chemistry of life at the atomic and

molecular levels. Living organisms consist of many molecules.

Even simple bacteria consist of many kinds of molecules. The

interactions of the assembled molecules manifest life phe-

nomena such as the capacity to extract energy or food, re-

spond to stimuli, grow, and reproduce. The interactions follow

Food Biochemistry and Food Processing, Second Edition. Edited by Benjamin K. Simpson, Leo M.L. Nollet, Fidel Toldr ́a, Soottawat Benjakul, Gopinadhan Paliyath and Y.H. Hui.

©C2012 John Wiley & Sons, Inc. Published 2012 by John Wiley & Sons, Inc.

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