Ensinger GmbH
Booth number: 321
www.ensingerplastics.com/en/
About us
The Ensinger Group is engaged in the development, manufacture and sale of compounds, semi-finished materials, composites, technical parts and profiles made of engineering and high-performance plastics. To process the thermoplastic polymers, Ensinger uses a wide range of production techniques, such as extrusion, machining, injection moulding, casting, sintering and pressing. With a total of 2,700 employees at 34 locations, the family-owned enterprise is represented worldwide in all major industrial regions with manufacturing facilities or sales offices.
Address
Rudolf-Diesel-Straße 8
71154 Nufringen
Germany
E-mail: info@ensingerplastics.com
Phone: +49 7032 819 0
Internet: www.ensingerplastics.com/en/
13728 Statesville Rd.
NC 28078 Huntersville
United States
E-mail: sales@ensingerusa.com
Phone: +1 704 992 8100
Internet: www.ensingerplastics.com/en
11 Danco Road
CT 06260 Putnam
United States
E-mail: info@ensinger-pc.com
Phone: +1 860 928 7911
Internet: www.ensinger-pc.com/
365 Meadowlands Boulevard
PA 15301 Washington
United States
E-mail: sales@ensingerusa.com
Phone: +1 724 746 6050
Internet: www.ensingerplastics.com/en
Contact person:
Dan Vettoretto
Territory Manager – Canada
E-mail: dvettoretto@ensingerusa.com
Phone: +1 905-330-9248
Dan Cedrone
Director - Technical Sales and Application Development
E-mail: dcedrone@ensingerusa.com
Phone: +1 704-578-9305
Joachim Reidenbach
Key Account Manager
E-mail: joachim.reidenbach@ensingerplastics.com
Phone: +49 16096947199
Florian Pfeiffer
Business Development Manager Hydrogen
E-mail: florian.pfeiffer@ensingerplastics.com
Phone: +49 175 6063459
Products & Services
Fuel cell
The fuel cell is a promising technology that generates clean energy by converting hydrogen and oxygen in an electrochemical reaction. Unlike conventional combustion engines, a fuel cell generates electricity by combining hydrogen and oxygen, with water being the only emission.
Electrolyzer
Electrolysis harnesses electrical energy to drive a chemical reaction that disassociates water molecules into hydrogen and oxygen components. This method serves as a critical means for producing green hydrogen, which holds immense promise for various applications ranging from energy storage to transportation.
Balance of plant
Balance of plant (BOP) usually refers to additional components and subsystems that are required to operate a system. The BOP includes, for example, compressors, tanks and measurement technology for electrolysis as well as humidifiers and filters in fuel cells.
Redox flow battery
The redox flow battery (RFB) is an innovative energy storage technology that is used to store grid-connected and renewable energy. It is based on redox reactions in which electrons are transferred between electrolyte solutions to store or release electrical energy.
Graphitic bipolar plate
About
Fuel cells enable emission-free energy conversion and can be an innovative and sustainable alternative to combustion engines.
The base polymer of the HTE compounds is characterised by very good chemical resistance, low density, low creep properties and good stress crack resistance. The filler graphite enables the setting of a very high electrical and thermal conductivity.
Benefits
- Chemical and electrical resistance
- Corrosion resistance
- Excellent Lifetime
- Recyclability
Application areas
- Fuel cell
- Redox flow battery
End plate
About
End plates are crucial components in fuel cells and redox flow batteries, serving both a mechanical function for compressing the cell stack and a role in media distribution.
The end plates serve various purposes. They can either serve purely mechanical purposes by compressing the stack or act as a combined component that also manages media distribution.
For smaller electrolyzer stack dimensions, thermoset plates could be a quite adequate alternative.
Benefits
- Chemical, thermal, mechanical and electrical resistance
- Corrosion resistance
- Low hydrogen permeation ratio
- Recyclability
- Weigth reduction compared to metal end plates
Application areas
- Fuel cell
- Electrolyzer
- Redox flow battery
Media supply unit
About
The Media Supply Unit (MSU) is a key component in the fuel cell that ensures reliable supply of media such as hydrogen, oxygen, and coolant to the fuel cell. Ensinger has extensive experience in manufacturing Media Supply Units in dimensions up to 500x700 mm, both in machined and injection molded versions.
Benefits
- Chemical, thermal, mechanical and electrical resistance
- Corrosion resistance
- Recyclability
- Weigth reduction compared to metal MSUs
- Low hydrogen permeation ratio
Application areas
- Fuel cell
- Redox flow battery
Cell frame
About
Cell frames stand as the backbone of electrolyzer stacks, enduring extreme conditions while facilitating efficient electrolysis processes. Our customized cell frames are manufactured to withstand the rough environments of alkaline, AEM and PEM electrolyzers including critical media, elevated temperatures reaching up to 105°C and pressures of up to 35 bar, all while enduring the rigorous pressure load inherent in stack compression.
Benefits
- Chemical, thermal, mechanical and electrical resistance
- Corrosion resistance
- Recyclability
- Excellent flatness and plane parallelism
Application areas
- Electrolyzer
- Redox flow battery
Valve seats
About
Thermoplastic materials play an extremely important role in valve technology. Our product range extends from materials optimized for sliding and friction properties to extreme durable high-performance like PEEK, a plastic often used for hydrogen valves.
Our polyimide components are engineered to meet stringent requirements, including pressureless conditions at -253°C and withstanding pressures of up to 1300 bar.
Benefits
- Proven hydrogen compatibility
- Chemical, thermal and mechanical resistance
- Years of field experience in hydrogen valves
Application areas
- CGH2-valves (low, medium, and high pressure up to 1.300 bar)
- LH2-valves
