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DELIVERING CLEAN HYDROGEN SOLUTIONS
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Converting a gas turbine to a hydrogen turbine
The use of hydrogen as a gas turbine fuel has been demonstrated commercially, but there are differences between natural gas and hydrogen that must be taken into account to properly and safely use hydrogen in a gas turbine. With decades of experience running our entire fleet of gas turbines on varying levels of hydrogen—and with a path towards running on 100% hydrogen—we have mastered operating hydrogen safely.
Burning hydrogen: Things to consider
In addition to differences in the combustion properties of hydrogen and natural gas, it's also important to consider the impact to all gas turbine systems, as well as the overall balance of plant. In a power plant with one or more hydrogen-fueled turbines, changes may be needed to the fuel accessories, bottoming cycle components, and plant safety systems. Broad field experience enables our engineers to understand the impact of using hydrogen as a gas turbine fuel.
As gas turbines are inherently fuel-flexible, they can be configured to operate on green hydrogen or similar fuels as a new unit, or be upgraded even after extended service on traditional fuels, i.e. natural gas. The scope of the required modifications to configure a gas turbine to operate on hydrogen depends on the initial configuration of the gas turbine and the overall balance of plant, as well as the desired hydrogen concentration in the fuel.
Areas of usual application
Whether you need to monitor a car, a power plant, a generator or a spacecraft, we have the right solution for you.
Our CVM products are designed to provide fast and reliable cell voltage monitoring for electrolyzers. This ensures the safety of the electrolyzers and the operators. Our products can help you prevent corrosion and degradation of the materials, and optimize the energy efficiency of the electrolyzers.
Fuel cells are used to power electric vehicles, buses, trains and other modes of transportation that require clean and efficient energy sources. However, fuel cells are subject to degradation and inconsistency due to various factors such as load changes, temperature variations, gas stoichiometry and contamination. Therefore, it is important to monitor the voltage of each cell in a fuel cell stack to detect any abnormal or critical operating conditions that may affect the overall system performance or cause irreversible damage.
Our CVM products let you monitor and optimize your fuel cells with ease and efficiency. They can measure the voltage of each cell in any fuel cell type, such as PEM, SOFC or AFC. They can also prevent damage, degradation and inefficiency. With our products, you can get the most out of your fuel cell system.
Fuel cell stack voltage monitoring is a vital technology for ensuring the reliability and performance of fuel cell systems in shipbuilding and navy applications. Fuel cells are used to power ships, submarines, boats and other marine vehicles that require clean and efficient energy sources. It is essential to monitor the voltage of each cell in a fuel cell stack to identify any abnormal or critical operating conditions that may harm the overall system performance or cause permanent damage.
Our CVM products are designed to provide fast and reliable cell voltage monitoring for flow batteries and can also be used for different types of batteries, such as lithium-ion, lead-acid, nickel-metal hydride. They can measure the voltage of each cell.They can also detect and diagnose any cell faults or degradation processes that may affect the performance and lifetime of the batteries.
Fuel cell stack voltage monitoring is a key technology for ensuring the safety and performance of fuel cell systems in airplane and aerospace applications. Fuel cells are used to power aircraft, rockets, satellites and other aerospace vehicles that require clean and efficient energy sources.To prevent irreversible damage to the overall system performance, fuel cell stack voltage monitoring is required to detect any abnormal or critical operating conditions.
Customized solution for your fuel cell or electrolyzer system
Every battery system is unique, which is why we offer customised cell contacts. Our customised cell voltage pickups are designed to fit your specific battery system, ensuring accurate and reliable monitoring of your cells' voltage levels. Our team of experts will work closely with you to create cell contacts that are tailored to your system's specifications, allowing for optimal performance and precision. With our customised cell contacts, you can be confident in the accuracy of your cell voltage measurements and the overall health of your battery system.
We also offer custom designed variants for mass production. If you have specific requirements or needs for your fuel cell or electrolyzer system, we can tailor our products to suit your specifications. We can adjust the number of channels, the maximum current, the communication interface or protocols, and other features according to your preferences. We can also provide you with competitive prices and high-quality products for mass production. With our products, you can get the best solution for your application.
We understand that every system has different requirements and specifications. That’s why we offer custom harnesses that are tailored to your needs and compatible with our cell voltage monitoring solutions. Whether you need a specific length, connector type, wire gauge, or color coding, we can design and manufacture a harness that meets your expectations and ensures a reliable and safe connection.
Hydrogen 1.0: A new age
This perspective type article primarily focuses on a new concept of Hydrogen 1:0 for the global community where hydrogen society is developing with clean hydrogen energy solutions to overcome local and global energy, environment and economy related challenges and provide a sustainable future. In this regard, the article discusses hydrogenization, where hydrogen energy-based solutions, are developed for implementation.
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Design and analysis of nuclear and solar-based energy, food, fuel, and water production system for an indigenous community
For the sustainable communities, there is a strong need to address the United Nations’ sustainable development
goals for communities, cities and countries. In this paper, we develop a unique hybrid energy system for cleaner
productions of energy, fuel, food and water for an indigenous community by addressing the following goals,
namely: zero hunger; clean water; affordable and clean energy; industry, innovation and infrastructure; sustainable cities and communities; and climate action.
Challenges, opportunities and future directions in hydrogen sector development in Canada
Exploitation of fossil fuel sources in the power generation and transportation sector has been a major source of carbon dioxide emissions that contributes to global warming. Replacement of hydrocarbon-based fuel sources with cleaner fuels is imperative for environmental preservation at the global level. In this regard, hydrogen can be used as an effective non-carbonaceous fuel option as well as an energy carrier. Canada is currently one of the economically advanced countries in the world and aims at achieving a net-zero economy by 2050. However, fossil fuels are still largely utilized for both transportation and power generation purposes.
