Environmental technology
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Involved from Niva (12)
Anne Luise Ribeiro
Barkha Tiwari
Dorna Misaghian
Gabrielle Hairabedian
Gilberto Binda
Kristoffer Kalbekken
Malcolm Reid
Marc Anglès d'Auriac
Medyan Esam Ghareeb
Pawel Krzeminski
Pernilla Marianne Carlsson
Stephanie Delacroix
Pages (4)
Aquamonitor
Climate monitoring station Langtjern
NIVA Risk assessment database
Source to outcome predictor
Projects (12)
Algeco
ALGECO (Cost-effective algae technology to promote circular economy development of Norwegian wastewater treatment plants) provides a scientific blueprint for a new paradigm of bioeconomy for Norwegian wastewater treatment plants (WWTPs). We aim to transform municipal treated wastewater from waste into algae-based products by developing and implementing innovative, cost-effective and viable algae technologies.
CATALYST
There is a need for more accessible and comprehensive knowledge on industrial symbiosis. Through bilateral cooperation between Romanian and Norwegian actors, the CATALYST project will provide relevant and reliable information on symbiotic opportunities, case studies, and best practices for facilitators, companies and industrial symbiosis stakeholders identified through the project.
CORNELIA
In the CORNELIA project, NIVA together with its two industrial partners tests and verifies innovative technical solutions for targeted removal of antimicrobial resistance from wastewater at hospitals (at the source) and at wastewater treatment plants (before discharge to the environment).
DUWA
The goal of the DUWA project is to treat wastewater discharges from hospitals to minimize the spreading of antimicrobial resistance (AMR) to the environment and to reduce the emission of micropollutants. NIVA assists the start-up company Sustaintech AS in the development and verification of ozonation to remove antibiotic resistant bacteria (ARB) and antibiotic resistance genes (ARG) in wastewater decentrally at a Norwegian hospital.
EXPECT
The Arctic environment is facing evident changes such as temperature increase and consequent rapid decline in the sea ice. These conditions will favour the development of industrial activities, e.g., oil & gas exploration and aquaculture. We need to assess the potential environmental risks from the anticipated industrial development in the Arctic, and to do that, we need to develop robust methods and approaches that characterise the pollution pathway from the emission to the environment to the display of adverse outcomes in the biota.
HOTMATS
Antimicrobial resistance (AMR) is one of the greatest health challenges of our time with serious economic consequences for society globally. The goal of HOTMTAS is to design, implement and assess modular advanced solutions for effective and decentralized wastewater treatment at selected point sources of AMR emergence, such as hospitals and nursing homes.
HydroSun
Hydrosun aims to develop knowledge enabling efficient design and operation of hydro-FPV HyPPs.
OBAMA-NEXT
This Horizon EU project will identify and develop innovative tools to monitor, map and describe marine organisms, from microbes to mammals and coastal vegetation, across different habitat types in European coastal and marine waters. OBAMA-NEXT will support sustainable marine conservation strategies and policies. Existing and emerging technologies are studied, including satellites, drones, ROVs, drop-video, acoustics, eDNA, and Citizen Sciences.
PAIRWISE
PAIRWISE aims to advance knowledge of antimicrobial resistance as a pollution in aquatic environments, wildlife, and livestock. PAIRWISE focuses on dispersal and dynamics of antibiotic resistant bacteria, antibiotic resistance genes and antibiotics in aquatic environments affected by wastewater treatment plants.
SERPIC
Increasing water scarcity is one of the biggest challenges worldwide. The reuse of the effluents of wastewater treatment plants constitutes a significant and constantly available water resource that can be used for purposes such as irrigation. However, municipal and industrial wastewater treatment plants face an increasing amount of emerging pollutants.
SIREN
SIREN (Integrated system for simultaneous recovery of energy, organics and nutrients and generation of valuable products from municipal wastewater) will develop a system that recovers energy, organics and nutrients from municipal wastewater while simultaneously generating valuable products.
WatRes: antibiotic resistance in Hias inlet and effluent water
The WatRes project investigates the occurrence and spread of antibiotic-resistant bacteria and antibiotic-resistance genes from the Hias wastewater treatment plant to Lake Mjøsa, a main source of drinking water and irrigation.