The goal of this study is to investigate the possibility of replacing the water bath heater and pressure
relief valve with a hybrid vortex tube-photovoltaic/thermal system in pressure reduction stations like
city gate stations. By using this system, both the natural gas pressure can be reduced to the desired level
(from 5-7 MPa to 1.5e2 MPa) and electricity can be generated. The effect of cold mass fraction of vortex
tube (0.01e0.1), air mass flow rate (0.569e5.69 kg/s) as well as the length (1e10 m), width (0.5e5 m)
and depth (0.1e0.5 m) of the photovoltaic/thermal system on the energy and exergy performance of the
hybrid vortex tube-photovoltaic/thermal system is investigated. Then, the genetic algorithm based twoobjective
optimization is used to find the appropriate value of these parameters to maximize the annual
average first-law efficiency (hI) and second-law efficiency (hII) of the hybrid system. It was found that the
hI and hII of the optimal system are respectively 74.05% and 19.46%. Moreover, it was observed that the
use of optimal system causes a reduction in the CO2 emission by 27.7-tons per year.