Newnestech GmbH
About Us
Green Energy
Newnestech GmbH is a pioneering company at the forefront of the Green Deal movement in Austria. We are dedicated to developing innovative technologies in two key areas:
Green Energy Solutions:
We are revolutionizing solar cell production by researching and developing advanced Silicon technology, including MG silicon, Polysilicon, ingots, and wafers.
We actively explore Concentrated Solar Power (CSP) technology to optimize energy production in specialized power plants.
Process Optimization and Sustainability:
We empower businesses across industries to reduce their energy consumption and CO2 footprint by improving existing production lines through innovative design and implementation.
Our AI-powered software acts as a virtual assistant, optimizing processes, predicting maintenance needs, and enabling preventive measures.
We are actively involved in the development and improvement of wind turbine technology.
Newnestech GmbH is committed to a sustainable future. We believe in harnessing the power of technology to create a cleaner, greener world.
Silicon Technology
MG Silicon, Poly-Silicon, Silicon Ingot, Silicon Wafer, Solar Cell and Solar Panel
The foundation of most solar cells is the silicon wafer. These thin slices are created from highly purified silicon, the second most abundant element on Earth. They act as a platform for converting sunlight into electricity. By treating the silicon wafer with specific processes, it develops a unique property where it can absorb sunlight and release electrons, generating electric current.
Concentrated Solar Power Plants
Concentrated Solar Power (CSP) plants harness the sun's energy in a different way than traditional solar panels. Instead of directly converting sunlight into electricity, CSP plants use mirrors or lenses to concentrate a large area of sunlight onto a central receiver. This concentrated light creates intense heat, which is then used to generate electricity through a conventional steam turbine system. Similar to a coal or natural gas power plant, the heat boils water into steam, driving the turbine and ultimately an electrical generator. The key advantage of CSP plants is the ability to store the thermal energy collected during the day. This stored heat can then be used to produce electricity even when the sun isn't shining, making CSP a more reliable source of renewable energy compared to traditional solar panels.
Optimizing Automotive Paintshop Performance and Energy Efficiency
At Newnestech GmbH, our team of engineers designs, develops, and integrates cutting-edge process solutions to optimize automotive paintshop operations. We focus on reducing energy consumption and improving line performance, delivering significant cost savings and environmental benefits.
The paintshop is a critical yet highly energy-intensive stage in car production. Newnestech leverages innovative technologies to unlock significant potential for energy reduction and minimization.
Our CEO, Prof. Dr. Alireza Eslamian, is a renowned inventor with patented process systems and facilities in Austria, Europe, the US, and beyond. These technologies are continuously developed to reach Technology Readiness Levels (TRLs) 6 and 9, ensuring market readiness.
We maintain close communication with leading OEMs and car manufacturers. The strong interest we've received paints a bright picture for the future of these advanced technologies.
Key Technologies:
- Encapsulated Paintshop for pretreatment, electrodeposition (ED or KTL), ultrafiltration, and curing systems
- Selective Hybrid Induction Ovens for curing electromagnetically sensitive coatings
- Sonar and Suction Atomiser – an alternative to rotary bell atomisers
These are just a few examples of our extensive portfolio.
Benefits:
- Reduced energy consumption in paintshops
- Improved line performance and production efficiency
- Cost savings for automotive manufacturers
- Environmentally friendly production processes
Contact us today to discuss how Newnestech GmbH can optimize your paintshop operations and drive sustainable success.