1711_SECAP Karak - SET

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een considered an average rate with which citizens adopt such types of measures, following the intensive awareness raising activities to be realized by <strong>Karak</strong> Municipality. Also, the Municipality will proceed in consultations with the building constructors and try to establish voluntary agreements with them in order that they apply some minimum energy efficiency standards in the new constructions, to be commonly agreed. Customised sets of potential interventions and actions will be suggested to the citizens through info days and awareness activities in the local media (local newspapers, TV and radio), as well as distribution of dissemination material (flyers, brochures etc.), in line with the action described above. These interventions will be mainly focusing on the need to install shadings in the southern glazing and roof insulation, as well as paint the buildings’ facade and roofs with cool colours, that reduce thermal absorption. Low cost efficient technologies will be promoted as well, such as the use of energy efficient lamps (e.g. LEDs). The green municipal building will serve as a demonstration basis of these technologies and the existing potential for energy and cost reductions. The 2 nd scenario focuses on the legislative adoption of the existing Energy Efficient Building Code, and its compulsory use for all new residential buildings. The penetration level of the current scenario is considered to cover 100% of the new buildings to be constructed within the 2030 horizon, while the envisaged savings against a contemporary building and the BAU scenario are approximately 40%. Related calculations on the action in terms of initial cost and emission savings are presented in the table below. As an awareness raising activity, it is considered that the action is exponentially beneficial to the municipality against the related costs. Table 33: Action 3.2 in numbers Promotion of Green Buildings’ concept / Strict application of the Building Code 1 st Scenario 14% 2 nd Scenario 40% Duration 2019 - 2030 Total Implementation Cost (JOD) 250,000 300,000 Private Funds Mobilized (JOD) 17,523,600 87,618,000 Annual Energy Savings (MWh) 3,837.67 30,701.35 Annual Emission Reduction (tn CO 2) 2,529.02 20,232.19 Funding Source Own funds, Governmental funds, Private funds Net Present Value (NPV)
include brief spots on the local TV and radio, posters, info days etc. Two different penetration levels were assumed for the 1 st and the 2 nd scenario respectively. Key data on the action and its expected impact is presented in the table below. Table 34: Action 3.3 in numbers Campaign for promoting high energy label equipment 1 st Scenario 14% 2 nd Scenario 40% Duration 2018 - 2023 Total Implementation Cost (JOD) 100,000 150,000 Private Funds Mobilized (JOD) 3,247,000 5,411,700 Annual Energy Savings (MWh) 4,266.58 7,110.97 Annual Emission Reduction (tn CO 2) 2,811.68 4,686.13 Funding Source Own funds, Governmental funds, Private funds Net Present Value (NPV) >0 >0 3.4.4 2 MW/10 MW Photovoltaics in residential rooftops As mentioned before, the solar energy potential is very high in the region. The households have the opportunity to install PV panels in the buildings’ rooftops in order to substitute a part of the current electricity consumption with “green” energy from Renewable Energy Sources. Overall, 2 MW (1 st scenario) and 10MW (2 nd scenario) of PV panels respectively under each scenario are expected to be installed within the 2030 horizon. In that way, and since electricity from solar energy has zero emission factor, the CO 2 emissions will be reduced. Key data on the action are presented in the table below. Table 35: Action 3.4 in numbers 2/10 MW Photovoltaics in residential rooftops 1 st Scenario 14% 2 nd Scenario 40% Duration 2018 - 2030 Private Funds Mobilized (JOD) 2,000,000 10,000,000 Annual Energy Production (MWh) 3,397.13 16,985.64 Annual Emission Reduction (tn CO 2) 2,238.71 11,193.54 Funding Source Private funds, Loans Net Present Value (NPV) >>0 >>0 3.4.5 Replacing existing electric water heater with solar collectors A standard permanent need in every household is the use of hot water for personal hygiene and house chores. Subsequently, currently a significant share of electricity consumption is consumed for this activity. At the same time, although the use of solar water heaters in the country is quite extensive, it is considered that it could be further strengthened in the future. In order to mitigate the emissions derived from this activity’s electricity consumption the solution is to exploit the solar energy potential replacing the electric water heaters with solar water heaters. 54
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This project is funded by the Europ
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Table of Contents List of Figures .
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3.4.5 Replacing existing electric w
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Page 11 and 12: Executive Summary Al-Karak lies 140
Page 13 and 14: Total Energy Consumption (GWh) Publ
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Page 17 and 18: achieved based on the actions sugge
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Page 23 and 24: 1.2.6 Infrastructures The registere
Page 25 and 26: 1.4.2 Adaptation of administrative
Page 27 and 28: 2.1.4 Emission factors and Conversi
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Page 31 and 32: Based on the above, the solar therm
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Page 40 and 41: Table 13: Solid waste composition i
Page 43 and 44: 2.5 Results’ Graphical Analysis T
Page 46 and 47: Chapter 3: SECAP Actions 3.1 Target
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Page 50 and 51: 3.2.3 Awareness raising activities
Page 52 and 53: Table 21: Action 1.5 in numbers Eff
Page 54 and 55: 3.2.10 Web portal creation The crea
Page 56 and 57: 3.3.3 Green procurement procedures
Page 60 and 61: A penetration level of the SWH in 3
Page 62 and 63: 3.4.9 Replacement of single glazing
Page 64 and 65: 3.5.2 The 10% voluntary campaign fo
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Page 68 and 69: in existing buildings is considered
Page 70 and 71: the technologies and their results,
Page 72 and 73: 3.6.2 Installation of Global Positi
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Page 82: 3.9 Monitoring Monitoring of the Mu
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Receptors Extreme weather event Pot
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Receptors Weather Sensitivity Futur
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are presented in the following tabl
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4.6.2 Infrastructure The next secti
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Integrated land use planning with z
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Elaboration of water and ground wat
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Moreover the CO2 emissions reductio
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Awareness raising related to the Co
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2. Technical Description Area(s) of
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5.3 #3 - Replacing the old Municipa
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Implementation plan / Construction
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5.4 #4 - Bio Waste Management Bio W
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Other previous studies Environmenta
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5.5 #5 - Making the Municipal Build
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Municipal buildings 1. Solar Photo
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10. Next Steps TBD 11. Annexes / Re
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o Pools of benchmark examples and r
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and the proposed pilot actions in t
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III. Identification of level of awa
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Template 3.1 Identification of CAPP
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Template 3.2 CAPP activities as rel
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3- Building a wind farm to produce
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Recommendations: These tables have
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Appendix Appendix A Public Lighting
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Trailer 2 1 Semi- 0,39 19,50 Diesel
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The European Union is made up of 28
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