The main purpose of this project is to demonstrate a large-scale pyrolysis process for production of high-quality biochar and energy from common agricultural waste products. The operation of the
The purpose of the project is thus to develop a full-scale flash pyrolysis plant with a capacity of 15 tons of biomass per day. The plant will be developed in continuation of the reactor patent we
The SkyClean Scale-Up project makes it realistic to achieve a pyrolysis-based reduction of greenhouse gas emissions from the Danish agricultural sector of at least 2 million tonnes of CO2e yearly in
PURfection will pursue total recyclability of the high-performance and difficult to replace plastic material polyurethane (PUR). Its excellent performance and extensive range of applications
High brightness supercontinuum and tunable UV lasers have a wide range of applications in scientific and industrial markets including solar cell and semiconductor manufacturing, microscopy
A new epoch of hyperspectral imaging (HSI) technology is evolving as the technology has gained interest in the recent decade, mainly due to enhanced production methods, improved computing
READY will pursue textile-to-textile recycling, spearheaded by the Danish textile companies Mascot, Bestseller, and Kvadrat. The continuously growing textile production has approximately
We urgently need solutions to reduce our resource consumption and waste created. We all see in our everyday cooking how plastic waste piles up with 31 kg of plastic waste produced per EU
As a response to the ongoing environmental and energy crises, Photovoltaics (solar panels) are increasingly being installed on farmland in Denmark and Europe. This development has taken place
The aim is to develop an integrated technology for organic waste treatment resulting in significantly lower carbon footprint approximately 1-2 kg eq. of CO2 for proteinous feed production by
Hyperspectral imaging using broadband light sources is very important to textiles and meat. Textile recycling is a growing industry due to its immense pollution of microplastics and chemicals
The HyProFuel project will develop technology that converts pyrolysis oil obtained from bio-waste into renewable hydrocarbon fuels by hydrodeoxygenation (HDO) catalysis. Pyrolysis oil production from