Sort by
Refine Your Search
-
Category
-
Program
-
Employer
-
Field
-
, chemicals and wastewater treatment, to feed and food. You’ll be working closely with like-minded, highly motivated colleagues from our department, faculty and other faculties. Working in a pioneering
-
Caribbean with the objective to develop, implement and test AI innovations that will accelerate the use of clean energy and advanced solutions in water treatment and wastewater recycling/purification
-
for Resilient, sustainable Chinese and Dutch waters (FOREWARD). The project aims to address the challenges posed by wastewater pollution from human and agricultural sources, highlighting issues with the current
-
solution for the treatment of these wastewater streams. Electrodialysis relies on the application of an electric field across a stack of ion-exchange membranes to drive ions toward the oppositely charged
-
. This makes it possible to use electrolytes that have only limited conductivity, opening up the way towards purifying various industrial wastewater streams while at the same time making hydrogen. Within a
-
strategies for responsible, biotechnology-based innovation and circularity in fields ranging from energy, chemicals and wastewater treatment, to feed and food. You’ll be working closely with like-minded
-
collaborate on the development of microbial applications in sustainable drinking water production and wastewater treatment systems in order to remove nitrogen, methane and micropollutants (contaminants
-
applications in sustainable drinking water production and wastewater treatment systems in order to remove nitrogen, methane and micropollutants (CEC). We focus on four research themes: 1. Nitrogen cycle