Deadline: 20-Aug-25
The Ministry of New and Renewable Energy invites Start-ups, Innovators, Incubators, and new Entrepreneurs to share innovative solutions in Rooftop Solar (RTS) and Distributed Renewable Energy Technologies.
Purpose
- The purpose of the Innovative Projects Start-Up Challenge is to identify new and innovative solutions to the following four categories of challenges in Rooftop Solar (RTS) and Distributed Renewable Energy (DRE) technologies:
- Affordability: To reduce costs through innovative financing, modular designs, or circular economy models.
- Resilience: To prioritize climate adaptation, cybersecurity, and decentralized energy systems.
- Inclusivity: To democratize access for low-income households and remote communities.
- Environment Sustainability: To address land-use conflicts, waste, and fossil fuel dependency.
Themes for Challenges
- Renewable Energy
- Rooftop Solar PV
Problem Statement
- Enhancing Affordability through Cost-Effective Solar Solutions
- Low- and middle-income households face significant financial barriers in adopting rooftop solar systems due to high upfront costs and limited access to affordable financing models. The lack of modular, cost-efficient solar solutions, coupled with the high costs of energy storage and manual maintenance, further discourages adoption. There is an urgent need for innovative business models, such as solar leasing, circular economy approaches, and user-friendly technologies that reduce both capital and operational costs. Following are the specific Problem Statements:
- High upfront costs and financing barriers prevent low/middle-income households from adopting rooftop solar. Possible solutions are: Pay-as-you-go solar leasing, crowdfunding platforms, or microloan partnerships.
- Manual maintenance and performance monitoring of rooftop solar systems are labour-intensive and costly. Possible solutions are: Drone-based inspections, Robotic Cleaning, AI-powered fault detection, or self-cleaning solar coatings.
- Energy storage (e.g., batteries) remains expensive, limiting 24/7 solar reliability. Possible solutions are: Second-life EV battery reuse, thermal storage systems, or community-shared storage
- Low- and middle-income households face significant financial barriers in adopting rooftop solar systems due to high upfront costs and limited access to affordable financing models. The lack of modular, cost-efficient solar solutions, coupled with the high costs of energy storage and manual maintenance, further discourages adoption. There is an urgent need for innovative business models, such as solar leasing, circular economy approaches, and user-friendly technologies that reduce both capital and operational costs. Following are the specific Problem Statements:
- Strengthening Resilience in Solar Infrastructure and Energy Access
- The increasing integration of rooftop solar into the grid has led to new vulnerabilities, including voltage instability, reverse power flows, and exposure to extreme weather events. Additionally, the growing use of digital systems introduces cybersecurity risks. Remote and disaster-prone communities often lack resilient energy systems, relying on unreliable grids and diesel-based solutions. Innovations are required to make rooftop solar systems more climate-resilient, digitally secure, and operationally autonomous, especially in vulnerable regions. Following are the specific Problem Statements:
- High rooftop solar penetration destabilizes grids (voltage fluctuations, reverse flow). Possible solutions are: Grid-forming inverters, AI-driven demand-response systems, or decentralized microgrids.
- Solar systems are vulnerable to extreme weather (hurricanes, heatwaves). Possible solutions are: Storm-resistant mounting systems, heat-tolerant panels/ Mounting.
- Cybersecurity threats (hacked inverters/monitoring systems) risk grid/data security. Possible solutions are: Quantum-resistant encryption, hardware security modules, or decentralized authentication.
- Remote communities lack resilient energy access due to unreliable grids/fuel dependency. Possible solutions are: Solar microgrids with hybrid storage (battery + Hydrogen backup) and AI load management.
- The increasing integration of rooftop solar into the grid has led to new vulnerabilities, including voltage instability, reverse power flows, and exposure to extreme weather events. Additionally, the growing use of digital systems introduces cybersecurity risks. Remote and disaster-prone communities often lack resilient energy systems, relying on unreliable grids and diesel-based solutions. Innovations are required to make rooftop solar systems more climate-resilient, digitally secure, and operationally autonomous, especially in vulnerable regions. Following are the specific Problem Statements:
- Promoting Inclusivity in Renewable Energy Access
- A large segment of the populationparticularly renters, low-income families, and residents of multi-tenant buildingsremain excluded from rooftop solar benefits due to limited rooftop ownership, inadequate access to financing, and technical constraints in shared systems. Existing models often fail to ensure equitable distribution of energy. There is a need for inclusive deployment mechanisms such as virtual net metering, shared solar arrangements, and financing schemes tailored to underserved communities. Following are the specific Problem Statements:
- Low-income households and renters lack access to rooftop solar benefits. Possible solutions are: Community solar programs, virtual net-metering, or subsidized solar kits for apartments.
- Rural/developing regions lack technical expertise and financing for solar adoption. Possible solutions are: Solar-as-a-service models, mobile app-based technician networks, or microloan hubs.
- Multi-tenant buildings struggle with fair energy allocation from shared solar systems. Possible solutions are: Blockchain-based energy credits, smart submeters, or tokenized billing platforms.
- A large segment of the populationparticularly renters, low-income families, and residents of multi-tenant buildingsremain excluded from rooftop solar benefits due to limited rooftop ownership, inadequate access to financing, and technical constraints in shared systems. Existing models often fail to ensure equitable distribution of energy. There is a need for inclusive deployment mechanisms such as virtual net metering, shared solar arrangements, and financing schemes tailored to underserved communities. Following are the specific Problem Statements:
- Advancing Environmental Sustainability in Solar Deployment
- The rapid growth of solar installations has surfaced sustainability concerns such as land-use conflicts, inefficient panel disposal, and continued use of diesel generators in off-grid areas. Urban deployments are constrained by space, shading, and structural challenges, while the lack of robust e-waste recycling infrastructure exacerbates environmental impact. Startups must focus on creating eco-friendly solar designs, circular life-cycle solutions, and clean alternatives to fossil-fuel-based energy sources. Following are the specific Problem Statements:
- Aging solar panels create e-waste; recycling infrastructure is underdeveloped. Possible solutions are: Robotic panel disassembly, incentivized take-back programs, or material recovery tech.
- New and Innovative solar technologies. Possible solutions are: Land neural solar technologies AgripV, BIPV, Floating PV, Rail/ Road Integrated PV, Urban PV.
- Urban rooftop solar adoption is limited by space constraints and shading. Possible solutions are: Modular perovskite solar panels, vertical-axis wind hybrids, or solar carports. Drone based surveys.
- Diesel generators dominate off-grid regions, increasing emissions. Possible solutions are:
- Solar microgrids with green hydrogen storage or biomass-solar hybrid systems.
Incentives
- Fiscal Incentives:
- Prize Money:
- 1st Prize: ?1cr
- 2nd Prize: ?50 Lakh
- 3rd Prize: ?30 Lakh
- 10 Consolation Prizes: ?5 Lakh each
- Prize Money:
- Non-Fiscal Incentives:
- The winning team will be eligible to avail incubation support provided by the MNRE through National Institute of Solar Energy (NISE). These startups will also eligible for pilot implementation opportunities, including project scaling and capacity-building support.
Eligibility Criteria
- All DPIIT-recognised Startups would be eligible to apply.
For more information, visit Startup India.
