What's new

Hydro power plants updates

.,..,

Diamer Basha Dam | Construction Activities | June 2023​


 
.,..

First bin of concrete pouring completed at T5 Tarbela​

By Tahir Ali
Jun 20, 2023

First bin of concrete pouring completed at T5 Tarbela


A view of Tarbela 5th Extension Project. [photo/PowerChina]

TARBELA - After the completion of the excavation, Tarbela 5th Extension Project has entered a new construction stage by completing the first bin of concrete pouring at the project’s tailwater box culverts.

“The project team meticulously organized constructions and continued improving technologies, fostering an enabling environment for the first bin of concrete pouring,” POWERCHINA said in a statement on Monday, adding that the completion of the concrete pouring of tailwater box culverts indicates the smooth transition of the project from excavation to the concrete pouring of the main body.

On May 6, 2021, POWERCHINA signed a contract for civil works of the 1410 MW Tarbela 5th Extension Hydropower Project with the Pakistan Water and Power Development Authority (WAPDA). The project is scheduled to start electricity generation by July 2025 with an annual supply of 1.81-billion-unit low-cost and clean electricity to the National Grid.

The Generation capacity of the Tarbela Hydro Power Station will increase from 4888 MW to 6418 MW with the completion of the Tarbela 5th Extension Project, according to WAPDA official statement...
 
.,.,
Construction work continues on all key components of Tarbela 5th Extension Hydropower Project
Installed generation capacity: 1530 MW
Annual energy: 1.347 billion units of indigenous, clean, green and affordable hydel electricity
.

356201632_808381567324786_5926493729128527097_n.jpg



355889979_808381713991438_6757145786043922261_n.jpg



355892086_808381727324770_8190950622343000076_n.jpg



355866127_808381747324768_1185028203397545878_n.jpg



356023892_808381573991452_1776539423836135998_n.jpg
 
,..,,..,
Construction updates on Mohmand Dam Project being implemented on River Swat in Mohmand District of Khyber Pakhtunkhwa.
Water Storage: 1.2 MAF.
Command Area: 18,237 acres (In addition to supplementing 160,000 acres of existing land).
Installed Power Generation Capacity: 800 MW.


1690139604339.png
 
,..,.
Under construction Diamer Basha Dam is a mega multipurpose project with 8.1 MAF gross water storage and 4,500 MW installed power generation capacity.

On completion, the project will irrigate 1.23 million acres land and generate 18 billion units green, clean and low cost hydel electricity per annum.

384993112_859329485563327_347107848194985900_n.jpg






382240397_859329498896659_6337268280079951817_n.jpg



384993520_859329768896632_7183442520025315126_n.jpg



384986360_859329775563298_9204631353148184495_n.jpg
 
,.,.,.,
Under construction Mohmand Dam Project is set to achieve a major milestone with diversion of River Swat in current low flow season.
The Project, scheduled for completion in 2026-27....

1698414125270.png




1698414156808.png




1698414178172.png
 
.,.,
1698929638577.png



Ghazi Barotha HydroPower​

With generation capacity of 1450 MW and an average energy output of 6600 GWh, Ghazi Barotha Hydropower Project is located on the Indus river downstream of Tarbela Dam in District Attock (Punjab) 92.7 KM from Islamabad. The project was completed during the fiscal year 2003-2004. This is a major run of river and environmentally sustainable project designed to meet the acute shortage of peak power demand in the country. Ghazi Barotha Hydropower Project holds the record for the biggest concrete lined channel in the world and is a large, renewable and emission free source of energy.

The Barrage​

The Barrage is located 7 km downstream of Tarbela Dam and provides a pond which re-regulates the daily discharge from Tarbela by diverting the flow into the Power Channel. The principal features include 20 No. standard bays, 8 No. under sluices and 8 No. head regulator bays in addition to rim embankments, fuse plug and dividing island.

The Barrage can pass the design flood of 18,700 cumecs, equivalent to the flood of record, through the standard bays and under sluices at the normal pond level of El. 340 m. The fuse plug has been provided to pass the extreme flood up to the capacity of Tarbela’s spillway and tunnels equaling 46,200 cumecs.

Barrage​

Metric Units​

British Units​

Normal pond level340 m SPD1115.5 ft
Max. (Survival) pond level341.5m SPD1120.4 ft
Min Pond Storage level334.5 m SPD1097.4 ft
Live storage capacity50 MCM40535.70 Acre ft
Design flood discharge capacity 18750 cumecs662,200 cusecs
Survival flood capacity46,200 cumecs1,631,600 cusecs
Standard Bays20 (18.3 x 8.3 m)8 (60 x 11.5 ft)
Head regulator8 (18.3 x 7.5 m)8(60 x 25 ft)

Power Channel​

Ghazi Barotha Hydropower Project holds the record for the biggest concrete lined channel in the world. The channel is 51.90 km long with a concrete lining and design flow of up to 1600 cumecs at a water depth of 9 m. It has a bottom width of 58.4 m.

The Power Channel has a nearly contour alignment with hills on the left side and the land naturally draining towards the Indus River on the right side. It intercepts fifty three nullahs (natural drains) of which twenty-seven major nullahs have been passed over the Power Channel by providing super passages.

In addition to the thirty four road bridges, there are 12 pedestrian crossings over the Power Channel while the main railway line joining Rawalpindi to Peshawar also crosses the power channel. This may be the last riveted bridge of its type, constructed in Pakistan.

Main Features:​

Design flow1,600 cumecs
Longitudinal slope1:9600
Length51,906 m
Full supply depth9 m
Bed width 58.4 m
Side slopeIV: 2H
Lining thickness135 mm

Power Complex​

The Power Complex is located near the confluence of the Indus and Haro rivers. It comprises a forebay, a siphon spillway , two head ponds, a power in take structure, penstocks, a power house with five 290 MW each turbo generators and a tail race channel.

The two head ponds with a combined live storage capacity of approximately 25.5 million cubic meters is sufficient for daily requirement of 4 hours peak generation. In May and June, when there is reduced power generation from Tarbela and Mangla power houses, Ghazi Barotha Hydropower Project provides peak production of 1450 MW.

No. of Generating Units5
Rated Capacity per Unit290 MW
Total installed Capacity1450 MW
Generation voltage18 KV
Rated Head (Ft.)69 Meters

Project Implementation of Ghazi Barotha HydroPower Project​

Ghazi Barotha Hydropower Project with a generation capacity of 1450 MW and an average energy output of 6600 GWh is a large, renewable and emission free source of energy towards WAPDA's vision 2025 goals.

The shortage of electrical power at affordable cost has long been identified as one of the main hurdles to the industrial and economic growth of Pakistan. The demand for electricity is growing rapidly and requires a considerable increase in the rate at which new generating capacity is introduced. Presently demand is met through a mix of thermal and hydroelectric plants.

The percentage of thermal power generation has continued to increase in recent years, with a noticeable impact on unit cost of generation. WAPDA has continually sought to maximize the country's capacity for Hydropower generation and reduce the dependence upon thermal power generation.

In the Feasibility Report, the time for Project implementation of Civil and M&E contracts was estimated as 63 months starting from 01 April 1993. With the approval of PC-1 of Preparatory works including land acquisition, relocation, resettlement, and construction of colonies and other infrastructure for Project were commenced in 1995.

The implementation of the Project ultimately came to fruition with the inauguration ceremony of the commissioning of Unit No.1 and Unit No.2 on 19 August 2003 by the President of Pakistan.

The work on the commissioning of other units continued and Unit no.5 was commissioned in April 2004. The construction of the North Head pond was completed in December 2004, thus completing the implementation of the Project works.
 
Back
Top Bottom