Company: BNRG
Filing Date: 2025-03-04
Form Type: 20-F
Source: 0001213900-25-020178
Chunk: 53

Company: Brenmiller Energy Ltd.
Filing Date: 2025-03-04
Form: 20-F
Item: Item 3
Chunk 53
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 concentrate on thermal projects which are more compatible with our core technology.
We believe these pilot projects demonstrate different applications of our technology in various geographic regions and will support us
in the commercialization of our technology. Our pilot projects are described below:

New York Power
Authority

On
February 6, 2024, we announced that we had completed all required system tests and operator training and has handed over our first bGen™
installation in the SUNY campus. The bGen™ storage system installation at a SUNY college charges by using both exhaust gas and electricity
and discharges heat on demand. Our bGen™ is expected to eliminate approximately 550 metric tons of greenhouse gas emissions for
SUNY annually. Developed and deployed in partnership with the New York Power Authority, the largest state power organization in the U. S.,
the project was financed in part by a grant from the Israel-U. S. Binational Industrial Research and Development (BIRD) Foundation.

Our
TES system that was installed at Purchase College is fully operational, heating the school’s gymnasium, and is expected to demonstrate
an increase in energy efficiency and cut carbon emissions on the State University of New York campus.

The
following image shows the installation of a bGen™ unit at SUNY Purchase College in New York.

Enel

On
April 21, 2020, we entered into a supply agreement with Enel Produzione S. p. A., an Italian international manufacturer and distributor
of electricity and gas, or Enel, to plan, manufacture, supply, transport, and install a TES in a combined cycle power plant belonging
to Enel in Santa Barbara, Italy. The project is our first utility-based project and is partially funded by us, Enel, and the IIA. The
goal of this project is to build an innovative TES which is completely sustainable and capable of accelerating the energy transition.
The integration of the TES system with the existing power plant enables Enel and us to test the technology in the field, in challenging
operating conditions and on a large scale. The system offers reduced power plant start-up times and greater speed in load variations,
which are necessary performance requirements to enable the efficient use of renewable energy. The system can be used to store excess energy
produced from renewable sources in the form of heat to offer decarbonization services and to integrate long-term storage solutions with
renewable plants.

This
TES utilizes a two-stage charge and discharge process to provide thermal energy