• News

Published on December 22, 2020 by angela

A collaborative project run by Electric Ant Lab (EAL) and Van Loon Chemical Innovations (VLCI) has been awarded the RVO innovation subsidy (MIT). This funding will fast track their ability to include HLD-NAC measurements in the simulation models of digital R&D tool, RheoCube. From 135 applications in the national MIT subsidies, EAL & VLCI won 10th position. This success underpins RheoCube’s ongoing evolution and growing interest in its capacity to transform R&D.

The Need for Predictive R&D

The current process of formulating new chemical products is primarily based on trial-and-error. That involves selecting ingredients, assembling new combinations into formulations and performing physical experiments. It’s a very inefficient, as well as time and cost-consuming R&D process. A new product development project can take anything from weeks to years. 

From idea to tested formulation within weeks

Our innovative R&D project tackles that problem. VLCI and EAL are integrating their approaches to further develop the RheoCube virtual lab with the ability to use HLD-NAC as input and thereby widely increase its applicability. HLD-NAC is useful to any industry that deals with emulsions. This includes oil recovery, personal care, home care, agriculture, metalworking, or pharmaceuticals. Sander van Loon, CEO at VLCI comments: 

“This predictive R&D workflow will accelerate the surfactant selection for emulsion developments. Customers in the formulation industry can use this collaborative approach to benefit from a ‘one-stop-shop’ setup.”

New possibilities for product development 

The resulting product will enable chemical companies to apply both HLD-NAC methodology and simulation models to their product development. This is remarkable as it is yet uncharted territory in the chemical industry. The combination of VLCI’s approach for surfactant selection and emulsion development combined with EAL’s approach to rheology and formulation simulations creates a unique digital solution. This breakthrough solution makes it possible to move from idea to tested formulation within a matter of weeks, and at a fraction of the current costs. 

“Our clients such as Givaudan and Henkel have already expressed an interest in incorporating the HLD-NAC application in RheoCube. This exciting project will drive the evolution of RheoCube and facilitate users in new ways.”

Jurjen van Rees, COO at Electric Ant Lab

This project exploits HLD-NAC as a solution to serve the entire pipeline, from initial determination at VLCI, to use as a surfactant characterizer for predictive modelling in EAL’s RheoCube. The results will be reduced costs at each product development phase in industrial R&D. The predictive chemical formulation capabilities delivered by this full-pipeline approach will drive substantive cost-savings in the R&D departments of high-ranking chemical and materials industries throughout the world.