Plant Description
The West Damietta site is located on the Mediterranean Sea north coast, 15 km west of the New Damietta port near Damietta City. The existing facility consists of four (4) outdoor combustion turbine generators (CTGs) GE Frame 9E (4 x 125 MW) installed and commissioned in 2011. The new project accommodates one combined cycle module. It has a 4x4x1 configuration consisting of four (4) combustion turbines from the existing units. Each one feeds its exhaust gases to its respective heat recovery steam generator (HRSG), for a total of four (4) HRSGs and one 250 MW nominal steam turbine unit. Steam generated from the four (4) HRSGs feeds one 250 MW, non-reheat, condensing steam turbine generator (STG).
The new facility estimated 250 MW net output is achieved by burning natural gas in the CTGs with no supplementary firing in the HRSGs. The steam exhausted from the steam turbine is discharged into air cooled condenser. Air is used for the power plant cooling demand. Power generated is stepped up through a main transformer and fed to the utility grid via an onsite GIS existing switchyard facility 220 kV over head transmission line (OHTL). The current switchyard has space for one spare bay adequate for the new steam turbine unit.
The project contracting plan utilized a multi-package system. Eight (8) contracting packages and purchase orders procured the equipment and services.
Plant Description
Al Shabab site is located 33 Km West and 10 km South of Ismailia and El-Kassassin Cities respectively, in the Ismailia Governorate. The existing facility consists of eight (8) outdoor combustion turbine generators (CTGs) GE Frame 9E (8 x 125 MW) installed and commissioned in 2011.
The new project accommodates two (2) combined cycle modules. Both modules have a 4x4x1 configuration consisting of four (4) combustion turbines from the existing units. Each one feeds its exhaust gases to its respective heat recovery steam generator (HRSG) for a total of four (4) HRSGs and one 250 MW nominal steam turbine unit. Steam generated from the four (4) HRSGs feeds one 250 MW, non- reheat, condensing steam turbine generator (STG).
The new facility estimated 500 MW net output is achieved when burning natural gas in the CTGs with no supplementary firing in the HRSGs. The steam exhausted from the steam turbine is discharged into an air cooled condenser. Air is used for the power plant cooling demand. Power generated is stepped up through main transformers and fed to the utility grid via an onsite GIS existing switchyard facility 220 kV over head transmission line (OHTL). The current switchyard has space for two spare bays adequate for the new steam turbine units.
The project contracting plan utilized a multi-package system. Eight (8) contracting packages and purchase orders procured the equipment and services.
Plant Description
Banha power project includes a power block that consists of two 250 MW Combustion Turbine Generators (CTGs). Each one feeds exhaust gases to its respective unfired Heat Recovery Steam Generator (HRSG). Steam from the two HRSGs feeds one 250 MW, single reheat, condensing Steam Turbine Generator (STG).
The estimated 750 MW net output is achieved by burning natural gas in the CTGs without supplementary HRSG firing. Nitrogen oxides of nitrogen (NOx) emissions are controlled by dry low-NOx (DLN) combustors. An inlet air filtration system supplies filtered combustion air to the CTGs. The steam exhausted from the steam turbine feeds a once-through cooling, single-pass, divided water box condenser.
Power is generated at manufacturer standard voltage in the CTGs and the STG, stepped up through main transformers, and fed to the grid via a 220 kV, GIS switchyard. The Rayah Tawfiki provides the plant cooling water.
The project contracting plan utilized a multi-package system. Sixteen (16) contracting packages and purchase orders procured the equipment and services.
Plant Description
Giza North power project consists of three modules each module includes two 250 MW Combustion Turbine Generators (CTGs). Each one feeds exhaust gases to its respective unfired Heat Recovery Steam Generator (HRSG). Steam from the two HRSGs feeds one 250 MW, single reheat, condensing Steam Turbine Generator (STG).
The estimated 2250 MW output is achieved by burning natural gas in the combustion turbines with no supplementary HRSG firing. Nitrogen Oxide (NOx) emissions are controlled by dry low-NOx (DLN) combustors. An inlet air filtration system is included to supply suitably filtered combustion air to the CTGs. The steam exhausted from the steam turbine is feeds a once-through cooling, single-pass, divided water box condenser.
Power is generated at manufacturer standard voltage in the CTGs and the STG, stepped up through main transformers, and fed to the National grid via a 500 kV & 220 kV, GIS switchyard. The Rayah Behery provides the plant cooling water.
The project contracting plan utilized a multi-package system. Seventeen (17) contracting packages and purchase orders procured the equipment and services.
Plant Description
El Atf power project consists of two 250 MW combustion turbine generators (CTGs). Each one feeds ex-haust gases to its respective unfired heat recovery steam generator (HRSG) with no supplementary firing. Steam from two HRSGs feeds one 250 MW, single reheat, condensing Steam Turbine Generator (STG).
The estimated 750 MW net output is achieved by burning natural gas in the CTGs without supplementary HRSG firing. Nitrogen Oxide (NOx) emissions are controlled by dry low-NOx (DLN) combustors. An inlet air filtration system supplies filtered combustion air to the CTGs. The steam exhausted from the steam turbine feeds a once-through cooling, single-pass, divided water-box condenser.
Power is generated at manufacturer standard voltage in the CTGs and the STG, stepped up through main transformers, and fed to the National grid via a 220 kV, GIS switchyard. The Nile River provides the plant cooling water which is then discharged to the Marquase Canal.
The project contracting plan utilized a multi-package system. Sixteen contracting packages and purchase orders procured the equipment and services.
Plant Description
Sidi Krir power project consists of two 250 MW combustion turbine generators (CTGs). Each one feeds exhaust gases to its respective unfired heat recovery steam generator (HRSG). Steam from the two HRSGs is fed to one 250 MW, single reheat, condensing Steam Turbine Generator (STG).
The estimated 750 MW net output is achieved when burning natural gas in the combustion turbines without supplementary HRSG firing. Nitrogen Oxides (NOx) emissions are controlled by dry low-NOx (DLN) combustors. An inlet air filtration system supplies filtered combustion air to the CTGs. The steam exhausted from the steam turbine feeds a once-through cooling, single-pass, divided water box condenser.
Power is generated at manufacturer standard voltage in the CTGs and the STG, stepped up through main transformers, and fed to the National grid via a 500 kV, GIS switchyard. The Mediterranean Sea provides the plant cooling water.
The project contracting plan utilized a multi-package system. Sixteen (16) contracting packages and purchase orders procured the equipment and services.
Plant Description
Kureimat III power project includes a power block that consists of two 250 MW combustion turbine generators (CTGs). Each one feeds exhaust gases to its respective heat recovery steam generator (HRSG). Steam from two HRSGs feeds one 250 MW (nominal), reheat, condensing steam turbine generator (STG).
The estimated 750 MW net output is achieved by burning natural gas in the CTGs without supplementary HRSG firing. Nitrogen Oxide emissions are controlled by dry low-NOx (DLN) combustors. An inlet air filtration system supplies filtered combustion air to the CTGs. The steam exhausted from the steam turbine feeds into a once-through cooling, single-pass, divided water-box condenser.
Power is generated at manufacturer standard voltage in the CTGs and the STG, stepped-up through main transformers and fed to the utility grid via the extension of the existing 220 kV, gas-insulated switchgear (GIS) switchyard. The Nile River provides the plant cooling water.
The project contracting plan utilized a multi-package system. Five (5) contracting packages and purchase orders procured the equipment and services.
Plant Description
Kureimat II power project includes a power block that consists of two 250 MW combustion turbine generators (CTGs). Each one feeds exhaust gases to its respective heat recovery steam generator (HRSG). Steam from the two HRSGs feeds one 250 MW (nominal), reheat, condensing steam turbine generator (STG).
The estimated 750 MW net output is achieved by burning natural gas in the CTGs without supplementary HRSG firing. Nitrogen Oxide (NOx) emissions are controlled by dry low-NOx (DLN) combustors. An inlet air filtration system is included to supply suitably filtered combustion air to the CTGs. The steam exhausted from the steam turbine feeds a once-through cooling, single-pass, divided water box condenser.
Power is generated at 21 kV (or manufacturer standard voltage) in the CTGs and the STG, stepped up through main transformers, and fed to the utility grid via the existing a new 220 kV (GIS) switchyard. The Nile River provides the plant cooling water.
The project contracting plan utilized a multi-package system. Eight (8) contracting packages and purchase orders procured the equipment and services.
Plant Description
Talkha power project consists of two 250 MW combustion turbine generators (CTGs). Each one feeds exhaust gases to its respective unfired heat recovery steam generator (HRSG). Steam from the two HRSGs feeds one 250 MW, reheat, condensing steam turbine generator (STG).
The estimated 750 MW net output is achieved by burning natural gas in the CTGs with no supplementary firing in the HRSGs. Nitrogen oxide (NOx) emissions are controlled by dry low-NOx (DLN) combustors. An inlet air filtration system is included to supply suitably filtered combustion air to the CTGs. The steam exhausted from the steam turbine feeds a once-through cooling, single-pass, divided water box condenser.
Power is generated at 21 kV (or manufacturer standard voltage) in the CTGs and the STG, stepped up through main transformers, and fed to the utility grid via the existing 220 kV (GIS) switchyard. The Damietta branch of the Nile River provides the plant cooling water.
The project contracting plan utilized a multi-package system. Eight (8) contracting packages and purchase orders procured the equipment and services.
Plant Description
Nubaria III power project consists of one module 750 MW comprised of two 250 MW combustion turbine generators (CTGs). Each one feeds exhaust gases to its respective heat recovery steam generator (HRSG) with no supplementary firing. Steam from the two HRSGs is fed to one 250 MW, reheat, condensing steam turbine generator (STG). Nitrogen Oxide emissions are controlled by dry low NOx (DLN) combustors. An inlet air filtration system supplies filtered combustion air to the CTGs. The steam exhausted through the steam turbine feeds a once-through cooling, single-pass, divided water-box condenser.
Power is generated at manufacturer standard voltage in the CTGs and the STG, stepped-up through main transformers and fed to the national grid via a 500 kV, conventional switchyard. The Rayah El Nasery Canal provides the plant cooling water.
The project contracting plan utilized a multi-package system. Fourteen (14) contracting packages and purchase orders procured the equipment and services.
Plant Description
Nubaria I&II power project is two slides along modules delivering 1500 MW (750 MW each). Both modules include two 250 MW combustion turbine generators (CTGs). Each one feeds exhaust gases to its respective heat recovery steam generator (HRSG) with no supplementary firing. Steam from the two HRSGs feeds one 250 MW, reheat, condensing steam turbine generator (STG). Nitrogen Oxide (NOx) emissions are controlled by dry low-NOx (DLN) combustors. An inlet air filtration system supplies filtered combustion air to the CTGs. The steam exhausted from the steam turbine feeds a once-through cooling, single-pass, divided water box condenser.
Power is generated at manufacturer standard voltage in the CTGs and the STG, stepped up through main transformers, and fed to the national grid via a 500 kV and a 220 kV, conventional switchyard. The Nubaria Canal provides the plant cooling water.
The contracting plan utilized a multi-package system. Twenty-two (22) contracting packages and purchase orders procured the equipment and services.
Plant Description
Cairo North power project consists of two modules each module includes two 250 MW combustion turbine generators (CTGs). Each one feeds exhaust gases to its respective heat recovery steam generator (HRSG). Steam from two HRSGs feeds one 250 MW, reheat, condensing steam turbine generator (STG).
The estimated 1500 MW net output is achieved by burning natural gas in the CTGs without supplementary HRSG firing. Nitrogen Oxide (NOx) emissions are controlled by dry low-NOx (DLN) combustors. An inlet air filtration system supplies filtered combustion air to the CTGs. The steam exhausted from the steam turbine feeds a once-through cooling, single-pass, divided water box condenser.
Power is generated at 21 kV (or manufacturer standard voltage) in the CTGs and the STG, stepped up through main transformers, and fed to the utility grid via a 220 kV (GIS) switchyard. The Ismailia Canal provides the plant cooling water.
The project contracting plan utilized a multi-package system. Sixteen (16) contracting packages and purchase orders procured the equipment and services.
PGESCo provided services to Bechtel in the conceptual and detailed design of Al-Taweelah B Power Plant Project in the United Arab of Emirates.
Al-Taweelah B is a 320 MW Combined Cycle Power Plant consisting of two (2) Combustion Turbine Generators, two (2) Heat Recovery Steam Generators, and one (1) Steam Turbine Generator.
PGESCo scope included design review, site supervision and project management of Benghazi North 2 X 150 MW project. The scope also included plant equipment material inspection and performance testing.
PGESCo scope included design review, site supervision and project management of Zawia Combined Cycle project. The scope also included plant equipment material inspection and performance testing.
PGESCo scope included design review, site supervision and project management of Benghazi Combined Cycle Power Plant 2X2X1. The scope also included plant equipment material inspection and performance testing.
PGESCo scope included design review, site supervision and project management of Misurata Combined Cycle Power Plant 2X2X1. The scope also included plant equipment material inspection and performance testing.
PGESCo scope included design review, site supervision and project management of Zwitina Combined Cycle 250 MW add-on Project. The scope also included plant material inspection and performance testing for all plant equipment. The scope is to convert the existing 2 X 250 MW Gas Turbine Power Plant into a 2X2X1 Combined Cycle Power Plant for a total capacity of 750 MW.
