Abstract:
Despite the fact that its technologies have grown at breakneck speed, energy is the lifeblood
of the telecommunications industry. The concern is not only about how energy is delivered,
but also about supply continuity and cost, all of which are key problems in the industry.
The telecommunications industry has begun to seek for renewable energy alternatives due to
the rising cost of fossil fuels and the reliance on fossil fuels for commercial electricity. To
overcome the inherent restrictions of renewable energy and maintain an uninterruptible power
supply, the hydrogen storage idea was added into the renewable energy conversion system.
A fuel cell-based power system is explicitly modeled and studied in this study under different
types of operating situations. The voltage output, current output, H
2
production, feed of air and
fuel, pressure regulations, and flow rates must all be controlled in order to be technically
feasible. The proposed methodology is valid for a PEMFC (Proton Exchange Membrane Fuel
Cell) based power system, and the results are verified using the MATLAB Simulink tool.
Citation:
Dilrukshi, L.W. (2022). Technical analysis employing on-site hydrogen production and storage systems with renewable energy for Telecom sites in Sri Lanka [Master's theses, University of Moratuwa]. Institutional Repository University of Moratuwa. http://dl.lib.uom.lk/handle/123/22521