Hydroponics-Farming

Roof top hydroponics systems offer numerous benefits in terms of promoting the growth of flora and fauna, providing a local source of fresh produce, contributing to the improvement of air quality, and aiding in cooling purposes. This innovative technique allows for the cultivation of plants in a controlled environment without the need for soil. By utilizing hydroponics, plants can grow more efficiently and produce higher yields compared to traditional farming methods. Moreover, rooftop hydroponics systems act as local lungs by reducing pollution and absorbing carbon dioxide, thereby enhancing the overall air quality of urban areas. Additionally, the presence of green rooftops helps to cool down the surrounding environment by reducing the heat island effect and minimizing energy consumption for cooling buildings. In conclusion, rooftop hydroponics systems offer a sustainable and efficient solution for urban agriculture, benefiting both the environment and the local community.

Agri-voltaics

Agrivoltaics, also known as solar sharing, is a technical method that combines the utilization of solar panels with rooftop hydroponics systems. This novel approach offers several benefits, such as increased efficiency and enhanced carbon absorption. One of the main advantages of agrivoltaics is the cooling effect it provides for the solar panels. By placing them above hydroponic systems, the panels benefit from the evaporative cooling effect generated by the plants' transpiration process. This cooling effect prevents the solar panels from overheating, ultimately improving their overall efficiency. Additionally, agrivoltaics helps to increase carbon absorption. The plants in the hydroponic system absorb carbon dioxide during photosynthesis, thus contributing to reducing greenhouse gas emissions. This innovative technique holds great potential in terms of sustainable energy production and environmental conservation.

Carbon Banking

Rooftop agrivoltaic setups offer a unique opportunity for carbon trading with industries, providing a symbiotically beneficial solution for all stakeholders involved. By adopting this approach, industries can achieve a greener and more sustainable operation. Agrivoltaic systems combine the benefits of solar energy production and agricultural practices, utilizing rooftops as a platform for both. These setups not only generate renewable energy but also create an environment for cultivating crops, thus maximizing land use efficiency. Additionally, the vegetation helps in reducing the heat island effect commonly associated with industrial areas, resulting in lower energy consumption for cooling purposes. Furthermore, industries can potentially offset their carbon emissions by participating in carbon trading initiatives, where the surplus renewable energy generated from rooftop agrivoltaic systems can be sold to other industries. This approach promotes a win-win situation by fostering a greener industrial sector and contributing to a sustainable future.

Our Services

  • Turnkey Solutions

  • Build,Own,Operate & Transfer

  • Build, Own, Operate & Share

  • Consultancy Services

  • RERA Code Compliance

Key Highlights

  • Hyper-Local Urban Farms: Convert urban spaces into highly efficient farms, ensuring a local supply of fresh produce.

  • Supply Chain Immunity: Provide immunity against supply chain disruptions due to natural disasters, ensuring consistent food access.

  • Quality Control: Maintain precise control over produce quality, genetics, and nutrition, delivering safe and nutritious food to residents.

  • Outbreak Resilience: Decentralized farming minimizes the risk of widespread plant outbreaks, ensuring food security.

  • Carbon-Negative Agriculture: Implement carbon-negative practices, reducing greenhouse gas emissions and contributing to a healthier environment.

  • Localized Green Spaces: Create hyper-local green lungs within urban areas, improving air quality and enhancing residents' well-being, minimizing cooling requirements of the building

  • Efficient Energy Production: Generate power efficiently, exceeding standalone solar farms, and power the community with surplus energy.

  • Circular Resource Management: Utilize end-of-life plants for sustainable biofuel production, powering local generators and vehicles.

  • Emissions Offset: Capture carbon and greenhouse gases, offering industries emission offsets and reducing economic burden on existing industry

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