Nowadays, theworldwide energy deman

Nowadays, theworldwide energy demand has been increasing
steadily and is expected to increase continuously in the future.
A greater effort in developing more efficient systems has been
necessitated due to growing concerns about the rapid depletion
of conventional fossil fuel resources. In recent years,
substantial efforts have been made for using low grade heat
sources such as geothermal, solar and waste heat energy.
Utilization of low temperature sources and heat recovery is an
active step in improving the overall energy conversion efficiency
and decreasing the capital cost of energy per unit. An
improvement in performance of cycles which use low grade
sources can be achieved by using multi component zeotropic
working fluids by decreasing the mismatch in temperature
between working fluid and heat sources fluid during the heat
addition. The most important characteristic of these fluids is
their variable temperature during the boiling process (Maloney
and Robertson, 1953). The idea of utilizing binary mixture was
first proposed by Kalina in bottoming cycle of a combined
power plant (Kalina, 1984). The study has shown that the
overall efficiency of a combined cycle, which uses ammoniaewater
power bottoming cycle, is 14.5%e23% higher than
the efficiency of a combined system using the Rankine bottoming
cycle for the same conditions. Several investigations
have been performed on the Kalina cycle by using ammoniaewater
under different operating conditions (Park and
Sonntag, 1990; Ibrahim and Klein, 1996; Marston, 1990). The
comparison of performances of Kalina and Rankine cycles has
also been performed by Park and Sonntag (1990). They showed
that the Kalina cycle bottoming systems have an advantage
over the Rankine cycle systems in terms of first law and second
law efficiencies.