
One of the world's biggest challenges is how to address climate change, and in particular, how to do so while ensuring energy remains affordable for consumers and businesses.
In Developing Countries, the issue is even more pressing, as granting access to electricity to a large percentage of the population is a top priority.
The need for fast-track deployment of the connection to electricity, for the integration of multiple sources of power generation facilities including renewable energy solutions, conventional generators, and energy storage, while there may not be an available central Power Plant or where the National Electricity Grid may not yet be able to deliver the electricity to all potential consumers, the need for affordability and for sustainability of the overall energy solution, are all reasons for the development of the Decentralised Energy concept.
Decentralized Energy solution means the combination of various technical solutions in order to produce locally the required energy (electricity, steam, hot water, chilled water, etc) which will be consumed locally, irrespective of the connection or not of the system to the National Grid, if any


A cogeneration system drives a gas turbine by using primary energy (fuel) and produces multiple types of secondary energy (e.g., electricity, steam) continuously. In a gas turbine cogeneration system, fuel is used as the primary energy, and multiple types of energy are produced in order to use energy more effectively.
Furthermore, the system curbs NOx production and reduces environmental impact by using a gas turbine as the drive source.
The PHGTT CHP Series is designed for base load applications, for both parallel operations with the grid and island mode operation.


The closed loop system captures and
recycles used steam it requires less reheating to bring it back to optimal temperature. Because of the
advanced magnetics, special alloy materials in the induction heating element, and the fact that the
heating element is inside the kettle operating at 100% efficiency we are able to achieve >10 COP
The Power Plant uses patented and proprietary technologies with proven components by using the power steam generation using advanced magnetics for induction heating in a closed loop system and to provide clean, emission-free, electricity 24/7/365.
Each Plant provides continuous reliable Base Load Electricity

Decentralized energy systems have several advantages over traditional centralized energy solutions. Due to their smaller scale, they require less infrastructure, eliminating the need for expensive long-distance high-voltage transport systems. This results in lower project costs, making them more accessible to finance.The modular design of decentralized energy systems enables step-by-step deployment of components, allowing for easy adaptation to changing local conditions and needs.
This flexibility makes decentralized energy systems more adaptable and quicker to deploy than traditional centralized solutions.Decentralized energy systems offer several benefits, including lower investment costs, modular design, and flexibility of implementation, which contribute to faster deployment. Additionally, they can be easily adjusted to meet the evolving needs of the community and the local environment.Energy insecurity and lack of access to energy can have significant social and economic consequences. Decentralized energy systems provide a rapid, affordable, and efficient solution to meet energy demand while improving energy security and sustainability simultaneously.