*2.4.3 Calculation of estimated carbon reduction at household level and small factories*

Assuming that the recent average value of carbon emission for Syria—which was only available up to 2014 on the World Bank data system—is 1.6 tonnes of CO2 with 312 days of radiation per year. The 1.6 tonnes of CO2 were also adopted in 2016 for the world development indicators database; in this section, the calculation of carbon footprint will be using the IBRD–IAA [28]:

Energy produced year 1.6 tonnes of *per* × *CO*<sup>2</sup>

The calculation does not take into account the CO2 from other parts of the solar panel life cycle, such as the manufacturing process or the transportation. The simple theory of CO2 reduction calculation showed that the total of 240,103.47 tonnes of CO2 can be reduced from operating solar panel at HH irrigation wells, and 37,215,360 tonnes of CO2 by factories that were rehabilitated by using solar panel, as a source of electrical energy, out of electrical grid and the potential carbon.
