Videos

5 million Flemings do not live in a city centre, but in villages or city outskirts. This fragmentation creates a major challenge: how do you connect all these houses to the sewerage network and how do you ensure smooth and sustainable mobility? Does everyone have to move to the city? No, as architect and urban designer Sophie Leemans (KU Leuven) explains in this video.

You have no doubt come across it when opening your fridge: a packet of cheese full of mould or a pot of sauce with a suspiciously bulging lid. The culprits? Bacteria, yeasts and moulds. Food producers try to prevent this type of spoilage as much as possible, by ensuring that a product contains as few micro-organisms as possible when it leaves the factory. Bio-engineer Thijs Vackier is working on new cleaning agents that can better break down biofilms, protective mantles around micro-organisms, in food processing equipment.

How do we prevent power breaks when everyone starts driving electric vehicles? With smart grid pricing! Niels Govaerts (VITO - KU Leuven - EnergyVille) explains how this works.

Imagine that you could use the CO2 emissions of factories to feed animals! Two birds with one stone. Well, this is possible! in this video, Lotte Van Peteghem (Ghent University) explains how she would like to use the CO2 emissions of steel factory Arcelor Mittal to eventually feed about 150,000 pigs

Our poo and pee are too precious to waste, says Angelou Papangelou. The phosphorus in our excrement and in animal manure can serve as the food of our food and shouldn't go to waste. That's why Anastasia Papangelou is mapping the nutrient stocks and flows in the country, so that we can put our poo and pee to good use!

The land of farmers in coastal Bangladesh remains flooded for almost half of the year. To tackle this, Bangladeshi farmers use 'floating farms'. Jinat Hossain tells you more about this innovative adaptation mechanism. 

Have you ever broken one of your cherished devices, but had to dump it because you couldn't fix it? Julie Metta (KU Leuven) wants to help us reclaim our belongings, by uncovering local heroes, called the Makers.

To make the production of plastics and other chemical processes less energy-intensive and waste-producing, Max Bols turns to nature. Enzymes, the catalysts of living cells, hold the key to improve chemical processes, as he explains in this video. 

Did you know that the water we drink and the air we breathe contain small fractions of metals? If the doses are low, this is not a problem, but once they're too high, this becomes harmful to our health. That's why Reinhart Van Poucke wants to capture metal particles from the air, water, and soil so that they don't end up in our food chain.

Products with an eco-label are often more expensive than regular products. Bio-engineer Sven Dierickx is determined to change this: he uses yeast from bumblebee honey to make environmentally friendly ánd low-cost detergent 🐝🍽🧽

In order to provide the growing world population with sufficient protein, Reindert Devlamynck (University of Ghent) focuses on duckweed. In addition to ducks, he also wants people to eat this tasty little plant and is setting a good example for himself 🍽

What if we could make plastic out of... Wood waste? This is already possible today, but unfortunately the technology to make such bioplastics is not yet fully developed. Tim Croes wants to help change that.