280218_Luxor-Egypt SECAP Final_revised

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Electricity consumption in Waste Treatment 7,453 MWh/year We used the IPCC Waste Model Tool (ref. LUX_WWM1) to calculate the emissions of solid waste treatment using the following hypothesis and data shown in Table 2. The amount of solid waste collected excluding tourist waste is 29,000 tons/year. Regarding composition of waste, the Governorate of Luxor was applied to estimate tons of organic waste, paper and cardboard and other domestic waste. Table 2: Total waste in the City of Luxor (2015) Type of waste Percentage of total (%) Organic waste 23.7 % Paper and cardboard 2.8 % Glass 16 % Metal 16.3 % Plastic 4.4 % Other 36.8 % Because of the lack of historical data, the ratio of waste production per capita and waste composition are supposed stable. - In the city of Luxor, all the waste is going to landfill without methane capture. - The IPCC default values are used for DOC and Methane generation rate constant (k). Electricity and Diesel consumption for water management is provided by the Governorate of Luxor. These values were considered consistent, and supposed to include pumping, distribution and energy used for wastewater treatment. For non-energetic emissions quantity of treated waste water, the waste water treatment factor from the Base Carbone/ADEME methodology was applied (0,155 Kg CO 2/m 3 ). 1.3.2.6 Agriculture Fuel and electricity consumption are provided by Governorate of Luxor are considered consistent. For non-energetic emissions (CH 4), emission factors are directly taken from the national emissions inventory or estimated from it, and applied to local number of animals. N 2O non-energetic emissions: data for Egypt were not available therefore we applied the ratio per hectare (ha) of crops used in CES-MED BEI for Algeria. Table 3: Non-energetic emission produced from animal in the City of Luxor (2015) in kgCH4/animal/y Number of Animals Type Manure Management Enteric Fermentation Dairy Cows 70,365 2 40 Goats 110,664 0 5 Sheep 156,031 0 5 Camels 1,701 2 46 Horses 540 2 18 Poultry 2,884,370 0 0 Mules and Asses - 1 10 Buffalos 55,842 4-5 55* 36
* Emissions from livestock and animal manure IPCC - available at: http://www.ipcc-nggip.iges.or.jp/public/2006gl/pdf/4_Volume4/V4_10_Ch10_Livestock.pdf 1.3.2.7 Tourism The Governorate of Luxor provided fuel and electricity consumption from hotels. We noticed there are no solar thermal sources registered, but very few SWH collectors were installed on top of some hotels, but not significant. Hotel waste production was provided by the Governorate. Land transport consumption is estimated based on the number of vehicles and an average trip distance of 38 km provided by Governorate of Luxor. Air transport was estimated from the number of aircrafts’ movements in Luxor airport applying the Landing and Take Off emission factor from EMEP/EEA emission inventory guidebook 2013. 2. Results 2.1. Energy consumption Total energy consumption in the city of Luxor perimeter (administrative boarder) is estimated to be 4,937 GWh Final Energy/year in 2015, equivalent to 8,61 MWh/person/year. This rate is considered to be high, due to the very important impact of tourism. If tourism consumptions were not considered, energy consumption would go down to 7,14 MWh/person/year. The following tables and charts show distribution per sectors. Table 4: Final Energy consumption/ year - Luxor GWh/yr Residential building 1 243 Tertiary building (inc. governorate buildings) 295 Public Lighting 6 Industry 518 Transport 2 002 Water, Waste 27 Tourism 842 Agriculture* 4 Figure 4: Final Energy/year (2015) * includes crops, animal production and fishing Luxor Energy consumption of Governorate’s buildings located in the city of Luxor is included under tertiary buildings, although it is detailed in the dedicated chapter and tables. 37
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 and 10: 2.2.1 Template 2.2.1 Proposed Commu
Page 11 and 12: List of tables Table 1: Emission fa
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: Value provided Method Final value E
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
Page 63 and 64: 155 boats with an average fuel cons
Page 65 and 66: Luxor and, by the way, a very effic
Page 67 and 68: 4.2.3.3 Medium-term actions (3 to 1
Page 69 and 70: electricity used in tertiary buildi
Page 71 and 72: 4.2.5.2 Possible actions As agricul
Page 73 and 74: a feed in tariff policy. If this po
Page 75 and 76: producing solar heater in small wor
Page 77 and 78: TRANSPORT Common charter for servic
Page 79 and 80: Figure 14: Seasonal (winter: Decemb
Page 81 and 82: 2.2. Climate Change Impacts in Egyp
Page 83 and 84: cause mortalities 18 . In line with
Page 85 and 86: 36 million from 1950 to 2010, popul
Page 87 and 88: harbour) in Alexandria 45 . Moreove
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The national strategy, its goals an
Page 91 and 92:
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
Page 112:
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
Page 127 and 128:
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
Page 157 and 158:
- Second National Communication on
Page 159 and 160:
- Reduce fossil fuel consumption in
Page 161 and 162:
- Directive 2001/42/EC (SEA Directi
Page 163 and 164:
- Train small local companies that
Page 165 and 166:
Staff training Governorate (Municip
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- Lamp replacement by LED 10% 783 k
Page 169 and 170:
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
Page 175 and 176:
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 and 226:
Climate Change Legislation in Egypt
Page 227 and 228:
Table of Contents LIST OF TABLES ..
Page 229 and 230:
1. Introduction Al-Qurna is one of
Page 231 and 232:
2 3 (1) Heritage Sites (2) Agricult
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Consequently, the following will be
Page 235 and 236:
- Tourism and Heritage problem Lack
Page 237 and 238:
The introduction of the by road, Lu
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the constant stream of tourists has
Page 241 and 242:
Uncoordinated designation for herit
Page 243 and 244:
d) To mitigate visiting risks throu
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from the SCA tourist info. Center s
Page 247 and 248:
- Awareness campaign for SCA staff
Page 249 and 250:
Provide comfortable environment fri
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After minimising trips by 40 per ce
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Public-Private-Partnerships (availa
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to PV system. Conclusion: - A clean
Page 257 and 258:
5.1.4 Management of Agriculture was
Page 259 and 260:
Phase 2: Continue with the rest of
Page 261 and 262:
5.1.5. Environmental public awarene
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• Spreading information and train
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Total cost of Project: 13,000 € D
Page 267 and 268:
5.2 Project fiches mid-term actions
Page 269 and 270:
Component 1: Select and formulate t
Page 271 and 272:
6. Appendix: Luxor Governorate Stra
Page 273:
Declared by H.E. the governor, Luxo
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280218_Luxor-Egypt SECAP Final_revised

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