TECO 2030

29/05/2024

TECO 2030’s Fuel Cell is Running at 100% Power Capacity in Test Bed

TECO 2030 has today successfully reached stable and maximum power output of zero emission hydrogen-electric power with its disruptive fuel cell system.

“This milestone is the biggest one so far in the history of TECO 2030 Group, we now have a fully functional fuel cell which is almost ready for market deployment and powering our client’s applications with zero emission hydrogen-electric power. This is a moment we have all been waiting for since we started our development four years ago. A huge achievement by the entire team at TECO 2030 and AVL,” said Tore Enger, Group CEO, TECO 2030. “All in all, the team is overwhelmed how well the system operates and how the design has beat our expected performances and proves our position as a leading provider of heavy-duty fuel cell applications,” Enger concludes.

Contact [email protected] to learn more!
https://teco2030.no/news/teco-2030s-fuel-cell-is-running-at-100percent-power-capacity-in-test-bed-18116525/

$TECO $TECFF
hashtag hashtag hashtag

(Norway and Austria, May 29th, 2024): TECO 2030 (OSE: TECO, OTC: TECFF, ISIN: NO0010887516) has today successfully reached stable and maximum power output of zero emission hydrogen-electric power with its disruptive fuel cell system.

23/05/2024

Pollution plays a significant role in aggravating climate change, primarily through the emission of greenhouse gases (GHGs) such as carbon dioxide (CO2), methane (CH4), nitrous oxide (N2O), and fluorinated gases. These gases, once released into the atmosphere, act like a blanket, trapping heat from the sun and preventing it from escaping back into space. This effect, known as the greenhouse effect, is natural and essential for life as we know it because it keeps our planet warm enough to sustain life. However, human activities, particularly the burning of fossil fuels like coal, oil, and natural gas, deforestation, industrial processes, and waste management, have dramatically increased the concentration of these gases in the atmosphere.

This amplified greenhouse effect results in global temperatures rising, a phenomenon commonly referred to as global warming. Over time, this warming affects global weather patterns, leading to more frequent and severe heatwaves, altered precipitation patterns, rising sea levels, and a host of other environmental changes collectively known as climate change. Moreover, other pollutants like black carbon (soot) can directly absorb sunlight, further contributing to warming, while also having detrimental health impacts for humans and ecosystems.

Fuel cells offer a promising avenue to mitigate climate change by providing an efficient and cleaner alternative to conventional combustion-based power sources. Operating on the principle of electrochemical conversion, fuel cells directly transform chemical energy from a fuel, often hydrogen, into electricity and heat without burning the fuel. This means that they can achieve higher efficiencies and produce fewer emissions compared to traditional combustion engines.

When pure hydrogen (Green Hydrogen) is used as a fuel source, the only byproduct of a fuel cell is water v***r, emitting zero greenhouse gases. Moreover, if the hydrogen is produced using renewable energy sources such as wind or solar, the entire energy chain can be nearly carbon-neutral. Additionally, fuel cells can be deployed in a variety of applications, from powering vehicles to providing electricity for homes and industries, offering flexibility in addressing different sectors' energy needs. By replacing or supplementing combustion-based power sources with fuel cells, we can significantly reduce our carbon footprint and move closer to a sustainable, low-carbon future.

Do you want to learn more about how fuel cells can replace your combustion-based power sources? Contact [email protected].

$TECO $TECFF

08/04/2024

TECO 2030 Receives AIP from DNV for Containerized Fuel Cell Power Generator!

https://teco2030.no/news/teco-2030-receives-aip-for-containerized-fuel-cell-power-generator-18064504/

$TECO $TECFF

(Lysaker, Norway, April 8th 2024): TECO 2030 (OSE: TECO, OTC: TECFF, ISIN: NO0010887516) has, in connection to the HyEkoTank project, received an Approval in Principe (AIP) from the Norwegian classification society DNV for a containerized fuel cell power generator (FCPG) for use onboard oceangoing a...

31/03/2024

International is vital to world trade but leads every year to high levels of greenhouse gas emissions and pollution. The international shipping industry currently carries around 80% of the world’s trade. While it only accounts for 3% of global emissions, the figure is set to rise to 17% by 2050 if nothing is done.

TECO 2030 is proactively working to engage in the tremendous green transition going on around the globe, treating the shipping industry’s environmental impact with as much scrutiny as we treat other polluting sectors.

Fuel Cells powered by green are today the only feasible option for zero-emission heavy-duty marine applications.

Contact [email protected] to learn more about the world's first purpose-developed marine fuel cell system!

International shipping is vital to world trade but leads every year to high levels of greenhouse gas emissions and pollution. The international shipping indu...

29/03/2024

What are the benefits of using a fuel cell system vs. the alternatives?

Fuel cells offer several advantages over traditional energy sources. Firstly, they are much cleaner; when using hydrogen as fuel, the only by-product is water, reducing harmful emissions that contribute to air pollution and climate change. In contrast, burning fossil fuels in engines or power plants releases carbon dioxide and other pollutants. Secondly, fuel cells are more efficient. They convert fuel directly into electricity, skipping the energy-wasting steps seen in combustion processes. This leads to potentially lower fuel costs over time.

Moreover, fuel cells are quiet, making them ideal for urban environments where noise pollution is a concern. Unlike battery-powered devices that require lengthy recharge times, fuel cells can be refueled quickly, similar to filling up a gas tank. These benefits position fuel cells as a promising alternative to traditional energy systems, aligning with global sustainability goals.

Contact [email protected] to learn more about the benefits of fuel cells.

27/03/2024

A fuel cell stack, as represented by the "FCS100" in the image, is essentially the core component of a fuel cell system where the electrochemical conversion of fuel into electricity takes place. It consists of multiple individual fuel cells layered together – each composed of an anode, cathode, and electrolyte – which collectively generate electrical power through the chemical process. The stack's design, particularly in the FCS100, features a unique carbon bi-polar plate and is tailored for heavy-duty applications, indicating a focus on high power density and reliability for rigorous uses.

On the other hand, a fuel cell module, like the "FCM400" shown in the image, is a more comprehensive system that includes not only the fuel cell stack but also all the necessary components to manage the fuel supply, thermal management, and electronic controls to ensure proper operation. It is designed as a complete solution for specific applications – in this case, for marine and heavy-duty applications. The FCM400 boasts being the world's most power-dense fuel cell module, aiming for class-leading longevity and incorporating state-of-the-art safety and control concepts. It's designed for series production, signifying its readiness for widespread deployment and commercialization.

Do you want to learn more about how a fuel cell system can decarbonize your applications? Contact TECO 2030 at [email protected]

25/03/2024

TECO 2030 fuel cells present a transformative solution for defense and military applications, offering reliable, silent, and sustainable power generation capabilities.

With their compact design and zero-emission operation, these fuel cells are well-suited for integration into military vehicles, remote outposts, and critical installations, enhancing operational flexibility and reducing logistical burdens. Their compatibility with renewable energy sources further strengthens energy resilience in austere environments. By leveraging TECO 2030 Fuel Cells, defense forces can improve mission effectiveness while advancing environmental sustainability goals, positioning themselves at the forefront of modern defense innovation.

What is your decarbonization and ESG strategies?

Contact us [email protected]!

25/03/2024

Hydrogen and Proton Exchange Membrane (PEM) fuel cell technology can offer the potential of achieving zero emissions in a large variety of applications. PEM fuel cells are electrochemical reactors in which fuel and an oxidant react to generate electrical power. Such reactions, as opposed to combustion reactions, do not produce any emissions other than pure water and can be scaled to multi-megawatt power ratings.

Contact [email protected].

19/03/2024

TECO 2030 Receives AIP from DNV for Onboard Compressed Hydrogen Fuel Systems!

TECO 2030 is proud to announce that it has received an additional Approval in Principle (AiP) from DNV regarding compressed hydrogen fuel systems. This milestone achievement marks a significant step forward in the development of sustainable propulsion solutions for the maritime industry. The Approval in Principle granted by DNV comes with no showstopper conditions, affirming the viability and safety of TECO 2030's compressed hydrogen fuel system design.

TECO 2030's innovative approach to sustainable propulsion solutions continues to garner recognition and support within the maritime community. With a focus on safety, efficiency, and environmental responsibility, the company remains at the forefront of shaping a more sustainable future for the maritime and heavy-duty industries.

Contact [email protected] to learn more about hydrogen applications onboard ships!

02/03/2024

Did you know that there are about 56,000 mining trucks with a payload of more than 90 metric tons in the world? If we say that on average, they will require 1.6 MW of fuel cell drivetrain per truck, the retrofit project as a whole will need 89.6 GW of fuel cells for all the mining trucks globally alone.

Fuel cells offer a promising solution for powering mining trucks, providing efficient and emissions-free energy for heavy-duty operations. By utilizing hydrogen fuel cells, mining trucks can reduce environmental impact with zero tailpipe emissions, while also benefiting from increased efficiency and extended operating ranges compared to traditional diesel engines. The quick refueling capabilities of fuel cells allow for minimal downtime, enhancing operational flexibility, especially in remote mining locations.

Additionally, fuel cell-powered trucks contribute to a quieter and safer working environment, making them an attractive option for sustainable mining operations. Despite challenges such as infrastructure development and cost-effectiveness, the adoption of fuel cells in mining trucks represents a significant step towards greener and more efficient mining practices.

Contact [email protected] to learn more about fuel cells for your energy needs.