130218_Luxor-Egypt SECAP Final

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List of Figures Figure 1: SWOT Analysis by the Governorate of Luxor for the 2032 strategic plan…………………. .......................... 19 Figure 2: Calculation principle of the inventory .................................................................................................... 31 Figure 3: Considered themes in BEI (%tCO2eq/year) – City of Luxor, Governorate of Luxor 2015 ........................ 32 Figure 4: Final Energy/year (2015) ........................................................................................................................ 37 Figure 5: Energy consumption per sector and type of resources in the city of Luxor (2015) ................................. 38 Figure 6: GHG emissions – Luxor (2015)................................................................................................................ 39 Figure 7: GHG emissions per sector and type of resources in the city of Luxor (2015) ......................................... 39 Figure 8: Governorate Assets Services – Luxor (2015) .......................................................................................... 41 Figure 9: Governorate of Luxor Energy consumption, annual cost (2015) ............................................................ 41 Figure 10: GHG emissions in city of Luxor, Governorate of Luxor – BAU .............................................................. 42 Figure 11: Impression of the City of Luxor, West bank and its heritage sites........................................................ 45 Figure 12: Administrative boarders of the city of Luxor, Governorate of Luxor .................................................... 46 Figure 13: Sustainable energy and climate action plan (SECAP) framework for the City of Luxor ........................ 48 Figure 14: Seasonal (winter: December – January – February; spring: March – April – May; summer: June – July – August; autumn: September – October – November) mean temperature (oC, panels A-D) and total precipitation (mm per season, panels E-H) maps for the period 1961 -1990 based on CRU data - Source: Lionello, 2012 ................................................................................................................................................ 77 Figure 15: Multi Global Model Ensemble (MGME) average change in surface air temperature for the four seasons, 2071–2100 minus 1961–1990. Units are °C. DJF is December–January–February, MAM is March– April–May, JJA is June–July–August, SON is September–October–November .............................................. 77 Figure 16: Classification of climate change impacts on cities ............................................................................... 79 Figure 17: Classification Climate change impacts on Cities - Egypt ...................................................................... 80 Figure 18: Climate data (Mean Temperature and Precipitation Level (year 2000- 2012), Luxor .......................... 91 Figure 19: Climate data (Mean Temperature and Precipitation Level (year 2016 - 2017), Luxor ......................... 92 Figure 20: Change in cool nights (a,b), warm nights (c,d), cool days (e,f) and warm days (g,h) for Egypt over the period 1960 to 2003 relative to 1961-1990. Source: UK Met Office, 2011................................................... 93 Figure 21: Total annual precipitation for Egypt over the period 1960 to 2003 relative to 1961-1990 from HadEX (Alexander et. al, 2006). ................................................................................................................................ 93 Figure 22: Climate scenarios for the city of Luxor 1980-2003, 2050 & 2080 ........................................................ 95 Figure 23: Climate scenarios for the city of Luxor 1980-2003, 2050 & 2080 ........................................................ 95 Figure 24: Risk assessment figure in case of climate data availability - Luxor .................................................... 110 8
List of tables Table 1: Emission factors used for fossil fuel and electricity ................................................................................. 33 Table 2: Total waste in the City of Luxor (2015) .................................................................................................... 36 Table 3: Non-energetic emission produced from animal in the City of Luxor (2015) ............................................ 36 Table 4: Final Energy consumption/ year - Luxor .................................................................................................. 37 Table 5: Energy consumption per sector and per energy in the City of Luxor (2015) ............................................ 38 Table 6: GHG emission/ year - Luxor ..................................................................................................................... 39 Table 7: GHG emissions per sector and energy sector in the city of Luxor (2015) ................................................ 40 Table 8: Energy consumption and annual cost for Luxor assets ........................................................................... 40 Table 9: Energy consumption per sector and per energy in the City of Luxor (2015) ............................................ 42 Table 10: Ranking of climate change vulnerabilities in Egypt (OECD) .................................................................. 85 Table 11: Scenario Day (1 July) – City of Luxor ...................................................................................................... 94 Table 12: Climate Change Risks by Sectors – Luxor ............................................................................................... 96 Table 13: Governorate’s (Municipality’s) score in the Adaptation Cycle Specific Steps (SECAP template and JRC guidelines) – Luxor ........................................................................................................................................ 97 Table 14: Hazard types in general for the Maghreb and Mashreq countries ....................................................... 98 Table 15: Vulnerability analysis (based on the Future Cities Adaptation Compass tool) .................................... 100 Table 16: Suggested template for the risk assessment (1-3), the City of Luxor has a river not a sea ................. 106 Table 17: Risk assessment of receptors - city of Luxor, Governorate of Luxor .................................................... 109 Table 17: Suggested adaptation actions for population and public health – City of Luxor ................................. 119 Table 18: Suggested adaptation actions for infrastructure – City of Luxor ......................................................... 119 Table 19: Suggested adaptation actions for built environment – City of Luxor .................................................. 120 Table 20: Suggested adaptation actions for economy – City of Luxor ................................................................ 121 Table 21: Suggested adaptation actions for biodiversity – City of Luxor ............................................................ 121 9
Page 1 and 2: This project is funded by the Europ
Page 3 and 4: EuropeAid/132630/C/SER/Multi CLEANE
Page 5 and 6: Table of contents Executive Summary
Page 7 and 8: 4.3. Renewable energy development .
Page 9: 2.2.1 Template 2.2.1 Proposed Commu
Page 13 and 14: Industry; d) Transport; e) Waste an
Page 15 and 16: Section I: Governorate climate and
Page 17 and 18: (MCEI) is responsible for drawing u
Page 19 and 20: implementing the NEEAP and using sm
Page 21 and 22: previously set by H.E. General Fara
Page 23 and 24: 8. Construct 4500 housing units in
Page 25 and 26: 2. Promote the integration of energ
Page 27 and 28: The SEAU will be in charge of all G
Page 29 and 30: To ensure the success of project im
Page 31 and 32: Financing the SECAP The Governorate
Page 33 and 34: consumption and GHG emissions. 1.2.
Page 35 and 36: 1.3.1.2 Employment statistics The e
Page 37 and 38: Value provided Method Final value E
Page 39 and 40: * Emissions from livestock and anim
Page 41 and 42: average emissions per capita in Egy
Page 43 and 44: 10% 10% Governorate (Municipal) Bui
Page 45 and 46: Agriculture 1 692 0 2 622 0 0 0 0 4
Page 47 and 48: Figure 11: Impression of the City o
Page 49 and 50: 4. Planned actions for the city of
Page 51 and 52: This commitment to act on its own p
Page 53 and 54: EGP 340,910 (€ 16,148), offering
Page 55 and 56: places and avenues where the new li
Page 57 and 58: - Get a good understanding of the b
Page 59 and 60: energy conservation, energy efficie
Page 61 and 62:
only possible when real alternative
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155 boats with an average fuel cons
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Luxor and, by the way, a very effic
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4.2.3.3 Medium-term actions (3 to 1
Page 69 and 70:
electricity used in tertiary buildi
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4.2.5.2 Possible actions As agricul
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a feed in tariff policy. If this po
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producing solar heater in small wor
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TRANSPORT Common charter for servic
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Figure 14: Seasonal (winter: Decemb
Page 81 and 82:
2.2. Climate Change Impacts in Egyp
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cause mortalities 18 . In line with
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36 million from 1950 to 2010, popul
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harbour) in Alexandria 45 . Moreove
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The national strategy, its goals an
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The key players of this strategy st
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a. Ambient temperature (2000-2012)
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Figure 20: Change in cool nights (a
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a. Dry-bulb temperature (°C) scena
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• “C”, corresponds to complet
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Future Cities Adaptation Compass To
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Receptors Extreme weather event Pot
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Receptors Extreme weather event Riv
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Receptors Extreme weather event Pot
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Storms - Higher maintenance cost -
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Storms Floods - Damages/ loss of ha
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esult of a partnership between Egyp
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necessary adaptation policies. Prov
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2. Build institutional and technica
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Alert / Communication / Education D
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Table 17: Suggested adaptation acti
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Adoption of methods to reduce water
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Section V: Project Fiches City of L
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Strategy - Transport Strategy and A
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in the Nile river is absolutely cen
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• Structuring the urban transport
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5. Assumptions and risks • Mobili
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Loans and potential borrower Expect
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water quality of the surrounding en
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- Reduce energy consumption in all
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• Environmental permit: EEAA appr
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- Minimum NG required per Cruise bo
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• MoTr through River Transport Au
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8. Cost estimates Technical support
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City of Luxor - Governorate of Luxo
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- Second National Communication on
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- Reduce fossil fuel consumption in
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- Directive 2001/42/EC (SEA Directi
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- Train small local companies that
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Staff training Governorate (Municip
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- Lamp replacement by LED 10% 783 k
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City of Luxor (Governorate of Luxor
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Laws, Regulations and Decrees Laws
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lower GHG emissions. This action is
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Component 2: Develop Solar Water He
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- Municipality and Governorate - Go
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• The development of Green hotels
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- Reduction as related to BAU scena
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is a need to make use of green labe
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- Incentives for Generating Electri
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• Install PV Solar panels and SHW
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This includes: - Switch from AC/ He
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The development would require the f
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• Municipality determination to a
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Energy savings GWh/y - Lamp replace
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the workshop participants towards t
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I. Identification of the target aud
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From this study concerning the targ
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- Link to other opportunities and/o
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2.1.2. Template Proposed Communicat
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the installation of ordinary lamps
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- Staff training needs: Coordinatio
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- Coordinate with the road manageme
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2.2.2. Template Proposed Communicat
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3.1. Template Identification of CAP
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expected in %. 2- Reduce carbon emi
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staff and household owners and mana
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Key Message: - Luxor is turning gre
Page 223 and 224:
References Elkhayt, M. 2016. The Eg
Page 225:
Climate Change Legislation in Egypt
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130218_Luxor-Egypt SECAP Final

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