Fact-checked by Grok 2 weeks ago

Jurala Project

The Priyadarshini Jurala Project, commonly known as the Jurala Project, is a multipurpose dam constructed on the Krishna River in Jogulamba Gadwal district, Telangana, India, primarily for irrigation and hydroelectric power generation.^[1] Completed in 1995, the project features a reservoir with a full capacity of 11.94 thousand million cubic feet (TMC) at a level of 1,045 feet, enabling it to store water for agricultural use in drought-prone regions.^[1]^[2] The project's irrigation infrastructure includes left and right main canals that directly benefit 1,04,774 acres of farmland, with additional supplementation for 30,000 acres in tail-end areas and contributions to larger schemes such as the Jurala Nagarjuna Sagar Left Irrigation Project (2,00,000 acres), the Ramanpad Balancing Reservoir (6,824 acres), the Rayalaseema Branch Left Irrigation Project (2,00,000 acres), and the Krishna South Lanka Irrigation Project (50,250 acres).^[1] Its hydroelectric component, commissioned in 2008, consists of six 39 MW turbines with a total installed capacity of 234 MW, operated under the ownership of Telangana State Power Generation Corporation Limited.^[3] The facility's design also supports flood control, with a maximum discharge capacity of 35,396 cubic meters per second, serving as a critical resource in the Krishna River basin's catchment area of 129,499 square kilometers.^[1]

Background and Overview

Location and Geography

The Priyadarshini Jurala Project is situated at 16°20′15″N 77°42′15″E, near Revulapally village in Dharoor mandal of Jogulamba Gadwal district, Telangana, India.^[1] The site lies approximately 15 km northwest of Gadwal town and 10 km from Kuravapur village.^[2] This location places the project in a semi-arid region of southern India, accessible via National Highway 44 connecting major cities like Hyderabad (about 170 km northeast) and Kurnool (about 100 km southeast).^[4] The project is constructed across the Krishna River, which forms part of a major interstate river basin spanning Maharashtra, Karnataka, Telangana, and Andhra Pradesh, governed by water-sharing agreements among these states.^[5] The catchment area contributing to the project measures 129,499 square kilometers, with contributions primarily from upstream areas in Maharashtra (54%) and Karnataka (43%), and a smaller portion from Telangana (3%).^[1] Positioned upstream from the Srisailam Dam, the Jurala site receives inflows from major upstream reservoirs such as Almatti and Narayanpur in Karnataka, facilitating regulated flow through the basin.^[6] The topography of the area features the undulating terrain of the Deccan Plateau, an expansive volcanic plateau with elevations averaging 600 meters above sea level and characterized by basaltic rock formations that provide stable foundations for hydraulic structures. This plateau landscape, sloping gently eastward toward the Bay of Bengal, influenced site selection by offering narrow river gorges and resistant geology suitable for dam construction in the Krishna Valley.^[7] The surrounding region includes scrublands and dry deciduous forests, typical of the plateau's semi-arid climate with seasonal monsoons shaping the river's course.^[8]

Purpose and Significance

The Priyadarshini Jurala Project is a multipurpose initiative primarily aimed at irrigation, hydroelectric power generation, and flood control along the Krishna River in Telangana. It provides irrigation to a direct ayacut of 102,200 acres (41,360 hectares) through its Left Main Canal (N.T.R. Canal) covering 64,500 acres in Jogulamba Gadwal district and Right Main Canal (Nalla Somanadri Canal) covering 37,700 acres in Wanaparthy and Nagarkurnool districts, primarily in the Jogulamba Gadwal district and adjacent areas.^[9] The project also generates 234 MW of hydroelectric power via six units of 39 MW each, harnessing surplus monsoon flows for clean energy production.^[9] Additionally, it facilitates flood control by accommodating peak discharges of up to 35,390 cubic meters per second (12.5 lakh cusecs), helping to mitigate downstream flooding risks during heavy rains.^[9] The project's significance lies in bolstering water security for Telangana, especially in the drought-prone regions of Jogulamba Gadwal district and adjacent Wanaparthy and Nagarkurnool districts, such as the mandals of Dharur, Gadwal, Atmakur, Pebbair, and Kollapur, where erratic rainfall has historically challenged agricultural productivity.^[9] With an allocation of 17.84 thousand million cubic feet (TMC) of Krishna water under the Krishna Water Disputes Tribunal and a gross storage capacity of 11.94 TMC, it ensures a dependable supply for rabi and kharif crops, including paddy, cotton, and pulses, thereby stabilizing food production and rural economies in these arid zones.^[1] This allocation supports not only direct canal irrigation but also downstream lift schemes like the Jawahar Nettempadu and Rajiv Bhima projects, extending benefits to over 400,000 additional acres indirectly.^[1] In the broader political and developmental landscape, the Jurala Project underscores Telangana's strategic interests in the ongoing inter-state Krishna water disputes between Telangana and Andhra Pradesh, particularly regarding hydel power utilization from shared reservoirs post-2014 bifurcation.^[10] A 1978 agreement between the erstwhile Andhra Pradesh and Karnataka fixed the project's full reservoir level at 318.516 meters, affirming its role in equitable water sharing under the tribunal's framework.^[9] Developmentally, it has transformed local agriculture by enabling year-round cultivation and providing drinking water to nearby villages (0.2 TMC), fostering socioeconomic growth and reducing migration from water-stressed areas.^[9]

History and Development

Planning and Initiation

The planning for the Priyadarshini Jurala Project originated in the 1970s under the Government of Andhra Pradesh as part of efforts to harness Krishna River waters for irrigation and hydropower in drought-prone regions. The project was first proposed during the proceedings of the Krishna Water Disputes Tribunal (KWDT-I), established in 1973 to resolve interstate water sharing among Maharashtra, Karnataka, and Andhra Pradesh. In its submissions to the tribunal, Andhra Pradesh included the Jurala Project (Stage I) with an allocation of 17.84 TMC of water, contributing to the state's overall claim of 800 TMC from Krishna waters. The tribunal's final award in 1976 granted Andhra Pradesh 811 TMC, incorporating the Jurala allocation as a key multipurpose component for downstream regulation and utilization.^[11] Interstate coordination advanced the project in the late 1970s, with a pivotal meeting on October 3, 1977, addressing the constitution of the Jurala Project, including specifications for its full reservoir level (FRL) and maximum water level (MWL). This led to a formal agreement signed between the governments of Andhra Pradesh and Karnataka on August 4, 1978, establishing the FRL/MWL at +318.516 meters to ensure equitable water sharing and minimize cross-border impacts. Key stakeholders encompassed the Andhra Pradesh Irrigation Department as the lead agency, alongside the Central Water Commission (CWC), which provided technical appraisal and oversight during the pre-construction phase. The CWC examined the detailed project configuration in 1982, confirming its feasibility for irrigating approximately 48,603 hectares annually while generating 234 MW of hydropower.^[12]^[9]^[13] Funding for the project was secured through allocations from both state and central government budgets, with the initial estimated cost set at Rs. 76.40 crores to cover design, land acquisition, and preparatory works. Environmental clearances were obtained as per standard protocols for interstate river projects, involving assessments by the Ministry of Environment and Forests to address potential ecological impacts in the Krishna basin. Planning addressed siltation concerns from the high sediment load in the Krishna River by incorporating provisions for long-term capacity loss. Subsequently, actual siltation has reduced the gross storage from the designed 11.94 TMC to 9.657 TMC as of 2016. These adjustments underscored the emphasis on resilient design amid hydrological uncertainties.^[13]^[1]^[14]

Construction Timeline

The construction of the Priyadarshini Jurala Project commenced in 1981 at an estimated cost of Rs. 76.40 crores, aimed at providing irrigation to drought-affected areas in the region.^[9] The foundation stone was laid by then Prime Minister Indira Gandhi, underscoring the project's national significance.^[1] The project involved multiple phases, including the erection of earthen dams on the left (1.74 km long) and right (1.47 km long) flanks, construction of a 1,322 m long masonry barrage, and installation of a spillway featuring 62 radial gates.^[9] Hydroelectric components were integrated to generate 234 MW of power, with the powerhouse forming a key part of the infrastructure.^[2] Significant delays plagued the project, including a 9-year halt in construction activities due to unspecified factors, which contributed to funding challenges and cost escalations; the budget was later revised to Rs. 1,815.20 crores by 2012-13.^[15] These setbacks extended the overall timeline, with major work resuming in the early 1990s. The irrigation components were finalized in 1995, allowing the reservoir to reach operational status with a capacity of 11.94 TMC.^[1] The dam structure was completed in 1996, enabling first impoundment. The hydroelectric facilities were commissioned in 2008, achieving full functionality.^[16] Following the bifurcation of Andhra Pradesh and the formation of Telangana in 2014, the project—located entirely within Telangana—underwent asset division processes and was fully transferred to the Telangana Irrigation Department by 2016. In 2014, prior to full asset division, Telangana and Karnataka signed a power purchase agreement to share the project's 234 MW hydroelectric output, formalizing power allocation.^[9]^[17]

Technical Specifications

Dam and Spillway Design

The Priyadarshini Jurala Project dam is a composite structure comprising an earthen embankment flanked by a central gravity masonry barrage, designed to impound the Krishna River while accommodating multipurpose functions. The central barrage section stands at a maximum height of 40 meters above the deepest foundation and measures 1,322 meters in length between abutments, including 927 meters dedicated to the spillway and 162 meters for power blocks. Including the earthen embankments on both flanks—1.74 kilometers on the left and 1.47 kilometers on the right—the total length of the dam structure extends to 4,534 meters.^[9]^[1] The spillway, integral to the barrage, features an ogee profile for efficient flow over the crest at elevation +310 meters, equipped with 62 radial gates each 12 meters wide by 8.516 meters high. This configuration enables a maximum flood discharge capacity of 35,396 cubic meters per second (approximately 12.5 lakh cusecs), ensuring safe routing of extreme inflows during monsoons.^[9]^[1] Key design considerations emphasize structural resilience in a seismically active region classified under Zone II, with the composite materials and foundations engineered to withstand moderate earthquake intensities as per Indian standards. Erosion control measures incorporate a stilling basin downstream of the spillway to dissipate hydraulic energy and prevent scour on the riverbed, while the earthen embankments include drainage galleries (1.50 meters by 2.25 meters) to manage seepage and maintain slope stability. The project does not integrate a navigation lock, focusing instead on irrigation and power generation priorities.^[18]^[9]

Reservoir Characteristics

The Priyadarshini Jurala reservoir maintains a full reservoir level (FRL) of 318.52 meters and a minimum drawdown level (MDDL) of 314.86 meters, defining the operational range for water storage.^[9] These elevations ensure structural stability while accommodating seasonal fluctuations in water volume. The dam's height contributes to this vertical storage profile, enabling effective containment of inflows.^[9] Storage capacities include a gross volume of 338.103 million cubic meters (MCM) at FRL, with live storage of 192.27 MCM available for utilization above the MDDL.^[9] Originally designed for a total capacity of 11.94 thousand million cubic feet (TMC), sedimentation has reduced the effective gross capacity to 9.657 TMC as of recent evaluations.^[1]^[19] This adjustment reflects cumulative silt deposition from upstream sources, progressively diminishing usable storage and necessitating periodic surveys for capacity updates.^[16] Hydrological dynamics are dominated by inflows from the upstream Srisailam reservoir, which regulate water supply to Jurala based on Krishna basin allocations and monsoon-driven releases.^[1] Inflow patterns exhibit peaks during the June-to-September monsoon period, when heavy rainfall over the 129,499 square kilometer catchment area generates flood discharges up to 35,396 cubic meters per second.^[1] Sedimentation further influences water balance by trapping sediments in the reservoir, while evaporation—prominent in the semi-arid Deccan plateau climate—contributes to non-recoverable losses, though specific rates vary with surface area and meteorological conditions.^[1] These factors collectively shape the reservoir's role in downstream water management.^[6]

Hydroelectric Components

The hydroelectric power house at the Priyadarshini Jurala Project is equipped with an installed capacity of 234 MW, consisting of six generating units each rated at 39 MW.^[9] This setup operates as a run-of-river scheme augmented by pondage from the upstream reservoir, enabling efficient utilization of the Krishna River's flow for power generation.^[20] Key mechanical components include six bulb-type turbine-generator units, supplied by China Machinery Engineering Corporation, which are optimized for the site's low-head conditions with a net head of approximately 21 meters.^[21]^[3] Water from the reservoir is directed to these turbines via penstocks, whose civil construction formed an integral part of the power house development.^[22] The turbines drive synchronous generators that convert mechanical energy into electrical power at 11 kV, suitable for the project's scale. The electrical infrastructure features a switchyard for stepping up voltage to 220 kV for transmission integration into the Telangana grid, ensuring reliable power evacuation.^[22] This configuration supports flexible operation, allowing the facility to respond to fluctuations in reservoir levels for sustained generation.^[3]

Operations and Impacts

Irrigation and Water Management

The Priyadarshini Jurala Project supports irrigation across an ayacut of 102,200 acres (41,360 hectares) primarily through its left and right bank canal systems, benefiting drought-prone areas in Mahbubnagar (now encompassing Jogulamba Gadwal, Wanaparthy, and Nagarkurnool districts).^[9] The left main canal (N.T.R. Canal) irrigates 64,500 acres, while the right main canal (Nalla Somanadri Canal) covers 37,700 acres, with additional stabilization provided to approximately 30,000 acres of tail-end ayacut in the RDS project via a link canal from the right main canal.^[9]^[1] The canal systems are designed for efficient water distribution, with the left main canal extending 85.277 kilometers at a bed width of 21 meters, a full supply depth of 1.95 meters, and a discharge capacity of 41.34 cubic meters per second; the right main canal runs 50.027 kilometers with a bed width of 21 meters, full supply depth of 1.90 meters, and discharge capacity of 20.80 cubic meters per second.^[9] Water management involves allocating 17.84 thousand million cubic feet (TMC) of Krishna River water for irrigation, supplemented by 0.2 TMC for drinking purposes, with releases scheduled seasonally to align with kharif (monsoon) and rabi (winter) cropping patterns, ensuring rotational supply to command areas through branch and distributary networks.^[9] These practices prioritize equitable flow to tail-end fields, monitored by the Telangana Irrigation Department to optimize utilization in the project's command area.^[1] The project integrates with downstream initiatives, such as the Srisailam reservoir, by channeling surplus releases that support broader water distribution networks along the Krishna River basin.^[23] The reservoir's gross storage capacity of 9.66 TMC facilitates these controlled irrigation releases, maintaining steady supplies during operational phases.^[24] Challenges in irrigation management include periodic water scarcity during low-inflow years, exacerbated by sedimentation reducing effective storage and variable monsoon patterns affecting release volumes.^[16] Following the 2014 bifurcation of Andhra Pradesh, equitable distribution has been complicated by ongoing interstate disputes over Krishna water shares, leading to legal proceedings before the Krishna Water Disputes Tribunal and occasional shortfalls in allocations for Telangana's projects like Jurala.^[25]

Power Generation and Performance

The Priyadarshini Jurala Hydroelectric Project, with an installed capacity of 234 MW, is operated by the Telangana State Power Generation Corporation Limited (TSGENCO) and contributes to the state's grid as a run-of-the-river facility designed for peaking power support.^[26] Since its full commissioning in the late 2000s, the project has been integrated into TSGENCO's portfolio, providing flexible dispatch to meet diurnal and seasonal demand variations in Telangana's power system.^[3] In the fiscal year 2024-25, the project achieved an actual generation of 344.49 million units (MU), surpassing its target of 330 MU by 4.39% and representing approximately 85% utilization of its design energy of 404 MU.^[26] This output underscores the facility's role in TSGENCO's overall hydro performance, where the corporation exceeded its collective generation target by 43% across its stations.^[26] The project's average operating availability stood at 78.40% for the year, influenced by planned maintenance accounting for 21.60% of downtime and miscellaneous non-availability averaging 20.72% across units.^[26] Notable downtime records included a full-year outage of 8,760 hours for Unit 3 due to a stator issue and 2,592 hours for Unit 6 stemming from a runner problem, with no forced outages reported.^[26] The facility has supported peak load management in Telangana, contributing up to its full 234 MW during high-demand periods to balance thermal-heavy generation and reduce reliance on imports.^[27] Post-2016, enhancements in operational protocols under TSGENCO, including better inflow forecasting and unit synchronization, have improved dispatch efficiency, aligning with the state's push for renewable integration amid growing peak demands of 15,000-16,000 MW.^[28] In July 2025, heavy monsoon inflows of 1.08 lakh cusecs prompted the opening of 19 spillway gates, releasing 1.04 lakh cusecs downstream for flood control, which temporarily prioritized water management over sustained generation at the six-unit powerhouse.^[29] The Priyadarshini Jurala Project has significantly altered the local ecosystem through siltation in its reservoir, which has reduced the storage capacity from an original 11.94 thousand million cubic feet (TMC) to 9.66 TMC, representing a 19% loss primarily due to sediment accumulation from upstream erosion and agricultural runoff.^[24]^[19] This sedimentation not only shortens the reservoir's useful life but also disrupts downstream sediment transport, leading to riverbed aggradation and altered habitats for benthic organisms.^[16] As of June 2025, desiltation works are underway to restore the reservoir's full capacity.^[30] Changes in river flow regimes below the dam have impacted aquatic biodiversity, with reduced seasonal flooding causing eutrophication from nutrient buildup, which depletes dissolved oxygen levels and promotes algal blooms harmful to native fish species such as catfish and carp.^[31] Invasive species like Prosopis juliflora have proliferated in the reservoir's drawdown zones, outcompeting native vegetation and exacerbating habitat fragmentation for terrestrial wildlife including deer and wild boars, while increasing human-wildlife conflicts in adjacent areas.^[31] On a positive note, the project's flood regulation capacity has mitigated downstream flooding during the 2025 monsoon season, where controlled outflows from heavy inflows prevented severe inundation in Krishna River basin communities.^[32] Socially, the project displaced approximately 8,645 individuals during its construction phase, leading to challenges in rehabilitation and loss of traditional livelihoods tied to riverine agriculture and fishing.^[33]^[9] However, irrigation benefits have enhanced agricultural productivity across over 104,000 acres in the command area, stabilizing farmer incomes and reducing drought vulnerability for downstream communities in Mahbubnagar and surrounding districts.^[1] The reservoir's scenic landscape has also fostered tourism potential, attracting visitors for recreational activities and boosting local economies through related services.^[34] Mitigation efforts include afforestation programs in the catchment area to curb soil erosion and siltation, as outlined in the project's environmental management plan, alongside recommendations for protected zones to preserve biodiversity.^[7] Although fish ladders are not specifically implemented at the site, broader river basin strategies emphasize flow management to support migratory fish species.^[31] The Telangana Irrigation Department, in coordination with environmental authorities, conducts ongoing monitoring of water quality and sedimentation, with post-2020 assessments highlighting the need for enhanced climate resilience measures against variable monsoons.^[35]^[36]

References

[1]
PRIYADARSHINI JURALA PROJECT
The Priyadarshini Jurala Project, on the Krishna River, has a full reservoir capacity of 11.94 TMC, irrigates 1,04,774 acres, and generates 234 MW of power.
[2]
Jurala Dam | District JOGULAMBA GADWAL ,Government of ...
Laid over the Krishna River, the Reservoir is at a level of 1045 feet. This power project which has a capacity of 11.94 TMC, was inaugurated in the year 1995.
[3]
Power plant profile: Priyadarshini Jurala, India - Power Technology
Oct 21, 2024 · Priyadarshini Jurala is a 234MW hydro power project. It is located on Krishna river/basin in Telangana, India. According to GlobalData ...
[4]
Jurala Project Map - Power station - Dharoor, Telangana, India
The Priyadarshini Jurala Project or Jurala Project, is a dam on the Krishna River situated about 15 km from Gadwal, Jogulamba Gadwal district, Jurala Project is ...Missing: coordinates basin
[5]
About Us : Krishna River Management Board
Krishna Basin extends over an area of 258,948 square kilometres (99,980 sq mi) which is nearly 8% of the total geographical area of the country. This large ...
[6]
Surge in inflows at Telangana's Jurala project as upper catchment ...
May 29, 2025 · Surge in inflows at Telangana's Jurala project as upper catchment areas of Krishna basin receive heavy rainfall ... Inflows into the Jurala ...
[7]
[PDF] World Bank Document
Jurala project was constructed across Krishna River at a distance of 40 K.M ... that are common in the Deccan Plateau have survived over centuries ...
[8]
[PDF] Andhra Pradesh - Central Water Commission
The Deccan plateau south of the ... Likewise Captain D.C.Dutt investigated, selected a site near Nellore town for the construction of the Pucca anicut.
[9]
[PDF] PRIYADARSHINI JURALAPROJECT Location: Hydrology: Scope
Indira Priyadarshini Jurala Project is a multipurpose project across River. Krishna, near Revulapally village.The project was taken up for construction.Missing: coordinates | Show results with:coordinates
[10]
With no pact, Telangana, Andhra Pradesh to draw more water
Jun 4, 2017 · Jurala will be the first major reservoir across the River Krishna that will be fully under the control of Telangana. Likewise, Srisailam and ...
[11]
None
Nothing is retrieved...<|separator|>
[12]
volume-iii - INDIA WRIS WIKI
Summary record of decision taken at the meeting held on 3rd October,1977 ... Regarding constitution of jurala project with FRL(Full Reservoir Level) /MWL ...
[13]
[PDF] 142 Priyadarshini Jurala Project 2767. SHRI B. SATYANARAYAN ...
Aug 11, 1982 · 76.40 crores and envisages annual irrigation over an area of 48603 hectares. The project is under examination in the. Central Water Commission ...Missing: 1970s | Show results with:1970s
[14]
Silt shrinks Jurala storage - The Hans India
Jul 28, 2016 · Due to silt formation in the Jurala reservoir irrigation facility is being denied to 30000 acres under its ayacut for the second crop thanks ...
[15]
About District | Wanaparthy District | India
... established from October 2006 to May,2015. IRRIGATION. Priyadarshini Jurala Project. Priyadarshini Jurala Project was constructed across river Krishna between ...
[16]
[PDF] sedimentation-assessment-priyadarshini-jurala-reservoir-through ...
Study Area. The Priyadarshini Jurala dam is located near Revulapally village in Dharoor taluka,. Jogulamba Gadwal district of Telangana on the Krishna river.Missing: coordinates | Show results with:coordinates
[17]
Interactive Map - National Center for Seismology
Oct 25, 2025 · M: 2.8 - Jogulamba Gadwal, Telengana. Origin Time, : 2025-10-25 10:26 ... Seismic Zoning Map. Zone II. Zone III. Zone IV. Zone V. Intensity ...Missing: district Telangana Jurala Dam
[18]
PJP Dam Holding Strong at 87% Capacity; Focus on Power ...
Jun 3, 2025 · The dam currently holds a gross storage of 8.434 TMC, against its maximum capacity of 9.657 TMC, indicating that the reservoir is filled to ...Missing: original 11.94 planning
[19]
[PDF] Summary of Large Hydro Power Development in Jammu and Kashmir
Priyadarshini Jurala. Krishna. R (P). 234. 5. Lower Jurala. Krishna. R (P). 240. 6 ... the project site and submit its report on grant of forest Clearance for the ...
[20]
Priyadarshini Jurala, India - Power Technology
Dec 14, 2021 · China Machinery Engineering was selected as the turbine supplier for the hydro power project. The company provided 6 units of bulb turbines ...Missing: Hydroelectric | Show results with:Hydroelectric
[21]
completed projects - V ARKS Engineers Pvt Ltd
Construction of Power House, Switch yard and civil works for penstocks. 6 x 39 MWs Priyadarshini Jurala Hydro Electric Project Revulapally, Andhra Pradesh
[22]
[PDF] Annual Report 2021 - 22 - Krishna River Management Board
Priyadarshini Jurala is the upstream most project built on river Krishna in erstwhile Andhra. Pradesh State and is presently in Telangana State. The project is ...Missing: history | Show results with:history
[23]
Telangana let down again in Krishna river water sharing with ...
Jun 1, 2025 · Telangana has been subjected to disparities in the allocation and utilisation of Krishna river water sharing with Andhra Pradesh from the Srisailam and ...Missing: challenges scarcity
[24]
[PDF] जल विद्युत गृहों के निष् पादि का पुिवििलोकि 2024-25 REVI
... Installed Capacity and Generation. The installed capacity of Hydro-Electric Stations viz-à-viz total capacity, the contribution in generation by Hydro-Electric ...<|control11|><|separator|>
[25]
[PDF] WHITE PAPER - TELANGANA STATE POWER SECTOR
Dec 1, 2023 · 6x40 MW Lower Jurala Hydro Electric Project. 240 MW. 5. 4x30 MW Pulichintala Hydro Electric Station. 120 MW. Total. 2,960 MW. Page 10. 10. 2.4 ...Missing: output | Show results with:output
[26]
[PDF] Transmission Filings (O.P.No.19 of 2025) - TGTRANSCO
The highest System Peak Demand recorded during monsoon season is 15370 MW on. 20.09.2023. From the system load curve (vide annexure 1.b) on the day when the ...
[27]
19 Gates of Jurala Project Opened To Release 1.04 Lakh Cusecs of ...
Jul 20, 2025 · The project completed in 1995 is designed to provide irrigation to drought-prone areas and also generate hydroelectric power. ( Source : Deccan ...<|control11|><|separator|>
[28]
Jurala dam repair works halted amid surging inflows - Telangana ...
Jul 2, 2025 · Siltation has severely impacted the dam's capacity, reducing it from its original 11.94 TMC (thousand million cubic feet) to 9.66 TMC, a 19% ...
[29]
[PDF] Ecological Assessment of Lower Jurala Reservoir - Quest Journals
It was constructed as part of the. Jurala Project to harness the water from the ... environmental impacts on the surrounding area. Invasive species and ...
[30]
Heavy Inflows Boost Water Levels at PJP Dam and Almatti Reservoir
Jul 11, 2025 · Water levels at the Priyadarshini Jurala Project (PJP) dam and Almatti Reservoir have shown significant rise, prompting dam authorities to regulate outflows ...Missing: allocation schedules
[31]
[PDF] government of india
May 5, 2016 · (a) whether the Government has undertaken an assessment of the number of people/families displaced by irrigation projects in the country ...
[32]
The Priyadarshini Jurala Project, also known as the ... - Trip Goes On
It is situated on the Krishna River and serves as a multipurpose project, providing irrigation, drinking water, and hydroelectric power to the surrounding ...<|control11|><|separator|>
[33]
[PDF] minutes of the environmental public hearing held for the - TG PCB
Now this project is expected to provide irrigation to 3.2 lakh acres in the district. He sought lifting of water from the Jurala project which was located at ...
[34]
[PDF] government of telangana irrigation & cad department
Jan 18, 2025 · Priyadarshini Jurala Project. 3. 4. 5. 6. 1. 8. Lower Manair Dam. Sri Komarambheem Project. Ralivagu Project. Mathadivagu Project. NTR Sagar ...