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Since 1965
The project will provide 202 million m3 per year to Izmit and Istanbul Cities.The Project consists of : - Prestressed reinforced concrete pipe or steel pipes of various diameters (Diamater: 2200 mm / Total Length: 90 km) - 480 000 m³/day capacity Treatment Plant - 818 m long tunnel (Diameter: 3500 mm) - Water Tanks in various sizes
Design Criteria : 2025 year population : 1 200 000 Design discharge : 19779 m³/hour Incoming BOD concentration : 203 g/m³ Incoming suspended particle concentration : 300 g/m³ Product BOD concentration : 25 g/m³ Product suspended particle concentration : 30 g/m³ Receiving stream : Porsuk River
Akcakale is located in Southeast Anatolia, on Syrian border. 85,000 people at 2027 year, 371 lt/sec project design discharge, 95 km sewer system and 4 km transmission line design, treatment plant is extended aeration type, 1,002 m³/hour project design discharge, 90% treatment, 20160 m³ (14 pieces) aeration pools, 8948 m³ final sedimentation tanks (2 pieces), 18816 m² sludge drying pools and 350 kW surface aerators.
Investigation of polluting factors in the drainage area of Devegeçidi and Dicle dams which are designed to supply water for Diyarbakir City (most crowded settlement in Southeastern Anatolia) and preparation of final designs of facilities to stop industrial, agricultural and oil based polluters.
Design of 50-1000 m3 Volume Prismatic Service and Collection Tanks Type Projects. Preparation of type projects of reinforced concrete warehouses to be used in drinking water facilities to be built by Iller Bank.
Service area of the project covers 87 villages in mountainous regions of Albania accumulated in 5 separate districts, for a total population of 66,000 inhabitants.
The objective of the Yeşilçay Project is to supply 145 million m³ of potable water per year to the city of Istanbul and its surrounding area (the service area) by diverting and treating water from the Sungurlu and Göksu rivers in order to ensure sustained economic growth and to maintain the hygiene of approximately 7.5 million inhabitants. The project is consisted of intake weirs (Sungurlu & İsaköy), open canals (8 m³/s-4 km, 13 m³/s-1.25 km), pumping stations (Kurfallı-3000 kW & Darlık-2500 kW)
The main scope of the project is to maintain urgent potable water supply of Bodrum Peninsula - one of the premium tourism regions of Turkey. The network, which will serve for an existing summer population of 300,000 is designed to supply sufficient water for 650,000 inhabitants.
İzmir is the third crowded city of Turkey, on Egean coast. The project comprises: Main transmission line of 4.20 m³/s capacity, 94.5 km long, Ø2000 mm diameter steel pipeline
The project covers design and tender documentation of water supply, sewerage and stormwater networks for Gebze (pop. 713000), Saraybahce (pop. 256000), Sarimese, Masukiye, Acisu, Derbent, Kurucesme and Kullar. Designs of following components are performed:
The project covers design and tender documentation of:
The project covers feasibility, design and tender documentation of water supply scheme for Adiyaman city with 627 000 target population for year 2050:
The project covers revision of feasibility, construction design and preparation of tender documents for water supply scheme in order to supply an additional 226 million m³ water per year for Ankara city. The project is consisted of:
Feasibility study for potable water supply of Igdır city and irrigation water for Tuzluca plain. Project components are: • 63.00 m high, clay core rock-fill Unlendi dam. • Laleli Weir and transmission facilities. • Kuruağaç Weir and transmission facilities (7931 ha). • Kamışlı Weir and transmission facilities (611 ha). • Göktaş Weir and transmission facilities (1320 ha). • Treatment Plant, transmission lines, storage and related facilities required for Iğdır Province.
Feasibility studies of integrated irrigation schemes composed of: 4 dams, storage and reclamation facilities, Total water reservoir of 36.08 million m³, Total irrigation area of 7681 (gross) ha, Total irrigation water of 21.18 million m³ per year, HPP with 1.3 MW installed capacity. Soğucak Dam Height : 60.70 m (from thalweg), Type : Clay Core Rockfill Dam Reservoir Volume : 6.01 hm³ Purpose : Potable water supply (14 Villages + Vezirköprü District) + Irrigation Amount of Water Supplied: 1.82 hm³/year Irrigation Area : 1509 ha (gross) Taşkelik Dam Height : 92.50 m (from thalweg), Type : Clay Core Rockfill Dam Reservoir Volume : 24.93 hm³ Purpose : Potable water supply (16 Villages + Alaçam - Yakakent Districts) + Irrigation + Energy Amount of Water Supplied: 2.41 hm³/year Irrigation Area : 4985 ha (gross) Installed Power: 1.3 MW Annual Energy Generation: 2924 MWh Gölçay Dam Height : 59.50 m (from thalweg), Type : Clay Core Semi-Permeable Earth Dam Reservoir Volume : 4.83 hm³ Purpose : Irrigation Irrigation Area : 1099 ha (gross) Doluca Dam Height : 33.00 m (from thalweg), Type : Composite Earth Dam Reservoir Volume : 0.314 hm³ Purpose : Irrigation Irrigation Area : 88 ha (gross)
The project covers: - Condition assessment and rehabilitation of the existing 1st stage water treatment plant with 720,000 m³/day capacity, - detailed design of 2nd stage water treatment plant with 1,123,000 m³/day capacity and, - architectural and conceptual design of the 3rd stage WTP with 1,123,000 m³/day capacity.
Feasiblity study for Yaylacık dam to meet drinking and industry water demand of Bursa city. In order to meet the drinking and potable water needs of the settlements in the service area in a healthy, continuous and economical way, this project investigates contribution of Hasanağa and Kayapa dams which were built for irrigation purposes. in addition to the existing drinking water resources, Yaylacik Dam will be studied to supply drinking water to the system.
To provide technical and operational/management support. The consultant will assist the respective city water & sanitation services department in (i) improving water and sewerage services to customers utilizing the additional asset base created in these cities; (ii) improving technical and commercial efficiency of water utility, sanitation, solid waste management operations, ; (iii) enhancing human resource management and productivity; and (iv) ensure full cost recovery and financial sustainability of the respective city Water & Sanitation Company; (v) conduct SWOT analysis and design a business & operational model for other municipal / government services like traffic management, transport management, disaster management etc. (vi) to design an overall Integrated city management solution / mechanism. (vii) design a mechanism for calculation & forecasting of ROI & ARPU for the Government.
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