BLBS102-c05 BLBS102-Simpson March 21, 2012 12:2 Trim: 276mm X 219mm Printer Name: Yet to Come
5 Water Chemistry and Biochemistry 97Figure 5.12.The first hydration sphere of most cations M(H 2 O) 6 +, and anions X(H 2 O) 6 −^1. Small water molecules are below the plane
containing the ions, and large water molecules are above the plane.depends on the substance, and for this reason, some substances
are more soluble than others. Natural waters in oceans, streams,
rivers, and lakes are in contact with minerals and salts. The
concentrations of various ions depend on the solubility of salts
(Moeller and O’Connor 1972) and the contact time.
All salts dissolved in water are completely ionized, even those
formed in the reaction between weak acids and weak bases.
For example, the common food preservative sodium benzoate
(NaC 6 H 5 COO) is a salt formed between a strong base NaOH
and weak benzoic acid (Ka=6.5× 10 −^5 ). The benzoate ions,
C 6 H 5 COO−, in the solution react with water to produce OH−
ions giving a slightly basic solution:C 6 H 5 COO−+H 2 O↔C 6 H 5 COOH+OH−,
K= 1. 6 × 10 −^10 ,at 298 K.Ammonium bicarbonate, NH 4 HCO 3 , was a leavening agent be-
fore modern baking powder was popular. It is still called for in
some recipes. This can be considered a salt formed between the
weak base NH 4 OH and the weak acid H 2 CO 3. When NH 4 HCO 3
dissolves in water, the ammonium and bicarbonate ions react
with water:NH+ 4 +H 2 O↔NH 3 (aq)+H 3 O+,K= 5. 7 × 10 −^10 ,
at 298 K
HCO− 3 +H 2 O↔H 2 CO 3 +OH−,K= 2. 3 × 10 −^8 ,at 298 K
H 2 CO 3 =H 2 O+CO 2 (g).Upon heating, NH 3 and carbon dioxide (CO 2 ) become gases for
the leavening action. Thus, during the baking or frying process,
NH 3 is very pungent and unpleasant. When sodium bicarbonate
is used, only CO 2 causes the dough to rise. Phosphoric acid,
instead of NH 4 +, provides the acid in baking powder.Buffer SolutionsA solution containing a weak acid and its salt or a weak base
and its salt is a buffer solution, since its pH changes little when asmall amount acid or base is added. For example, nicotinic acid
(HC 6 H 4 NO 2 , niacin, a food component) is a weak acid with
Ka=1.7× 10 −^5 (pKa=−log 10 Ka=4.76):HC 6 H 4 NO 2 =H++C 6 H 4 NO− 2 ,Ka=[H+][C 6 H 4 NO− 2 ]
[HC 6 H 4 NO 2 ]pH=pKa+log 10{
[C 6 H 4 NO− 2 ]
[HC 6 H 4 NO 2 ]}(Henderson-Hesselbalch equation).In a solution containing niacin and its salt, [C 6 H 4 NO 2 −]is the
concentration of the salt, and [HC 6 H 4 NO 2 ] is the concentration
of niacin. The pair, HC 6 H 4 NO 2 and C 6 H 4 NO 2 −, are calledcon-
jugate acid and base, according to the Bronsted-Lowry defini-
tion for acids and bases. So, for a general acid and its conjugate
base, the pH can be evaluated using the Henderson-Hesselbalch
equation:pH=pKa=log 10{
[base]
[acid]}(Henderson-Hesselbalch Equation).Adding H+converts the base into its conjugate acid, and adding
OH−converts the acid into its conjugate base. Adding acid and
base changes the ratio [base]/[acid], causing a small change in
the pH if the initial ratio is close to 1.0. Following this equation,
the most effective buffer solution for a desirable pH is to use
an acid with a pKavalue similar to the desired pH value and to
adjust the concentration of the salt and acid to obtain the ratio
that gives the desired pH. For example, the pKafor H 2 PO 4 −
is 7.21, and mixing KH 2 PO 4 and K 2 HPO 4 in the appropriate
ratio will give a buffer solution with pH 7. However, more is
involved in the art and science of making and standardizing
buffer solutions. For example, the ionic strength must be taken
into account.
The pH of blood from healthy persons is 7.4. The phospho-
ric acid and bicarbonate ions in blood and many other soluble