DRIP stands for Dam Rehabilitation and Improvement Project. It is a Government of India programme supported by the World Bank and the Asian Infrastructure Investment Bank (AIIB) to rehabilitate aging dams across India. Phase I (2012-2021) rehabilitated 223 dams across 7 states at Rs 2,567 crore. Phase II and III (2021-2031) target 736 dams across 19 states with a combined budget of Rs 10,211 crore. The total DRIP investment across Phase I and Phase II/III combined is approximately Rs 12,778 crore.

Which states are covered under DRIP Phase II?

DRIP Phase II and III cover 19 states and 3 central agencies. The 19 states are Andhra Pradesh, Chhattisgarh, Goa, Gujarat, Jharkhand, Karnataka, Kerala, Madhya Pradesh, Maharashtra, Manipur, Meghalaya, Odisha, Punjab, Rajasthan, Tamil Nadu, Telangana, Uttar Pradesh, Uttarakhand, and West Bengal. Rajasthan has the largest share with approximately 189 dams, followed by Maharashtra with approximately 167 dams (per government Lok Sabha records on DRIP Phase II/III state-wise allocation).

DRIP Phase II and III have a total budget of Rs 10,211 crore. External funding of Rs 7,000 crore comes from the World Bank ($250 million) and the Asian Infrastructure Investment Bank ($250 million). The domestic share of Rs 3,211 crore comes from implementing agencies. The funding pattern varies: 80:20 for Special Category States (central government : state), 70:30 for General Category States, and 50:50 for Central Agencies.

What type of rehabilitation work does DRIP fund?

DRIP funds a comprehensive range of rehabilitation activities including structural repair of concrete and masonry (crack sealing, grouting, HPC lining), seepage control (cement and chemical grouting, polyurethane joint injection), spillway rehabilitation (surface coating, gate repair, channel reshaping), foundation treatment, instrumentation installation and upgrade, preparation of Operation and Maintenance manuals, Emergency Action Plans, dam break analyses, and institutional strengthening for state dam safety organisations.

How can concrete engineers participate in DRIP?

Concrete engineers and consulting firms can participate in DRIP through several roles: as assessment consultants conducting comprehensive safety evaluations including NDT and laboratory testing, as design consultants developing rehabilitation solutions for identified deficiencies, as quality assurance consultants overseeing rehabilitation construction, as specialists providing expert input on specific deterioration mechanisms (AAR, corrosion, sulphate attack), and as rehabilitation contractors executing concrete repair and grouting works. DRIP procurement follows World Bank guidelines, and participation typically requires demonstrated experience in dam safety assessment and concrete rehabilitation.

DRIP Phase II: Dam Rehabilitation Opportunity

DRIP Phase II and III is the Government of India’s Rs 10,211 crore dam rehabilitation programme covering 736 dams across 19 states and 3 central agencies from April 2021 to March 2031, funded by the World Bank ($250 million) and the Asian Infrastructure Investment Bank ($250 million), implemented under the Dam Safety Act, 2021 and the Central Water Commission’s institutional framework.

Between 2021 and 2031, the Government of India will spend Rs 10,211 crore rehabilitating 736 dams across 19 states.

This is DRIP: the Dam Rehabilitation and Improvement Project. Funded by the World Bank ($250 million) and the Asian Infrastructure Investment Bank ($250 million), with domestic co-funding from implementing agencies, DRIP is the world’s largest dam rehabilitation programme. It won the Award for Excellence in Dam Safety at the World Water Awards 2024-25.

For concrete engineers, DRIP is not just a policy initiative. It is a decade-long, funded pipeline of assessment, diagnostic, and rehabilitation work on aging infrastructure. Understanding how the programme works, what it funds, and what technical capabilities are required is essential for anyone working in dam concrete.

The Programme Structure

Phase I (Completed: 2012-2021)

Scope: 223 dams across 7 states (Jharkhand/DVC, Karnataka, Kerala, Madhya Pradesh, Odisha, Tamil Nadu, Uttarakhand)
Budget: Rs 2,567 crore
World Bank loan: $350 million original + $137 million additional financing
Outcome: All 223 dams comprehensively audited and rehabilitated
Key learning: Established the institutional framework, procurement systems, and technical standards for dam rehabilitation at scale

Phase II and III (Active: 2021-2031)

Approved: October 2020 by Cabinet Committee on Economic Affairs
Operational: Phase II became active on 12 October 2021
Duration: 10 years, with two phases of 6 years each and a 2-year overlap
Scope: 736 dams across 19 states and 3 central agencies
Budget: Rs 10,211 crore (Phase II: Rs 5,107 crore; Phase III: Rs 5,104 crore)
External funding: Rs 7,000 crore, about US$1 billion, from the World Bank and AIIB across Phase II (WB $250 million + AIIB $250 million) and Phase III (WB $500 million)
Employment generation: Approximately 10 lakh person-days for unskilled workers and 2.5 lakh person-days for professionals

Funding Pattern

The cost-sharing formula varies by category:

Category	Central Share	State/Agency Share
Special Category States	80%	20%
General Category States	70%	30%
Central Agencies	50%	50%

This structure ensures that even resource-constrained states can participate in the rehabilitation programme.

What rehabilitation work does DRIP fund?

The rehabilitation scope under DRIP covers every aspect of dam infrastructure:

Structural Rehabilitation

Crack sealing with low-viscosity cementitious and chemical grouts
Backing concrete and re-sectioning of deteriorated dam sections
HPC lining with steel fibres, polymers, and silica fume for severely damaged surfaces
Micro-concrete jacketing for structural strengthening
Fibre wrapping for cracked concrete columns and piers

Seepage Control

Cement grouting through dam body and foundation
Chemical grouting for fine cracks and joints
Polyurethane joint injection for monolith and contraction joints (used at Almatti Dam)
Upstream dam face treatment and waterproofing

Spillway and Appurtenant Works

Surface rehabilitation of spillway ogee crests and stilling basins
High abrasion-resistant coatings for flow surfaces
UV-resistant epoxy repair for exposed concrete
Gate mechanism rehabilitation
Drain clearing and rehabilitation

Investigation and Analysis

Non-destructive testing programmes (rebound hammer, UPV, GPR, impact echo)
Core extraction and laboratory analysis
3D hydraulic model studies (conducted at Hirakud Dam under DRIP)
Finite element analysis for structural assessment
Petrographic examination for deterioration mechanism identification

Documentation and Systems

Operation and Maintenance manuals for each dam
Emergency Action Plans with inundation mapping
Dam Break Analyses using RBSD (Rashtriya Bandh Suraksha Darpan) platform
Instrumentation installation and monitoring systems
DHARMA database population for dam health records

Case Studies from DRIP

Rihand Dam, Uttar Pradesh

Problem: Severe alkali-aggregate reaction caused spalling so extensive that the powerhouse was inoperable for years. Penstock gallery investigations documented in CWC DRIP reports revealed widespread rebar fracturing driven by AAR expansion.

DRIP response: Crack sealing with cementitious and chemical grouts. HPC lining with steel fibres, polymers, and silica fume for the most severely affected surfaces. Comprehensive petrographic investigation to confirm the AAR mechanism and assess remaining structure.

Hirakud Dam, Odisha

Problem: AAR developed several decades into service (Hirakud was commissioned in 1957). Spillway ogee crest showed substantial cracks documented in CWC DRIP investigations as warranting 3D hydraulic model studies and rehabilitation design.

DRIP response: 3D hydraulic model studies. Concrete core extraction for strength and elastic property testing. Rehabilitation design based on investigation findings.

Almatti Dam, Karnataka

Problem: Spillway pier and ogee deterioration from age and hydraulic action.

DRIP response: Polyurethane joint injection materials for joint sealing. High abrasion-resistant coating for spillway surface repair.

Idukki Arch Dam, Kerala

Problem: Unusual structural behaviour detected through monitoring instrumentation.

DRIP response: Finite element method analysis. Detailed site and laboratory investigation. Rehabilitation design based on structural assessment.

These case studies illustrate the range of expertise required: from petrographic diagnosis of AAR to 3D hydraulic modelling to structural FEM analysis. DRIP projects are not simple repair jobs. They are investigative engineering programmes that require concrete science, structural analysis, and rehabilitation design capability.

How big is the dam rehabilitation market opportunity under DRIP?

Scale

736 dams across 19 states over 10 years
Rs 10,211 crore total budget
Each dam requires assessment, design, construction, and quality assurance
A substantial share of India’s large dams are concrete and masonry structures (the majority are earthen embankment dams)

Professional Services Demand

Each dam rehabilitation typically requires:

Comprehensive safety assessment (6-12 months): visual inspection, NDT, core extraction, laboratory testing, structural analysis, hydrology review, seismic assessment
Rehabilitation design (3-6 months): diagnosis of deterioration mechanisms, selection of repair methods, specification development, cost estimation
Construction supervision (12-24 months): quality assurance during rehabilitation works, testing and verification, as-built documentation
Institutional support: Training of dam owner personnel, O&M manual preparation, instrumentation commissioning

Types of Firms Needed

Role	Capability Required
Assessment consultant	NDT expertise, laboratory testing, structural FEM, petrographic analysis
Design consultant	Concrete rehabilitation design, grouting design, material specification
QA consultant	Construction quality assurance, testing programme management
Specialist consultant	AAR diagnosis, seismic assessment, hydraulic analysis
Rehabilitation contractor	Concrete repair, grouting, surface coating, instrumentation
Material supplier	Repair mortars, grouting materials, coatings, admixtures

Procurement

DRIP follows World Bank procurement guidelines, which require:

Qualification-based selection for consulting services
International competitive bidding for large works packages
National competitive bidding for smaller packages
Quality and cost-based selection (QCBS) for consultant contracts

Beyond DRIP: The Broader Market

DRIP covers 736 dams, but India has 6,628 specified dams under the Dam Safety Act. The remaining 5,892 dams will eventually require similar assessment and rehabilitation, funded through state budgets, central assistance, or future phases of DRIP. The market for dam concrete rehabilitation in India is not a 10-year programme. It is a generational shift in how the country maintains its water infrastructure.

The International Centre of Excellence for Dams

In March 2024, the Central Water Commission (CWC) signed a Memorandum of Agreement with IISc Bengaluru to establish the International Centre of Excellence for Dams (ICED) under DRIP Phase II, with grant funding of Rs 118.05 crore from the Ministry of Jal Shakti over a 10-year period.

ICED’s research areas include:

Advanced construction and rehabilitation materials and material testing for dams
Comprehensive multi-hazard risk assessment of dams
Development of Indian-specific rehabilitation protocols

This institutional development signals a long-term commitment to building domestic expertise in dam rehabilitation, moving from reliance on international consultants and standards to developing Indian knowledge and capability.

What should concrete engineers know about participating in DRIP?

The Compliance Driver

The Dam Safety Act 2021 mandates comprehensive evaluation of all specified dams by December 2026. DRIP provides the funding mechanism. Together, they create both the legal obligation and the financial means for unprecedented rehabilitation activity.

The Technical Gap

India has deep expertise in building new concrete dams. It has limited institutional experience in assessing and rehabilitating aging concrete dams. Firms offering independent review and durability assessment services are well positioned to fill this gap. This gap creates demand for:

NDT specialists who can interpret results in the context of dam structures
Petrographers who can diagnose AAR, sulphate attack, and other deterioration mechanisms from core samples
Structural engineers who can assess residual capacity and design strengthening solutions
Grouting specialists who can design and execute cement and chemical grouting programmes
Material scientists who can specify rehabilitation materials (repair mortars, coatings, injection systems)

The Timeline

Phase II: Active now through 2027
Phase III: 2025-2031
Dam Safety Act deadline: December 2026
Peak activity: 2026-2029, when the Act’s compliance deadline and DRIP’s construction phase converge

The next 3-5 years represent the highest concentration of dam rehabilitation activity in Indian history. India’s hydropower expansion and growing pumped storage pipeline will only add to this demand. The firms and professionals who build capability now will define the industry’s future.

DRIP Phase II: What Rs 10,211 Crore in Dam Rehabilitation Means for Concrete Engineers