Front Matter

a batch solvent system. The hypothesis consists of four steps. The lipase forms a

TAG
E complex in the first step, followed by a DAG
E complex and fatty acid

in the second step. The DAG
E complex is then combined with the other fatty

acid to turn into the other TAG
E complex. The last stage, in which the new

TAG
E complex dissociates, completes the reaction. The steps can be summarized

as:

TAG 1 +EÐTAG 1 
EÐDAG 1 
E+FA 1

DAG 1 
E+FA 2 ÐTAG 2 
EÐTAG 2 +E

Under water content control of the system by spontaneous regulation during the

reaction in each experiment, the rate constants for each step, after a series of stu-

dies, were found to be affected by the water content in the system (Kyotani et

al., 1988b).

It is tempting to develop simple kinetic models for practical applications with

fewer rate constants. This often needs to consider overall performance of the reac-

tion instead of the reaction mechanism. When studied by Xu et al. (1988a), the

apparent incorporation of acyl donors was found to have a relationship with reaction

time in form of the Michaelis – Menten equation (Equation 15).

Inc¼

Incmaxt

Kiþt

ð 15 Þ

The Incmax, equivalent toVmax, was confirmed to be equal to the incorporation under

equilibrium at certain substrate molar ratios, which can be calculated directly from

the substrate molar ratio [Equation (8)]. Basheer et al. (1995a,b) derived equations

for both ester – ester exchange and acidolysis in a solvent system. The concentration

change of each species in the reaction mixture as the function of time was established

for both reactions. The models fitted the experimental data well, and only one con-

stant existed in the models. For the comparison of reaction rates under different

conditions and for the screening of lipases for enzymatic interesterification, the fol-

lowing simple model is much useful:

r¼

1

t

ln

IncmaxInc 0

IncmaxInct

ð 16 Þ

wheretis the reaction time or residence time, Incmax, Inc 0 , and Inctare the maximum

incorporation of acyl donors, acyl incorporation at time 0 andt. The enzyme activity

can be compared by calculating rV/WwhereVis the volume of the substrate liquid in

the reactor andWis the weight of enzyme in the reactor.

198 11 Modification of Oils and Fats by Lipase-Catalyzed Interesterification