Whether you are a local or international client, whether you require traditional construction services or untraditional ones, and whether your project is at its inception or tail end, our premium project management services have you covered.

Our competence lies in our in-depth knowledge and our abidance with the Project Management Institute (PMI) global standards. As such, we handle the planning, analysis, and proactive decision-making associated with every stage of the project lifecycle.

In this challenging yet deeply gratifying process, our PMI-certified project management professionals roll up their sleeves and lead cross-functional project teams who regularly facilitate the following aspects:

Program charters, work breakdown structures, staffing analysis, identification of project activities, governance procedures, standard reports, coding structures, metrics, and templates, detailed project schedules, validation and compression of schedules, time-cost tradeoff, generation of status memos, implementation of site facilities, risk mitigation, tight control of scopes, schedules, and budgets, and management of the design, planning, and execution stages.

Alexandria’s sewer and storm-water networks, pumping stations, and treatment plants were old and deteriorating.

Sewer breaks were frequent and untreated sewage flooded over the city streets. Raw sewage was directly discharged into the Mediterranean Sea, polluting both the sea and the beaches. To address such critical situation, a phased implementation plan was initiated by the Government of Egypt and funded by the USAID to improve and expand Alexandria’s wastewater system.

ECG, in joint venture with two global US consultants Metcalf & Eddy and CH2MHill, designed and supervised the construction of pumping stations, two major treatment plants, two bored tunnels of 21 km length and up to 1,200 mm diameter each, under-crossings, force mains, collectors, sewer networks, sea outfalls, drain improvement, sludge disposal facilities, and mechanical sludge dewatering facilities.

From 1980 to 1995, the following sub-projects were implemented under the Wastewater Upgrade Program (Phase I):

• Review and update of Alexandria Wastewater Master Plan up to the year 2000. This review included in-depth feasibility study for re-use of treated wastewater to develop an agricultural area of 70,000 acres. The review also considered the disposal of primary treated wastewater effluent through sea outfalls.
• Field investigations included comprehensive soil investigations and survey programs. The survey works comprised land survey and aerial photography for 750 km² . Works also comprised ground control of horizontal and vertical stations tied to the national second degree network and mapping in scales of 1:1000 ,1:500 and 1:5000.
• Abu Qir Force Main: 1.2 km long and 450 mm diameter.
• Sidi Bishr Force Main: 1.3 km long and 1,000 to 1,200 mm diameter.
• Smouha Force Main: 1.7 km long and 600 to 1,800 mm diameter.
• East Zone Force Main: 5.5 km long, double line and 1,500 to 1,800 mm diameter.
• Smouha Collectors: gravity sewers 6.1 km long and 200 to 2,750 mm diameter with associated manholes.
• Sidi Bishr Collectors: gravity sewers 4.3 km long and 1,200 to 1,500 mm diameter with associated manholes.
• Abu Qir Collectors: gravity sewers 6.7 km long and 300 to 1,500 mm diameter with associated manholes.
• Smouha Sewage Networks: gravity sewers, 11 km long and 200 to 900 mm diameter with associated manholes.
• Abu Qir Sewage Networks: gravity sewers, 32 km long and 200 to 800 mm diameter with associated manholes.
• ElSiouf ElKeblia and Hagar Elnawatiya Sewage Networks: gravity sewers, 8 km long and 200 to 800 mm diameter with associated manholes.
• Hydrodrome Drain Improvement including: new transition structures and miscellaneous appurtenances.
• Smouha Drain Improvement: by adding new sewers, manholes, junction boxes, transition structures and miscellaneous appurtenances.
• New East Zone Pumping Station: 21 m deep, with maximum lifting capacity of 600,000 m³/day. For dry construction purposes, a 20 m long steel sheet piles were driven to form circular cofferdam with 54 m diameter.
• New Smouha Pumping Station: 17 m deep, with maximum lifting capacity of 340,000 m³/day. For dry construction purposes, a 20 m long steel sheet piles were driven to form a circular cofferdam with 45 m diameter. An intensive dewatering system was designed and implemented during the construction period.
• New Sidi Bishr Pumping Station: 13 m deep, with maximum lifting capacity of 165,000 m³/day.
• New Maamoura Pumping Station: 12 m deep, with maximum lifting capacity of 100,000 m³/day. For dry construction purposes, a 20 m long steel sheet piles were driven to form a circular cofferdam with 45 m diameter. An intensive dewatering system was designed and implemented during the construction period.
• Upgrading the East Treatment Plant including: new headwork structures, a new flow split structure, demolishing existing clarifiers and constructing eight (8) new ones, eight (8) new pumping stations and a new on-site employee housing. (further description of the project is included in the subsequent sheets).
• Upgrading the West Treatment Plant including: new influent pumping station (955,500 m³/day), new headworks, new primary sedimentation tanks, yard piping (200 mm to 2,750 mm diameter), modifications to existing building and new on-site employee housing (further description of the project is included in the subsequent sheets).
• ElSiouf ElKeblia and West Zone Tunnels: 21 km long of 1,200 mm diameter each. Tunneling execution was either by using tunneling boring machine or by shield and jacking equipment according to soil characteristics. All manholes were constructed by sinking caisson method.
• Smouha and East Zone Undercrossings including:

1. – Smouha force main undercrossings with two highways and a double-track branch line railroad (by jacking method) and with a canal (by tunnel boring machine).
2. East Zone force main undercrossings with two highways and a doubletrack main line railroad (by jacking method) and with a canal (by tunnel boring machine).
3. Smouha drain undercrossing with two highways and a double track branch line railroad (by jacking method).

• Sludge Disposal Facilities: for the disposal of sludge, grit, scum and screenings of the treatment plants.
• Mechanical Sludge Dewatering Facilities: including new sludge equalization tanks; new dewatering pump station with equalization tank; blower and sludge transfer pumps; new dewatering building with sludge feed pumps; belt filter passing polymer system and sludge cake conveyors.