What is the India Solar Panel Cleaning Market Size?

The India solar panel cleaning market was valued at USD 145 million in 2024 and is expected to increase from USD 179 million in 2025 to about USD 1.67 billion by 2035, at a CAGR of 24.9% from 2025 to 2035.

The rapid growth of India’s solar capacity aims for 500 GW by 2030. However, high dust and pollution levels cut panel efficiency by 20-30%. This situation is raising awareness of how soiling affects energy production. Additionally, the rise in automated and improved cleaning solutions for large solar farms is greatly boosting the solar panel cleaning market across the country.

India Solar Panel Cleaning Market Key Highlights 

• In terms of revenue, the India solar panel cleaning market is valued at USD 179 million in 2025 and is projected to reach USD 1.67 billion by 2035.
• The market is expected to grow at a CAGR of 24.9% from 2025 to 2035.
• By cleaning method, the wet cleaning segment captures the largest market share of 60-65% in 2025.
• By cleaning method, the hybrid systems segment is expected to witness the fastest CAGR during the forecast period.
• By region, Western India holds the largest market share of 40-45% in 2025.
• By region, Eastern and Northeastern India is expected to witness the fastest CAGR during the forecast period.
• By automation level, the manual cleaning segment contributes the highest market share of 60-65% in 2025.
• By automation level, the fully automated/robotic systems segment is expected to witness the fastest CAGR through 2035.
• By application, the utility-scale solar parks segment holds the largest market share of 55-60% in 2025.
• By application, the residential segment is expected to witness the fastest CAGR from 2025-2035.
• By service model, the in-house cleaning segment accounts for the largest share of 50-55% in 2025.
• By service model, the third-party cleaning services segment is expected to witness the fastest CAGR during the forecast period.

Market Overview

The India solar panel cleaning market includes services, equipment, and solutions to remove dust, dirt, bird droppings, and other contaminants from solar photovoltaic panels. This helps maintain energy generation efficiency. The market covers manual cleaning services, semi-automated cleaning equipment, fully automated robotic systems, and special cleaning chemicals and water treatment solutions suited for India's varied climate.

The solar panel cleaning market in India faces unique challenges that are different from those in developed countries with less pollution. These challenges include severe dust storms in Rajasthan, industrial pollution in cities, bird droppings near water bodies, and water shortages that require dry cleaning methods.

The market is driven by the substantial growth of solar capacity under the National Solar Mission. Energy generation losses of 25-40% occur in areas with heavy dust. More people are adopting performance-based solar contracts that promise guaranteed output. Water conservation rules limit wet cleaning in drought-affected regions. Technological advances are improving waterless and robotic cleaning methods. There is also a growing understanding that regular cleaning can increase returns on investment by maintaining contracted capacity factors.

What are the Key Trends in the India Solar Panel Cleaning Market?

Water-free and sustainable cleaning technologies: A major trend in India's solar panel cleaning market is the use of waterless cleaning methods, including electrostatic systems, compressed air, and specialized brushes. These methods help address water scarcity in solar-rich states like Rajasthan and Gujarat. They cut water usage by 95% while still being effective, which is vital for desert installations where water costs more. Biodegradable cleaning agents and nano-coatings that reduce dust sticking are becoming popular. They extend cleaning intervals and lower operational costs by 20-25%.

Drone-based inspection and cleaning integration: Another key trend boosting market growth is the use of drones for checking soiling levels and targeted cleaning of large solar installations. Drones equipped with thermal cameras can find soiling hotspots and poorly performing panels. This helps optimize cleaning routes and cuts inspection time by 80%. Adding cleaning tools to drones allows for spot cleaning of hard-to-reach areas and initial dust removal before robotic cleaning. This approach improves overall cleaning efficiency while reducing labor needs in India's challenging climate.

Market Scope

Market Dynamics

Drivers

Massive Solar Capacity Expansion and Performance Requirements

A key factor driving the growth of India's solar panel cleaning market is the government's ambitious renewable energy goals. With over 75 GW of installed solar capacity and plans to reach 280 GW by 2030, there is a huge demand for cleaning services. The typical 20-30% efficiency loss from soiling in India's dusty environment leads to revenue losses of Rs. 2-3 lakhs per MW each year, making regular cleaning economically necessary.

Performance-based incentives and the must-run status for solar plants require maintaining minimum capacity utilization factors (CUF) of 19-21%, which can only be achieved with consistent cleaning. The move towards higher efficiency panels and bifacial modules, which are more sensitive to soiling losses, raises the importance of cleaning for maximizing returns on expensive technology investments.

Lenders and investors now often require cleaning protocols and performance guarantees in power purchase agreements (PPAs), which encourages the use of professional cleaning services. State-specific renewable purchase obligations (RPOs) and penalties for generation shortfalls put pressure on solar plant operators to ensure optimal performance through regular cleaning.

Restraint

High Operational Costs and Water Scarcity

Despite growing demand, India's solar panel cleaning market faces several challenges. Operational costs range from Rs. 0.50 to Rs. 2.00 per panel per cleaning cycle. This significantly impacts operation and maintenance budgets for large installations. Water scarcity in prime solar states like Rajasthan, which hosts 40% of India's solar capacity, makes traditional wet cleaning unsustainable and costly. Water tanker expenses can reach Rs. 2,000 to Rs. 3,000 per load.

There is also a shortage of skilled labor for manual cleaning. High attrition rates result from harsh working conditions in temperatures of 45 to 50°C, which raises training and recruitment costs. Limited access to solar farms in remote areas with poor road infrastructure increases transportation costs and equipment maintenance challenges. The unorganized nature of the cleaning services sector, with many small local operators, leads to inconsistent service quality and a lack of standardization.

Seasonal changes also affect the market. Monsoons reduce cleaning needs, while extreme summer heat limits working hours. These factors contribute to revenue fluctuations for service providers.

Opportunity

Technology Innovation and Service Integration

The development of cleaning technologies in India that tackle local issues like water scarcity and high dust levels offers great opportunities for innovation and market growth. Integrating cleaning services with O&M contracts that include vegetation management, security, and panel maintenance leads to higher-value service offerings. These can generate Rs. 3-5 lakhs per MW each year.

Government support through funds for technology development and startup programs for clean energy services promotes innovation in robotic and automated cleaning solutions. The rising rooftop solar market in commercial and residential sectors, expected to hit 40 GW by 2030, opens doors for distributed cleaning services.

There is also potential for exporting Indian cleaning solutions to similar high-soiling markets in the Middle East and Africa, using cost-effective manufacturing and service skills. Creating cleaning-as-a-service models with performance guarantees and pay-per-clean options makes professional cleaning easy to access for smaller solar installations.

Cleaning Method Insights

Why does Wet Cleaning Dominate Despite Water Challenges?

The wet cleaning segment holds the largest market share of 60-65% in 2025. Despite concerns about water scarcity, wet cleaning remains the leading method because it effectively removes 95-98% of tough dirt, including bird droppings and industrial pollutants. Many solar parks have water recycling systems and treated wastewater available for cleaning, making wet cleaning a cost-effective option.

The existing infrastructure and trained staff for traditional wet cleaning methods ensure it is widely available in different regions. Lower equipment costs for wet cleaning systems, compared to dry or robotic options, make it easier for smaller operators to access. Using cleaning chemicals and detergents with water allows for thorough cleaning of heavily soiled panels that are common in industrial areas.

The hybrid systems segment is expected to grow the fastest in the coming years. Hybrid cleaning systems combine dry brushing for regular maintenance with periodic wet cleaning for deep cleaning. This approach optimizes water use while keeping effectiveness high. These systems cut water consumption by 70% and achieve 90-95% cleaning effectiveness, addressing both environmental and performance issues.

Regional Insights

How does Western India Lead the Solar Panel Cleaning Market?

Western India commands the largest market share of 40-45% in 2025. This region includes Gujarat and Rajasthan, which together account for over 28 GW of India's solar capacity, making it the country's largest cleaning service market.

High dust levels in Rajasthan's Thar Desert and Gujarat's dry areas lead to frequent cleaning cycles of 15-20 times each year. The existence of major solar parks, including Bhadla (2,245 MW), Rewa (750 MW), and Charanka (790 MW), creates a strong demand for professional cleaning services. State government policies that support solar manufacturing and development attract cleaning service providers and equipment manufacturers. The region's extreme temperatures and dust storms encourage the creation of specialized cleaning technologies that work in tough conditions. An established solar operations and maintenance ecosystem, along with a trained workforce and service infrastructure, makes cleaning operations more efficient.

Eastern and Northeastern India is set to grow at the fastest CAGR during the forecast period. Rapid solar capacity growth in West Bengal, Odisha, and Northeastern states under various government programs is opening new cleaning markets. The high humidity and frequent rainfall in the region bring unique cleaning challenges like algae and fungal growth, requiring specialized solutions. The government's emphasis on distributed solar for rural electrification and agricultural uses increases cleaning needs in remote areas.

Automation Level Insights

Why does Manual Cleaning Still Dominate the Market?

The manual cleaning segment makes up the largest market share, accounting for 60-65% in 2025. The low investment needed for manual cleaning makes it accessible for small and medium solar installations under 10 MW capacity. The availability of low-cost labor keeps manual cleaning affordable for many operators, even with its efficiency limits.

Manual cleaning can adapt to different terrains, rooftop layouts, and accessibility issues that are common in distributed solar installations. It allows for spot cleaning and quick responses to soiling events without needing advanced equipment or extensive planning. There is a cultural preference for labor-intensive solutions, which also promotes job creation in rural areas, ensuring the continued use of manual methods.

The fully automated or robotic systems segment is expected to grow at the fastest CAGR through 2035. Labor shortages and concerns about safety in extreme weather drive the adoption of robotic systems that can work around the clock. The decreasing prices of robotic systems make automation a feasible option for projects larger than 25 MW. AI-enabled robots that achieve 95% cleaning effectiveness while saving 90% on water are appealing to environmentally conscious developers.

Application Insights

Why do Utility-Scale Solar Parks Drive Market Demand?

The utility-scale solar parks segment holds the largest market share, at 55-60% in 2025. Large solar installations above 10 MW make up over 60% of India's total solar capacity, which creates strong demand for cleaning services. The economies of scale in cleaning large, uniform installations lower the per-MW cleaning costs and make professional services more appealing.

Strict performance requirements in power purchase agreements (PPAs) impose penalties for underperformance and drive systematic cleaning programs for utility-scale projects. The availability of dedicated operation and maintenance (O&M) budgets, along with professional asset management, ensures regular procurement of cleaning services. Monitoring systems at large plants allow for accurate measurement of the cleaning impact on energy generation, justifying the investments.

The residential segment is expected to see the fastest growth during the coming years. Government incentives for rooftop solar, such as subsidies and net metering, are driving residential installations, which are projected to reach 10 GW by 2030. Increased awareness among homeowners about the 20-25% energy loss due to soiling is boosting demand for professional cleaning services. The development of affordable cleaning packages and annual maintenance contracts makes professional cleaning more accessible for residential users.

Service Model Insights

Why does In-House Cleaning Remain Prevalent?

The in-house cleaning segment commands the largest market share at 50-55% in 2025. Large solar developers and independent power producers prefer to keep internal cleaning teams for better control over quality and schedules.

Employing cleaning staff directly ensures they are available during critical times and can respond quickly to issues. In-house cleaning also allows for adjustments in methods and frequencies based on specific site conditions and performance data. Combining cleaning with other operations and maintenance activities, like vegetation management and security, through teams with various skills improves efficiency. The long-term cost benefits for large portfolios make investing in cleaning equipment and workforce training worthwhile.

The third-party cleaning services segment is expected to grow the fastest in the coming years. The increasing professionalization of solar operations and maintenance services drives the demand for specialized third-party cleaning providers with the right skills and equipment. Smaller solar installations and rooftop systems are increasingly outsourcing cleaning to professional services for better costs and quality assurance. Establishing performance-based cleaning contracts with guaranteed energy generation improvements attracts asset owners who want to shift some risk away.

Key Players Operating in the India Solar Panel Cleaning Market

• CleanMax Solar
• Mahindra Susten
• Sterling and Wilson Solar
• Hero Future Energies
• Vikram Solar
• Waaree Energies
• Azure Power
• ReNew Power
• Tata Power Solar
• Adani Solar
• Amplus Solar
• Fourth Partner Energy
• Jakson Group
• L&T Solar
• ACME Solar
• Rays Power Infra
• SunSource Energy
• Oriano Clean Energy
• EMMVEE Solar
• Premier Energies

Recent Developments

September 2025: Solarcleano unveiled its L1 panel cleaning robot, suitable for large PV installations and trackers, with a cleaning speed of ~40 m/min and both dry & wet cleaning capability.

December 2024: Sol-Bright launched its Gen.7 Fully Automatic Robotic Cleaning System with enhanced obstacle navigation, torsional flexibility, real-time adjustment capability, intended for large scale solar plants and rooftops.

October 2024: Sol-Bright signed a contract with Sterling Wilson to supply water-free robotic cleaning systems for a 422 MWp GIWEL solar project in Rajasthan, India.