Immerse yourself in the world of advanced technology and benefit from our top-class products and solutions that help you successfully implement your projects. Discover our wide range of offerings and be convinced by our expertise and commitment to quality. On our page, you will find a comprehensive overview of our products, specially developed for the requirements of modern measurement technology. Our measurement technology plays a crucial role in research and development by enabling precise quantification and characterization of new developments.
Cell Voltage: Precise Monitoring and Analysis of Cell Voltage
Monitoring cell voltage is crucial for the efficient and reliable operation of fuel cells. It allows you to monitor the condition of each cell in real-time to detect deviations early and avoid potential problems such as overheating, overcharging, or undercharging. Through precise measurements, operators can take timely action to extend the lifespan of fuel cells, increase safety, and optimize overall performance. This data is also essential for the development and further development of fuel cell technologies, to continuously improve their efficiency and reliability. Overall, cell voltage monitoring significantly contributes to reducing operating costs and maximizing the environmental friendliness of fuel cell systems.
At DiLiCo, we offer innovative solutions for measuring and analyzing cell voltages in galvanic cells. Our products are characterized by the highest quality, precision, and reliability, supporting you in efficiently monitoring and optimizing the performance of your fuel or electrolyzer cell. Measuring devices play a crucial role in quality assurance by enabling precise measurements, thus ensuring the reliability and safety of systems. In the Cell Voltage segment, we offer you two different devices for cell voltage monitoring: DiLiCo cell voltage 48/96 and DiLiCo cell voltage 36/72.
The DiLiCo cell voltage 48/96 is designed for monitoring up to 48 or 96 measurement channels. Due to its high measurement accuracy, it is particularly suitable for use in research and development. However, if you are looking for an affordable cell voltage measurement for your series production, then the DiLiCo cell voltage 36/72 is suitable for your application. Unlike the cell voltage 48/96, these devices are less accurate but can also measure negative cell voltages.
Image: DiLiCo cell voltage 48/96 for measuring up to 48 cells.
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Current Density for Greater Reliability of Your Applications
Precise measurement of current density and temperature distribution is essential for the development of fuel cells and electrolyzers, as it forms the basis for improving performance, reliability, and lifespan of this technology. Measuring physical quantities such as current and temperature is of particular importance.
Current density gives you information about how efficiently the cell is operating and how evenly the current is distributed over the active area. Uneven distribution can lead to hotspots that shorten cell life or cause unwanted chemical reactions. Through precise measurement and analysis of the current density distribution, you can optimize operating conditions to achieve more uniform and efficient performance.
The temperature distribution within the cell is also crucial, as it has direct effects on reaction rates and cell life. Excessive heat can lead to degradation, while low temperatures can impair performance. Through precise measurement of temperature distribution, cooling and heating can be optimized to stabilize operating conditions within the cell and maximize efficiency.
Learn how DiLiCo CURR TEMP makes your applications more reliable. Discover our advanced solutions for precise measurement and monitoring of current density, taking your projects to a new level.
Image: DiLiCo CURR TEMP custom for a customer with fuel cell technology.
Image: DiLiCo Hydrogen Cell Test System.
Hydrogen Cell Test System: Reliable Testing Solutions for PEM Electrolysis
Hydrogen Cell Test Systems are used to test and analyze individual electrolyzer cells under controlled and reproducible conditions. These systems allow you to characterize and optimize the performance, efficiency, and reliability of a single cell. Various types and categories of measurement methods, such as direct measurement, indirect measurement, and comparative measurement, play an important role.
Discover our reliable test solutions for PEM electrolyzer cells with our DiLiCo Hydrogen Cell Test System. Optimize your development processes with precise and powerful testing solutions that help you maximize the efficiency and reliability of your electromechanical energy converter.
Fuel Cell Heating for Efficient and Sustainable Heat Supply
Fuel cell heating systems offer a promising way to generate electricity and heat efficiently and sustainably. However, when deciding on a fuel cell heating system, both the advantages and the challenges should be carefully weighed.
As an exclusive distributor, we offer our customers the inhouse5000+hydrogen fuel cell heating system as an advanced solution for decentralized energy supply based on the use of hydrogen. This heater is specially designed to generate both heat and electricity efficiently by converting hydrogen into electricity and heat. Unlike traditional heating systems, the inhouse5000+ fuel cell heating system operates quietly, contributing to a pleasant indoor climate.
Image: inhouse5000+ fuel cell CHP unit from inhouse engineering GmbH.
Image: D-SUB connection cable with separated cable ends and ferrules for DiLiCo cell voltage 48/96.
Measurement Technology Accessories
In addition to our precise measurement technology, we at DiLiCo offer you the perfect accessories for your measurement technology needs. Our range includes high-quality D-SUB connection cables, precise DiLiCo Data Monitor Software, and reliable CAN-USB adapters.
With these innovative solutions, we ensure not only maximum efficiency but also the highest accuracy in your measurements. Trust DiLiCo for first-class accessories that optimally support your applications.
DiLiCo: Your Professional Partner for Measurement Technology in the Field of Hydrogen Technology
The cell voltage of the individual electrolyzer cells in an electrolyzer plays a very important role. The cells must maintain a specific cell voltage, the so-called decomposition voltage, at which water is split into oxygen and hydrogen. Maintaining the decomposition voltage is essential for the smooth operation of the electrolyzer. The increasing aging of cells is also visible in the height of the cell voltage and must be permanently monitored for smooth operation.