Description

Environmental remediation for safeguarding human health is difficult. Effective processes enabling scalable operability are lacking. triboREMEDY aims at solving this impasse by providing the foundational steps towards the novel technology called “tribolysis” for safe, controlled, and efficient degradation of hazardous chemicals and effective inactivation of the pathogens. The scientific and technological breakthrough of triboREMEDY is based on the generation of nascent surfaces, high pressures, and shearing forces that will supply the required activation energy for dissociation of polychlorinated biphenyls (PCBs) and cell disintegration of pathogens. The centrepiece of triboREMEDY is the fully-controlled “triboreactor” in which mechanically (tribologically) induced chemical reactions take place as viable alternative to A) highly costly incineration or storage of hazardous waste, notably PCBs, and B) chemical, thermal inactivation or ultra-violet irradiation of pathogens in drinking water. The main project aim is to set scalable design rules for the “triboreactor” (proof of concept) based on the identification of PCB degradation products and pathogen inactivation pathways together with their relationships to operational parameters. In addition to this, the long-term vision beyond halogen elimination of PCBs and disinfection of drinking water avoiding chlorine treatments, will cover other toxic organic chemicals, application in chemical synthesis, catalysis free of critical raw materials, coating processes, requiring sensors for the monitoring of trace components, opening a wide new scientific and technological field. triboREMEDY will be driven by a multidisciplinary team of excellent researchers in mechanical engineering, chemistry, physics, biology, and medicine enabling the required unique breakthrough and interdisciplinary approach.
Short titletriboREMEDY
AcronymOZR3416
StatusActive
Effective start/end date1/03/1928/02/23

    Flemish discipline codes

  • Food chemistry and molecular gastronomy

    Research areas

  • Health

ID: 46604200