Straw could provide the building blocks for clothes and medicines

Thursday 07 Apr 16
by Rasmus-Hoejmark-Ravn


Manuel Pinelo
Associate Professor
DTU Chemical Engineering
+45 45 25 29 50


Brit Bille Albrektsen
International Partnership Manager
Office for Study Programmes and Student Affairs
+45 45 25 10 66


  • BIOVALUE SPIR is a strategic platform for innovation and research on value added products from biomass.

  • The objective is to ensure that Denmark is the world leader in sustainable biorefining technologies and solutions for tomorrow’s bio-based society. 

  • The Department of Chemical Engineering's Center for BioProcess Engineering leads the competencies center within Separation for BIOVALUE.

  • Get more information about BIOVALUE and the platform's projects and partners here.

Glucose from straw may play a big role in the future production of many everyday product. An award winning PhD project from DTU Chemical Engeering aims to uncover how new processes can help increase the profit values from straw and make it an effective and profitable business.

As the world population continues to grow and the search for alternative resources intensifies as a result, researchers are always looking at different and more efficient ways to use the materials at our disposal.

For example, a residual product from agriculture, straw, is mostly incinerated for energy, but could instead prove to be a valuable source of building blocks for many other products, such as pharmaceuticals, cosmetics and textiles.

These products can be derived from glucose and another monosaccharid, which can be obtained from straw and other sources when they are processed. The challenge is that types of sugar like glucose and xylose, although they are used in different applications, have very similar chemical structures and are therefore difficult to separate.

However, if a PhD project at DTU Chemical Engineering goes as planned, this could be a different story in the future. The idea is to use membranes to separate different sugar molecules in bio-refineries. An idea, which recently secured PhD student Sofie Thage Morthensen a travel grant from EliteForsk.

Super selective

“We all use high value products and at the same time we have to feed a growing world population, which increases the need for alternative resources, such as biomass. We have biomass everywhere - straw for example“, says Sofie Thage Morthensen, who spends her time at the Center for BioProcess Engineering (BioEng).

“Membranes are super selective materials with the potential to separate sugar molecules at a higher throughput and at milder process conditions compared to other separation processes”, she continues.

For certain applications, the membranes can become even more effective with the use of enzymes as catalysts to modify the process stream. In scientific terms, the concept is known as “reactive membrane separation”.

A costly process

However, as is the case with most concepts, economy has a big say in whether or not it will become a success – and right now Sofie Thage Morthensen is faced with some difficult challenges. For example, enzymes often cost more than the product they contribute to produce, which requires the ability to use the enzymes over a longer period.

“We also work with a feedstock – straw – that is generally a waste product and hence has very low value. In order to make it profitable to reuse straw instead of incinerate or deposit it, we have to develop processes with maximum yield and efficiency”, says Sofie Thage Morthensen.

One of the next steps for her will be to test the reactive membrane separation on an actual flow of biomass. Her project is part of the BIOVALUE SPIR (see text box to the right) platform that aims to increase the importance of biomass in the future.

News and filters

Get updated on news that match your filter.
17 FEBRUARY 2020