DOCSLIB.ORG

World Bank Document

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
World Bank Document SFG3808 V1 Public Disclosure Authorized Ministry of Transport Egyptian National railways Egypt National Railways Restructuring Project Public Disclosure Authorized Public Disclosure Authorized Environmental and Social Impact Assessment Study October 2017 Phase 1: Bani Sweif – Assiut Public Disclosure Authorized (Prepared in 2008 by Environmental Quality International) Phase 2: Assiut – Nag’ Hammadi (Prepared in 2017) ESIA of Bani Sweif – Assuit and additional phase of Assuit – Sohag - Nag’ Hammadi Signaling System ESIA Report TABLE OF CONTENTS LIST OF ACRONYMS AND ABBREVIATIONS ............................................................ 4 TABLE OF TABLES............................................................................................................ 5 TABLE OF FIGURES .......................................................................................................... 7 1.0 EXECUTIVE SUMMARY ............................................................................................ 8 1.1 Project Objectives and Description ........................................................................................................... 9 1.2 Legal and Institutional Aspects ............................................................................................................... 10 1.2.1 Relevant Egyptian Legislations. .......................................................................................................... 12 1.2.2 Relevant World Bank Policies ............................................................................................................ 14 1.3 Analysis of Alternatives ............................................................................................................................ 15 1.4 Significant Impacts ................................................................................................................................... 17 1.4.1 Socio-economic impacts ..................................................................................................................... 17 1.4.2 Air Quality impacts ............................................................................................................................. 19 1.4.3 Noise impacts ...................................................................................................................................... 19 1.4.4 Surface Water ...................................................................................................................................... 21 1.4.5 Solid Hazardous and non-hazardous Waste Impacts ........................................................................... 22 1.4.6 Biodiversity ......................................................................................................................................... 25 1.4.7 Occupational Health & safety ............................................................................................................ 25 1.5 Environmental & Social Management Plan ........................................................................................... 26 1.6 Public Consultation ................................................................................................................................... 45 2.0 POLICY, LEGAL AND ADMINISTRATIVE FRAMEWORK ............................. 49 2.1 Relevant Egyptian Laws and Regulations ............................................................................................. 49 2.2 Relevant World Bank Policies ................................................................................................................ 50 2.3 Administrative framework ...................................................................................................................... 67 3.0 PROJECT OBJECTIVES AND DESCRIPTION ..................................................... 69 3.1 Background .............................................................................................................................................. 69 3.2 Additional services, land and development requirements .................................................................... 74 4.0 BASELINE DATA ........................................................................................................ 76 4.1 Geographical scope .................................................................................................................................. 76 4.2 The Physical and Biological Setting ....................................................................................................... 79 4.2.1 Geomorphology .................................................................................................................................. 79 4.2.2 Climate ................................................................................................................................................ 79 4.2.3 Noise ................................................................................................................................................... 81 4.2.4 Air Quality .......................................................................................................................................... 82 4.2.5 Soil and Ground Water pollution ........................................................................................................ 83 4.2.6 Biodiversity ......................................................................................................................................... 83 4.3 The Socio-economic setting ..................................................................................................................... 84 4.3.1 Socio-economic profile of the project area ......................................................................................... 85 4.3.2 Land Allocation for the CTC in Sohag ............................................................................................... 86 5.0 IDENTIFICATION OF ENVIRONMENTAL AND SOCIAL IMPACTS ............ 88 5.1 Data sources ............................................................................................................................................. 88 5.2 Impact Prediction .................................................................................................................................... 89 5.2.1 Identification of key impact areas ....................................................................................................... 90 5.2.2 Identification of key project activities ................................................................................................. 93 5.3 Environmental Impact Assessment methodology ................................................................................. 95 6.0 PUBLIC CONSULTATION AND DISCLOSURE ACTIVITIES ........................... 98 6.1 Public consultation meetings ................................................................................................................... 99 Environmental Quality International 2 ESIA of Bani Sweif – Assuit and additional phase of Assuit – Sohag - Nag’ Hammadi Signaling System ESIA Report 7.0 ASSESSMENT OF ENVIRONMENTAL AND SOCIAL IMPACTS .................. 100 7.1 Air Quality Impacts .............................................................................................................................. 100 7.3 Surface Water ........................................................................................................................................ 105 7.5 Biodiversity ............................................................................................................................................. 110 7.6 Occupational Health & safety .............................................................................................................. 111 7.7 Land Acquisition impacts............................................................................. Error! Bookmark not defined. 7.8 Socio-economic impacts ......................................................................................................................... 113 7.8.1 Local residents of communities adjacent to the train corridor .......................................................... 113 7.8.2 Train Users ........................................................................................................................................ 114 7.8.3 Level Crossing Users ........................................................................................................................ 115 8.0 ANALYSIS OF ALTERNATIVES ........................................................................... 118 8.1 Alternative 1: No action......................................................................................................................... 118 8.2 Alternative 2: Implementation of the proposed project. ................................................................... 118 9.0 ENVIRONMENTAL MANAGEMENT PLAN ....................................................... 121 9.1 Institutional Aspects .............................................................................................................................. 121 9.2 Environmental and Social Aspects ....................................................................................................... 126 9.2.1 Construction phase impacts ............................................................................................................... 126 9.2.2 Operation and maintenance
Load more

Recommended publications
  • 5.3 Water Environment
    5.3 Water Environment (1) Scarcity and Degradation of Freshwater in Egypt The water resources of Egypt could be divided into two systems; the Nile system and the groundwater system in desert area. The Nile system consisting of the Nile River, its branches, the irrigation canals, the agricultural drains and the valley and Delta aquifers. These water resources are interconnected. This system is replenished yearly with approximately 58.5 billion m3 of freshwater, as is given in the survey by MWRI. Egypt depends on the Nile for almost all of water resources; naturally, it is a crucial issue on how to preserve water quality of the River Nile. On the other hand, water in desert area is in deep sandstone aquifer and is generally non-renewable source, though considerable amounts of water are stored in the groundwater system. Table 5.13: Water Balance of the River Nile Water balance 3 Items (billion m /yr) Inflow Outflow & use HAD release 55.50 Effective rainfall 1.00 Sea water intrusion 2.00 Total inflow 58.50 Consumptive use agriculture 40.82 Consumptive use industries 0.91 Consumptive use domestic 0.45 Evaporation 3.00 Total use and evaporation 45.18 Navigation fresh water 0.26 Fayoum terminal drainage 0.65 Delta drainage to the sea 12.41 Total outflow 13.31 Source: MWRI Water demand in Egypt has been increasing due to population growth, higher standard of living, reclaiming new land, and advancing industrialization. Available water per capita per year for all purpose in 1999 was about 900m3; nonetheless, it is expected to fall to 670m3 and 536m3 by the years 2017 and 2025, respectively.
    [Show full text]
  • ACWA Power Business-Driven Value Development
    ACWA Power Business-driven Value Development May 31, 2016 Introduction 2 Who We Are? ACWA Power is a developer, investor, co-owner and operator of plants 32 assets investment representing value in 22.8 GW of excess of USD power 32 billion 2.5 million providing m3/day of employment desalinated to more than water 2,850 people Introduction 3 ACWA Power Renewable Energy Projects 50 MW Concentrated Solar Power (CSP) plant at Bokpoort in South Africa under construction. 100 MW of CSP has just finalized its testing in January 2016 at Redstone in South Africa. Noor I project of 160 MW CSP parabolic trough at Ouarzazate in Morocco was connected to the grid in February 2016. Noor II, 200 MW parabolic through CSP plant under construction. Noor III, 150 MW central tower CSP plants have just begun construction. Khalladi Wind project in Morocco of 120 MW capacity has achieved Financial Close on November 27, 2015. Karadzhalovo 60 MW PV project in operation since in 2012 Bulgaria. Shua’a 200 MW PV project in UAE under construction. Sunrise Solar Energy 50 MW PV project in Jordan under advanced development. Introduction 4 Global Figures on Renewable Energy: Last year Renewable capacity increased by 152 GW (8.3%) Total RE capacity in 2015 was 1,985 GW $ 286 billion invested in RE projects in 2015 2015 is a record year in RE Wind grew 62 GW (17%) with decline in onshore turbine price of 45% since 2010 Solar increased 47 GW (37%) with price drop up to 80% for solar PV modules The fasting growth was in the developing countries Introduction 5 Socio-Economic Value Socio-economic benefits are a key drivers for renewable energy deployment.
    [Show full text]
  • Mining of Leaf Rust Resistance Genes Content in Egyptian Bread Wheat Collection
    plants Article Mining of Leaf Rust Resistance Genes Content in Egyptian Bread Wheat Collection Mohamed A. M. Atia 1,* , Eman A. El-Khateeb 2, Reem M. Abd El-Maksoud 3 , Mohamed A. Abou-Zeid 4 , Arwa Salah 1 and Amal M. E. Abdel-Hamid 5 1 Molecular Genetics and Genome Mapping Laboratory, Genome Mapping Department, Agricultural Genetic Engineering Research Institute (AGERI), Agricultural Research Center (ARC), Giza 12619, Egypt; [email protected] 2 Department of Botany, Faculty of Science, Tanta University, Tanta 31527, Egypt; [email protected] 3 Department of Nucleic Acid & Protein Structure, Agricultural Genetic Engineering Research Institute (AGERI), Agricultural Research Center (ARC), Giza 12619, Egypt; [email protected] 4 Wheat Disease Research Department, Plant Pathology Research Institute, Agricultural Research Center (ARC), Giza 12619, Egypt; [email protected] 5 Department of Biological and Geological Sciences, Faculty of Education, Ain Shams University, Roxy, Cairo 11341, Egypt; [email protected] * Correspondence: [email protected]; Tel.: +20-1000164922 Abstract: Wheat is a major nutritional cereal crop that has economic and strategic value worldwide. The sustainability of this extraordinary crop is facing critical challenges globally, particularly leaf rust disease, which causes endless problems for wheat farmers and countries and negatively affects humanity’s food security. Developing effective marker-assisted selection programs for leaf rust Citation: Atia, M.A.M.; El-Khateeb, resistance in wheat mainly depends on the availability of deep mining of resistance genes within the E.A.; Abd El-Maksoud, R.M.; germplasm collections. This is the first study that evaluated the leaf rust resistance of 50 Egyptian Abou-Zeid, M.A.; Salah, A.; wheat varieties at the adult plant stage for two successive seasons and identified the absence/presence Abdel-Hamid, A.M.E.
    [Show full text]
  • Arab Republic of Egypt Land Reclamation Subsector Review
    ReporlNo. 8047.EGT * Arab Republicof Egypt Land ReclamationSubsector Review February1,1990 Public Disclosure Authorized Europe,Middle East and North Africa Region CountryDepartment IlIl AgricultureOperations Division FOR OFFICIALUSE ONLY -~~~~~~~~~~~~~~~~~~~~~~~~~~~~I- .~~~~~~~~~~~~~~~~~~~~~~~ Public Disclosure Authorized .,~~~~~~~~~~~~~~~~~~~~9 .~~~~~~~~~~. 5~ ~ ~ ~~~~~~~~~~ .3 . (, Public Disclosure Authorized ~ ~~~~~~~~~~~~~~~~~ ., ' C' /; .W Ž5 ,(5.t (')'. J C,~~~~~~~~~~~~~a * fE~~~~~~~~~~~~~~~~~'0 ; DocumnentoftheWorldBank PThisdocument has a restricted'distributionand maybe usedjy ,recipientsl -'. ' . ' onlyin theperformance of their official dities. Its contents nay ihototherwise . '. , Public Disclosure Authorized -: r sd w1thtoutWork Btankauthorization. 9' O . , f - ss -, ~ ~ '.9o ~ ~ N . 5f ot < a (- ' '., \;, o ' '~~~~~. >9t I Currency Eguivalents Currency Unit - Egyptian Pound (LE) LE 1.00 - US$ 0.408 US$1.00 - LE 2.45 Weifhts and Measures 1 feddan (fed) - 1.038 acres 1 feddan (fed) - 0.420 hectares (ha) 1 hectare (ha) - 2.380 feddans (fed) m3 - cubic meters Mm3 - million cubic meters Bm3 - billion cubic meters Principal Abbreviations and Acronyms Used ARC Agricultural Research Center BDAC Bank for Development and Agricultu:al Credit DRI Drainage Research Institute EARIS Egyptian American Rural Improvement Service EAUDRL Egyptian Authority for the Utilization and Development of Reclaimed Land ' EEA Electricity and Energy Authority FAO Food and Agriculture Organization GADD General Authority for Desert Development GARPAD General
    [Show full text]
  • Country Advice Egypt Egypt – EGY37024 – Treatment of Anglican Christians in Al Minya 2 August 2010
    Country Advice Egypt Egypt – EGY37024 – Treatment of Anglican Christians in Al Minya 2 August 2010 1. Please provide detailed information on Al Minya, including its location, its history and its religious background. Please focus on the Christian population of Al Minya and provide information on what Christian denominations are in Al Minya, including the Anglican Church and the United Coptic Church; the main places of Christian worship in Al Minya; and any conflict in Al Minya between Christians and the authorities. 1 Al Minya (also known as El Minya or El Menya) is known as the „Bride of Upper Egypt‟ due to its location on at the border of Upper and Lower Egypt. It is the capital city of the Minya governorate in the Nile River valley of Upper Egypt and is located about 225km south of Cairo to which it is linked by rail. The city has a television station and a university and is a centre for the manufacture of soap, perfume and sugar processing. There is also an ancient town named Menat Khufu in the area which was the ancestral home of the pharaohs of the 4th dynasty. 2 1 „Cities in Egypt‟ (undated), travelguide2egypt.com website http://www.travelguide2egypt.com/c1_cities.php – Accessed 28 July 2010 – Attachment 1. 2 „Travel & Geography: Al-Minya‟ 2010, Encyclopædia Britannica, Encyclopædia Britannica Online, 2 August http://www.britannica.com/EBchecked/topic/384682/al-Minya – Accessed 28 July 2010 – Attachment 2; „El Minya‟ (undated), touregypt.net website http://www.touregypt.net/elminyatop.htm – Accessed 26 July 2010 – Page 1 of 18 According to several websites, the Minya governorate is one of the most highly populated governorates of Upper Egypt.
    [Show full text]
  • Identification of Terrestrial Gastropods Species in Sohag Governorate, Egypt
    View metadata, citation and similar papers at core.ac.uk brought to you by CORE provided by Archives of Agriculture and Environmental Science Archives of Agriculture and Environmental Science 3(1): 45-48 (2018) https://doi.org/10.26832/24566632.2018.030105 This content is available online at AESA Archives of Agriculture and Environmental Science Journal homepage: www.aesacademy.org e-ISSN: 2456-6632 ORIGINAL RESEARCH ARTICLE Identification of terrestrial gastropods species in Sohag Governorate, Egypt Abd El-Aleem Saad Soliman Desoky Department of Plant protection (Agriculture Zoology), Faculty of Agriculture, Sohag University, EGYPT E-mail: [email protected] ARTICLE HISTORY ABSTRACT Received: 15 January 2018 The study aims to identify of terrestrial gastropods species in Sohag Governorate during the Revised received: 10 February 2018 year 2016 and 2017. The present study was carried out for survey and identification for ran- Accepted: 21 February 2018 dom land snail in 11 districts, i.e. (Tema, Tahta, Gehyena, El-Maragha, Saqultah, Sohag, Akhmim, El-Monshah, Gerga, El-Balyana, and Dar El-Salam) at Sohag Governorate, Egypt. Samples were collected from 5 different locations in each district during 2016-2017 seasons. The monthly Keywords samples were taken from winter and summer crops (areas were cultivated with the field crops Egypt such as wheat, Egyptian clover, and vegetables crops. The results showed that found two spe- Eobania vermiculata cies of land snails, Monacha obstracta (Montagu) and Eobania vermiculata (Muller). It was
    [Show full text]
  • ACLED) - Revised 2Nd Edition Compiled by ACCORD, 11 January 2018
    EGYPT, YEAR 2015: Update on incidents according to the Armed Conflict Location & Event Data Project (ACLED) - Revised 2nd edition compiled by ACCORD, 11 January 2018 National borders: GADM, November 2015b; administrative divisions: GADM, November 2015a; Hala’ib triangle and Bir Tawil: UN Cartographic Section, March 2012; Occupied Palestinian Territory border status: UN Cartographic Sec- tion, January 2004; incident data: ACLED, undated; coastlines and inland waters: Smith and Wessel, 1 May 2015 Conflict incidents by category Development of conflict incidents from 2006 to 2015 category number of incidents sum of fatalities battle 314 1765 riots/protests 311 33 remote violence 309 644 violence against civilians 193 404 strategic developments 117 8 total 1244 2854 This table is based on data from the Armed Conflict Location & Event Data Project This graph is based on data from the Armed Conflict Location & Event (datasets used: ACLED, undated). Data Project (datasets used: ACLED, undated). EGYPT, YEAR 2015: UPDATE ON INCIDENTS ACCORDING TO THE ARMED CONFLICT LOCATION & EVENT DATA PROJECT (ACLED) - REVISED 2ND EDITION COMPILED BY ACCORD, 11 JANUARY 2018 LOCALIZATION OF CONFLICT INCIDENTS Note: The following list is an overview of the incident data included in the ACLED dataset. More details are available in the actual dataset (date, location data, event type, involved actors, information sources, etc.). In the following list, the names of event locations are taken from ACLED, while the administrative region names are taken from GADM data which serves as the basis for the map above. In Ad Daqahliyah, 18 incidents killing 4 people were reported. The following locations were affected: Al Mansurah, Bani Ebeid, Gamasa, Kom el Nour, Mit Salsil, Sursuq, Talkha.
    [Show full text]
  • Non-Technical Summary Environmental and Social Impact Assessment (ESIA) Report
    Arab Republic of Egypt Ministry of Housing, Utilities and Urban Communities European Investment Bank L’Agence Française de Développement (AFD) Construction Authority for Potable Water & Wastewater CAPW Helwan Wastewater Collection & Treatment Project Non-Technical Summary Environmental and Social Impact Assessment (ESIA) Report Date of issue: May 2020 Consulting Engineering Office Prof. Dr.Moustafa Ashmawy Helwan Wastewater Collection & Treatment Project NTS ESIA Report Non - Technical Summary 1- Introduction In Egypt, the gap between water and sanitation coverage has grown, with access to drinking water reaching 96.6% based on CENSUS 2006 for Egypt overall (99.5% in Greater Cairo and 92.9% in rural areas) and access to sanitation reaching 50.5% (94.7% in Greater Cairo and 24.3% in rural areas) according to the Central Agency for Public Mobilization and Statistics (CAPMAS). The main objective of the Project is to contribute to the improvement of the country's wastewater treatment services in one of the major treatment plants in Cairo that has already exceeded its design capacity and to improve the sanitation service level in South of Cairo at Helwan area. The Project for the ‘Expansion and Upgrade of the Arab Abo Sa’ed (Helwan) Wastewater Treatment Plant’ in South Cairo will be implemented in line with the objective of the Egyptian Government to improve the sanitation conditions of Southern Cairo, de-pollute the Al Saff Irrigation Canal and improve the water quality in the canal to suit the agriculture purposes. This project has been identified as a top priority by the Government of Egypt (GoE). The Project will promote efficient and sustainable wastewater treatment in South Cairo and expand the reclaimed agriculture lands by upgrading Helwan Wastewater Treatment Plant (WWTP) from secondary treatment of 550,000 m3/day to advanced treatment as well as expanding the total capacity of the plant to 800,000 m3/day (additional capacity of 250,000 m3/day).
    [Show full text]
  • Assessment of Groundwater Resources for Irrigation Purposes in Assiut Governorate, Upper Egypt
    [Morsi et. al., Vol.6 (Iss.4): April 2018] ISSN- 2350-0530(O), ISSN- 2394-3629(P) (Received: Mar 03, 2018 - Accepted: Apr 29, 2018) DOI: 10.29121/granthaalayah.v6.i4.2018.1649 Science ASSESSMENT OF GROUNDWATER RESOURCES FOR IRRIGATION PURPOSES IN ASSIUT GOVERNORATE, UPPER EGYPT Mamdouh, S. Morsi *1, Abdelhai A. Farrag 2, Esam E. A. El Sayed 3 *1 Department of Mines and quarry Minia Governorate, Egypt 2 Geology Department, Faculty of Science, Assiut University, Egypt 3 Geology Department, Faculty of Science, Minia University61519, Egypt Abstract A general increase of water demand in Egypt is prominently denoted. This situation is more noticeable in the Middle and Upper Egypt of arid Zone and limited water resources in which Assiut is one of the governorates of this Zone. The main objectives of this study are to assess the groundwater quality for irrigation, and to present solutions for managing and protecting these resources in Assiut area. To achieve that, one hundred and nine groundwater samples were collected from Quaternary aquifer during autumn of the year 2013. Chemical analysis was carried out and analyzed for major and trace elements according to the irrigation water guidelines of (FAO, 1985), and Rowe, et al. 1995, taking into account the spatial variations and the representation of the hydrochemical data. The results show that 47% none degree of restriction on use and 52% Slightly to moderate degree of restriction on use, According TDS hazarded. 55 % belongs to (C2- S1) good water for irrigation all crops in all soils and45 % belongs to (C3 -S1) good water for irrigation all crops in all soils under ordinary and specific condition like adequate drainage and leaching, According U.S.
    [Show full text]
  • Water & Waste-Water Equipment & Works
    Water & Waste-Water Equipment & Works Sector - Q3 2018 Report Water & Waste-Water Equipment & Works 3 (2018) Report American Chamber of Commerce in Egypt - Business Information Center 1 of 16 Water & Waste-Water Equipment & Works Sector - Q3 2018 Report Special Remarks The Water & Waste-Water Equipment & Works Q3 2018 report provides a comprehensive overview of the Water & List of sub-sectors Waste-Water Equipment & Works sector with focus on top tenders, big projects and important news. Irrigation & Drainage Canals Irrigation & Drainage Networks Tenders Section Potable Water & Waste-Water Pipelines Potable Water & Waste-Water Pumps - Integrated Jobs (Having a certain engineering component) - sorted by Water Desalination Stations - Generating Sector (the sector of the client who issued the tender and who would pay for the goods & services ordered) Water Wells Drilling - Client - Supply Jobs - Generating Sector - Client Non-Tenders Section - Business News - Projects Awards - Projects in Pre-Tendering Phase - Privatization and Investments - Published Co. Performance - Loans & Grants - Fairs and Exhibitions This report includes tenders with bid bond greater than L.E. 10,000 and valuable tenders without bid bond Tenders may be posted under more than one sub-sector Copyright Notice &RS\ULJKW$PHULFDQ&KDPEHURI&RPPHUFHLQ(J\SW $P&KDP $OOULJKWVUHVHUYHG1HLWKHUWKHFRQWHQWRIWKH7HQGHUV$OHUW6HUYLFH 7$6 QRUDQ\SDUWRILWPD\EHUHSURGXFHG sorted in a retrieval system, or transmitted in any form or by any means, electronic, mechanical, photocopying, recording or otherwise, without the prior written permission of the American Chamber of Commerce in Egypt. In no event shall AmCham be liable for any special, indirect or consequential damages or any damages whatsoever resulting from loss of use, data or profits.
    [Show full text]
  • Christian Funerary Stelae of the Byzantine and Arab Periods from Egypt
    Christian Funerary Stelae of the Byzantine and Arab periods from Egypt von Bianca Tudor 1. Auflage Christian Funerary Stelae of the Byzantine and Arab periods from Egypt – Tudor schnell und portofrei erhältlich bei beck-shop.de DIE FACHBUCHHANDLUNG Tectum 2011 Verlag C.H. Beck im Internet: www.beck.de ISBN 978 3 8288 2631 1 Bianca Tudor CHRISTIAN FUNERARY STELAE of the Byzantine and Arab periods from Egypt Tectum Verlag Bianca Tudor CHRISTIAN FUNERARY STELAE of the Byzantine and Arab periods from Egypt Zugl.: Georg-August-Universität Göttingen, Univ. Diss. 2008 ISBN: 978-3-8288-2631-1 Umschlagabbildung: Stela inv.no. EA 54351 │ Courtesy of the Trustees of the British Museum, London Umschlaggestaltung: Susanne Bauer │ Tectum Verlag Tectum Verlag Marburg, 2011 Besuchen Sie uns im Internet www.tectum-verlag.de Bibliografische Informationen der Deutschen Nationalbibliothek Die Deutsche Nationalbibliothek verzeichnet diese Publikation in der Deutschen Nationalbibliografie; detaillierte bibliografische Angaben sind im Internet über http://dnb.ddb.de abrufbar. I INTRODUCTION 1 1 GENERAL REMARKS 1 2 STATE OF RESEARCH AND PERSPECTIVES 3 3 OBJECTIVES 9 4 METHODOLOGY 11 5 TERMINOLOGY 13 6 EDITORIAL CONVENTIONS 17 II CHRISTIAN BURIAL PLACES 19 1 GENERAL REMARKS 19 2 LOWER EGYPTIAN BURIAL PLACES 25 2.1 Alexandria 25 2.2 Western Delta 28 Marea (Hawariya) 28 Taposiris Magna (Abusir) 30 Burg al-Arab 30 2.3 Abu Mina 31 2.4 Eastern Delta 34 Tall al-Yahudiya (Suez) 34 2.5 The Memphite region 34 Giza 34 Dayr al-Nahiya 35 Abusir 35 2.6 Saqqara 35 3 MIDDLE
    [Show full text]
  • Inventory of Municipal Wastewater Treatment Plants of Coastal Mediterranean Cities with More Than 2,000 Inhabitants (2010)
    UNEP(DEPI)/MED WG.357/Inf.7 29 March 2011 ENGLISH MEDITERRANEAN ACTION PLAN Meeting of MED POL Focal Points Rhodes (Greece), 25-27 May 2011 INVENTORY OF MUNICIPAL WASTEWATER TREATMENT PLANTS OF COASTAL MEDITERRANEAN CITIES WITH MORE THAN 2,000 INHABITANTS (2010) In cooperation with WHO UNEP/MAP Athens, 2011 TABLE OF CONTENTS PREFACE .........................................................................................................................1 PART I .........................................................................................................................3 1. ABOUT THE STUDY ..............................................................................................3 1.1 Historical Background of the Study..................................................................3 1.2 Report on the Municipal Wastewater Treatment Plants in the Mediterranean Coastal Cities: Methodology and Procedures .........................4 2. MUNICIPAL WASTEWATER IN THE MEDITERRANEAN ....................................6 2.1 Characteristics of Municipal Wastewater in the Mediterranean.......................6 2.2 Impact of Wastewater Discharges to the Marine Environment........................6 2.3 Municipal Wasteater Treatment.......................................................................9 3. RESULTS ACHIEVED ............................................................................................12 3.1 Brief Summary of Data Collection – Constraints and Assumptions.................12 3.2 General Considerations on the Contents
    [Show full text]