1711_SECAP Karak - SET
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include brief spots on the local TV and radio, posters, info days etc. Two different penetration<br />
levels were assumed for the 1 st and the 2 nd scenario respectively.<br />
Key data on the action and its expected impact is presented in the table below.<br />
Table 34: Action 3.3 in numbers<br />
Campaign for promoting high energy label equipment<br />
1 st Scenario<br />
14%<br />
2 nd Scenario<br />
40%<br />
Duration 2018 - 2023<br />
Total Implementation Cost (JOD) 100,000 150,000<br />
Private Funds Mobilized (JOD) 3,247,000 5,411,700<br />
Annual Energy Savings (MWh) 4,266.58 7,110.97<br />
Annual Emission Reduction (tn CO 2) 2,811.68 4,686.13<br />
Funding Source<br />
Own funds, Governmental funds, Private funds<br />
Net Present Value (NPV) >0 >0<br />
3.4.4 2 MW/10 MW Photovoltaics in residential rooftops<br />
As mentioned before, the solar energy potential is very high in the region. The households<br />
have the opportunity to install PV panels in the buildings’ rooftops in order to substitute a<br />
part of the current electricity consumption with “green” energy from Renewable Energy<br />
Sources. Overall, 2 MW (1 st scenario) and 10MW (2 nd scenario) of PV panels respectively under<br />
each scenario are expected to be installed within the 2030 horizon. In that way, and since<br />
electricity from solar energy has zero emission factor, the CO 2 emissions will be reduced. Key<br />
data on the action are presented in the table below.<br />
Table 35: Action 3.4 in numbers<br />
2/10 MW Photovoltaics in residential rooftops<br />
1 st Scenario<br />
14%<br />
2 nd Scenario<br />
40%<br />
Duration 2018 - 2030<br />
Private Funds Mobilized (JOD) 2,000,000 10,000,000<br />
Annual Energy Production (MWh) 3,397.13 16,985.64<br />
Annual Emission Reduction (tn CO 2) 2,238.71 11,193.54<br />
Funding Source<br />
Private funds, Loans<br />
Net Present Value (NPV) >>0 >>0<br />
3.4.5 Replacing existing electric water heater with solar collectors<br />
A standard permanent need in every household is the use of hot water for personal hygiene<br />
and house chores. Subsequently, currently a significant share of electricity consumption is<br />
consumed for this activity. At the same time, although the use of solar water heaters in the<br />
country is quite extensive, it is considered that it could be further strengthened in the future.<br />
In order to mitigate the emissions derived from this activity’s electricity consumption the<br />
solution is to exploit the solar energy potential replacing the electric water heaters with solar<br />
water heaters.<br />
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