X3D® technology produces catalysts with optimal shapes to maximize performance and efficiency while minimizing energy consumption
Capacity needed to meet high market demand for X3D products
First-of-its-kind plant scheduled for 2026 producing catalysts on industrial scale, driving green transformation projects
BASF has announced that it will invest in additional production capacity for its X3D® technology, a new additive manufacturing technology for catalysts based on 3D printing. The plant will produce catalysts on an industrial scale and is expected to be operational in 2026.
The X3D technology represents a transformative leap in catalyst design and production. Catalysts produced using this technology are not only mechanically robust but also feature an open structure, which significantly reduces pressure drop across reactors and increases surface area. These advancements translate into improved catalyst performance, helping customers to achieve greater efficiency in their plants. They can benefit from an increased reactor output, higher product quality and a lower energy consumption, contributing to the customer’s green transformation goals.
One of the key benefits of the X3D technology is its versatility. It can be applied to a wide array of catalytic materials, including both precious and non-precious metal catalysts, as well as carriers. This flexibility allows BASF to customize catalysts according to specific customer requirements by fine-tuning parameters such as infill patterns, fiber diameters, and orientations.
“BASF remains committed to leading the charge in innovation within the chemical catalysts industry. X3D represents a step-change advancement in technology for catalyst production. We are proud to give our customers new opportunities to boost the performance of their production and at the same time reduce their carbon footprint,” said Detlef Ruff, Senior Vice President, process catalysts at BASF.
Image: BASF
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