Peter Navarro posted this Technology Call
Juli Ramon posted this Technology Call
Account Manager at GCCIR
Haier posted this Technology CallSeeking technical solution for air-permeable drying technology (blocking liquid and vaporous water molecules)We are looking for a technical solution with air-permeability of not less than 350-1600ml/min and water resisting (liquid water, water molecules, water vapor molecules)
ERTRAC Global Competitiveness Working Group posted this Technology CallSeeking research & innovation centres of excellence in advanced functional materialsIn the context of sustainable mobility, research on environmental sustainable lightweight solutions must be continued in an integrated, systemic approach taking into account the application-oriented development of novel material systems. We are seeking information from research centers-of-excellence capable of performing future material development respecting environmental sustainability and circular economy requirements, including: • Natural and bio-based materials as well as recyclable & recycled materials • Materials for energy storage • Materials alternatives to rare and high demand materials • Material repair, reuse and disposal and offering specific functionalities including, for example: • Conductive and piezoresistive polymers, • New surface and coating solutions e.g. for self-cleaning, self-healing or anti-corrosion, • Reversible adhesives and joints, • Materials for noise abatement and aesthetical improvements. Appropriate cost- and energy-efficient manufacturing and assembly strategies will need to be addressed.
Haier posted this Technology CallSeeking technologies or solutions for rapid air dryingHaier seeks technologies or approaches that can rapidly dry air and reduce air humidity level. Background Chest freezers can experience frost formation on the internal surfaces. The frost thickness can reach 5-10 mm within 1 week and can affect the heat transfer efficiency and energy consumption. Over time the frost thickness can also reduce the available storage space and cause inconvenience to consumers who must periodically remove the frost. Tests show that the frost layers mainly concentrate on the lower part of the cabinet and its liner with a frost formation rate of 10g per day (the compressor keeps on for 10 minutes and then keeps off for 14 minutes). We are now seeking for technologies or solutions that can rapidly reduce air humidity level when air flow passes.
Organization from Switzerland posted this Technology CallSeeking Catalyst for Efficient Conversion of Carbon Dioxide and Hydrogen to MethanolPower to Methanol is a highly promising technology for the conversion of carbon dioxide (CO2) and hydrogen (H2) generated by renewable energy sources. Fuels derived from methanol such as dimethyl ether and oxymethylene ethers show high potential to significantly reduce the carbon footprint of synthetic fuels for a low carbon mobility in the future. Industrial catalysts based on CuZnAlOx materials are highly efficient in converting CO-rich syngas, as derived from steam reforming of methane, to methanol. However, with rising content of CO2, catalyst productivity and stability become an issue for industrial applications. Reduced thermal stability may be attributed to higher amounts of product water when applying high CO2 content in the feedgas. We are seeking alternative catalytic compounds with improved hydrothermal stability and improved activity. Low operating temperatures of