Solar installations on ground, roof and on water

Solar is at the forefront of the global transition to clean and sustainable power. By converting sunlight into electricity, PV systems significantly reduce greenhouse gas emissions, minimize reliance on fossil fuels, and provide an accessible source of energy even in remote areas. This makes solar power a vital solution for addressing both environmental and economic challenges worldwide.

We are committed to unlocking the full potential of solar energy by working hand-in-hand with internationally recognized industry leaders. Our partnerships span the entire PV supply chain, ensuring that every project component—from cutting-edge solar modules and durable mounting structures to sophisticated electrical and monitoring systems—meets the highest standards of quality and efficiency.

In addition to sourcing top-tier hardware, our comprehensive approach includes collaborative engineering, project management, and on-the-ground expertise tailored to local conditions. By integrating global best practices with in-depth community engagement, we deliver reliable, cost-effective solar solutions that power critical needs and foster long-term growth.

By harnessing the limitless power of the sun, Solenadria strives to illuminate pathways to sustainability, resilience, and opportunity for communitiesworldwide.

Use case scenarios

On Roof - Commercial and Residential use

One of the most common solutions for commercial and residential buildings with limited ground space. The installation is often easy to facilitate with brackets and steel/aluminium rails. The solution is prone to less efficiency due to angle of attack towards the sun and constructual limitations, yet the power is easily consumed localy without large gridcosts.

Pro:

• Easy installation where structure allows it
• Accessible for maintenance
• Close to where the power is consumed

Con:

• Less efficient than on the ground solutions
• Prone to invertercomplications when installed on a wall with little heat dispersion. Se illustration to the left where inverters heat the above one.
• Easily affected by shadows and changed conditions due to construction of buildings that shades the panels

Use case scenarios

Automated Farming - Our innovational dream for solar!

By combing solar panel installation with irrigation systems, AI farming robots on rails between the rows, waterpumps and a local maintenance crew the solution is ideal stop deserts from growning and taking back allready converted area. By using the available resources with high precission we ensure that the plants has the best living conditions so that the facility both delivers energy to machines, and to humans! The picture to the left illustrates a farming robot that will be implemented to the structure of the park in the project.

Pro:

• Produces both electricity and sought after produce
• Reduces uncessecary water and fertilizer consumption
• Stops deserts from growing and creates new green lungs

Con:

• Higher installation costs due to framework, robots and necessary support structures
• Increased maintenance costs
• Reduced lifetime expectansy due to movement, vibration and load on the rails
• Chemicals and metals must be chosen to interact well with eachother

Disclaimer: This is a project under development and end results may differ from expectations