Decentralised Energy

Engergizing Infrastructure.

Leading the charge in high-capacity renewable infrastructure and sustainable innovation. Designing built-area energy systems for smarter, greener development. Accelerating energy independence with resilient infrastructure engineering.

Leading the charge in high-capacity renewable infrastructure and sustainable innovation.

Introducing BAEM

Built Area Energy Model

BAEM is our intelligent app for modeling built-area energy performance. It combines planning, simulation, and actionable insight to optimize energy across buildings, districts and infrastructure.

Model Energy at Scale

Model Energy at Scale

Run precise simulations for buildings, campuses, and urban energy systems.

Visualize System Performance

Visualize System Performance

Understand energy flows, savings, and renewables integration with clarity.

Discover BAEM

About Us

At core, Pavakah Energy is committed to driving the future of renewable energy by integrating cutting-edge technology with infrastructure projects. Our Building Integrated Photovoltaic or BIPV for short, is a light weight, flexible film modules that can be used to wrap any strcture to harvest solar energy for their energy needs. Equipped with patented technology and proven design, we aim to reduce a building's energy bills by maximizing solar energy and reducing building's heat uptake simultaneously.

By combining these functions, the technology transforms building facades into active power plants while simultaneously cutting cooling energy demand to lower the energy requirements for buildings. Unlike traditional competitors who typically focus on only one of these problems, this patent-protected innovation addresses both in a single product designed for high-cooling-load environments.

We first map the total energy potential along with shadow analysis, thermal modeling and energy demand of a building. Then we design the optimal BIPV system with choice of colours and facades for the building and finally we install the system to ensure that it performs at its best for years to come.

Technology

Thin film

Thin film solar mpodules are thin with less than 2 mm thickness. Weighs less than 0.5 kg/kW and also flexible. We do both opaque modules and also semi-transparent for your requirements.

Materials Engineering

Science and Research backed material processing and engineering for highest performance.

Printed Solar

Hybrid printing technology give us a unique advantage where we combine techniques used for additive manufacturing with continuois coating capabilities. The result is that we can use best technique for each layer of a solar cell to develop a highest performing, cost-effective solar cell manufacturing.

Low Energy Fabrication & Recyclable

Our fabrication process consumes <25% of the energy required by traditional methods adopted for Silicon based technology. Reclycability factor is also higher and much more economically viable.

Blog

Stay updated with our latest research, innovations, and insights in renewable energy and sustainable infrastructure.

Visit Our Blog