Help Nicaragua reduce emissions with solar power system
Energy demand in Nicaragua has been increasing, but power generation has had a shortfall due to steep rises in fuel prices and shortage of electricity supply. Sustainable and safer electricity supply has been a priority issue for the government of Nicaragua since 2007. According to the Ministry of Energy and Mines, the total power generation is 3341.1 GWh and 75% of total power generation is covered by thermal power generation. The estimated annual growth rate of total electricity demand on average was 3.92% from 2010 to 2015.
To achieve sustainable economic development, the government of Nicaragua is targeting a shift in energy sources from oil to cleaner energies. The plan for power generating facilities in Nicaragua is to increase generation capacity to 928.3 MW from renewable energy sources by the year 2025. This means that 82% of total power generation would be covered by renewable energy.
To aid Nicaragua, the government of Japan established a new financial mechanism, Cool Earth Partnership, with a funding pool of approximately US billion. This allows Japan to cooperate actively with developing countries that want to enhance energy efficiency to reduce greenhouse gas emissions. As a part of this mechanism, a grant aid plan was also created to introduce a solar power energy development project.
The aim of this preparatory study was to formulate an appropriate cooperation plan and to prepare a concrete project to install a grid-connected solar photovoltaic (PV) system in Nicaragua for reducing greenhouse gases.
OC Global formulated the basic and detailed design for the grid-connected PV systems. During the performance of its services, OC Global delivered the following services:
An approximately 900 kWp PV system was finally confirmed and agreed upon by Nicaragua. As for the procurement and installation of the equipment for the PV system for the project, the plan is to install necessary equipment for a 24.9 kV grid-connected (with reverse power flow) PV system.
This project is expected to showcase the best practice of PV systems in the Cool Earth Partnership and apply advanced Japanese technology and promote development of alternative energy.
2010 – 2012