Innovation is crucial to fulfil the potential of industrial biotechnology for sustainable production of fuels, chemicals, materials, food and feed. Similarly, scientific and technological advances in environmental biotechnology are needed to enable novel approaches to water purification, and ‘waste-to-product’ processes thus contributing to a circular economy. Increased fundamental knowledge encompassing enzymes, microorganisms and processes are essential for progress in this field. The Department of Biotechnology covers this research area and, based on new insights, selects, designs and tests new biobased catalysts, micro-organisms, and processes.
The department encompasses five research sections:
03 February 2016
Interview by BNR radio with Peter Mooij about the fattest algeaTo produce biodiesel using algae, you can revert the best in Darwin's theory. For scientists, however clever on genetic engineering, nature still outwits us from Delft research Peter Mooij, TU Delft on BNR radio (in Dutch): "You need to reward an algea for the trick he does"
15 January 2016
Algae prove promising candidates for biodiesel production via 'survival of the fattest'Smart methods for cultivating algae bring the efficient production of biodiesel using algae in sight. On Tuesday 19 January, Peter Mooij will obtain his doctorate at TU Delft for his work on this subject. CO 2 neutral There is huge scientific interest in the use of microalgae to produce carbohydrates and in particular lipids (fats), as lipids from microalgae can be converted into biodiesel. The amount of CO 2 released by the combustion of this biodiesel is equal to the amount of CO 2 that was previously extracted from the atmosphere by the microalgae. Thus the use of biodiesel does not lead to an increase in CO 2 in the atmosphere. 'Microalgae offer two huge advantages over other biological oil production platforms', says doctoral candidate Peter Mooij from TU Delft. 'Firstly, after cultivation, microalgae can be made up relatively largely of lipids. And secondly, relatively little fresh water and agricultural land is required to cultivate microalgae.' Survival of the fattest Mooij uses a smart method to cultivate suitable algae that is economically viable for large-scale algae production: survival of the fattest. The fattest algae survive. 'In the reactor we give a competitive advantage to the algae with the required characteristics, in this case the production of carbohydrates and fats. We start with a collection of 'ordinary' algae. During the day we provide them with light and CO 2 . This is enough for them to produce oil, however they are unable to divide. They need nutrients for cell division and they are only given these in the dark. To absorb these nutrients, the algae need energy and carbon. This means that only the fattest algae can divide, as they have stored these during the day. By removing some of the algae every day, the culture will eventually exist of only the fattest algae.' Starch 'All of our experiments led to systems in which carbohydrates (starch) formed the primary energy storage compounds', continues Mooij. 'So we have found a suitable environment in which carbohydrate production by algae is rewarded.' Unfortunately this environment is not yet selective for the storage of fats. The culture environment needs to be made even more specific to achieve this. 'But a greater understanding of the ecological role of lipids and carbohydrates in microalgae clears the way for the creation of lipid-specific selective environments. Rewarding a microalga for showing the desired behaviour by using a selective environment, one of the central concepts in my research, will be shown to be a valuable approach once there is a better understanding of the ecological role of lipids.' More information For further information please contact Peter Mooij tel. +31 6 - 483 826 35 or firstname.lastname@example.org or Wendy Batist, press officer TU Delft via tel. +31 - 15 - 27 884 99 or email@example.com . Please read Peter Mooij's blogs on Faces of Science (only in Dutch).
06 February 2019
TU Delft signs contract with UNICAMP to host the TU Delft office in Brazil for coming 5 yearsOn 5 February 2019, Professor Marcelo Knobel, President of the largest technical university of Latin America in Campinas signed an agreement for collaboration with Professor Patricia Osseweijer, University Ambassador Brazil of TU Delft.
19 October 2018
Art from wastewater at the Dutch Design WeekThis week, three young designers and the Dutch water boards present Dutch Design made from 'Kaumera'. Kaumera is a new raw material that can be extracted from waste water by means of the Nereda purification process, which was developed in part by TU Delft. All three artists found a different application for the versatile raw material: in porcelain, textiles and woodwork. During the Dutch Design Week, from 20 to 28 October, the exhibition can be seen in the Veemgebouw (stand EFGF).
29 August 2018