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Membrane distillation for advanced wastewater treatment in the semiconductor industry

Wastewater streams can be harnessed to recover valuable materials in a circular manufacturing concept. In this project we will investigate how membrane distillation can play a role for wastewater treatment, leading to improved environmental performance and energy savings through waste heat utilization.

Funded by:

SELECT+

Xzero

Time period:

2016-10-31 – 2020-09-30

Project partners:

KTH

Xzero

Imec

Background

The semiconductor industry features some of the most advanced manufacturing steps seen anywhere, and has high demands on precision and material stream purity. Ultrapure water is employed as a rinsing agent, which in turn generates wastewater that is increasingly subject to more stringent controls (e.g. via EU Water Directive). In the future these wastewater streams can be harnessed to recover valuable materials in a circular manufacturing concept. Membrane distillation can play an important role for wastewater treatment in this application, leading to improved environmental performance and energy savings through waste heat utilization.

Aim and objectives

Outcomes

Publications

List of publications

Project contact persons

Project leader

Andrew Martin
Andrew Martin
head of faculty renewal
Profile

PhD student

ieno
Digital Twin for smart grid connected buildings
PED StepWise — Participatory Step-by-Step Implementation Process for Zero Carbon District Concepts in Existing Neighbourhoods
ADiSS — Aeroelastic Damping in Separated Flows
MERiT — Methane in Rocket nozzle cooling channels - conjugate heat Transfer measurements
CARE – Cavity Acoustics and Rossiter modEs
SCO2OP-TES – sCO2 Operating Pumped Thermal Energy Storage for grid/industry cooperation
POWDER2POWER (P2P) – MW-scale fluidized particle-driven CSP prototype demonstration
eLITHE – Electrification of ceramic industries high temperature heating equipment
DETECTIVE – Development of a Novel Tube-Bundle-Cavity Linear Receiver for CSP Applications
USES4HEAT – Underground Large Scale Seasonal Energy Storage for Decarbonized and Reliable Heat
ADA – Aggressive Duct Aerodynamics
VIFT — Virtual Integrated Fan and Turbine
HECTAPUS — Heating Cooling Transition and Acceleration with Phase Change Energy Utilization Storage
SUSHEAT — Smart Integration of Waste and Renewable Energy for Sustainable Heat Upgrade in the Industry
Analysis of PV system in Sweden
EVAccel — Accelerating the Integration of Electric Vehicles in a Smart and Robust Electricity Infrastructure
Towards Sustainable Energy Communities: A Case Study of Two Swedish Pilot Projects
HYBRIDplus – Advanced HYBRID solar plant with PCM storage solutions in sCO2 cycles
SHARP-SCO2 – Solar Hybrid Air-sCO2 Power Plants
RIHOND – Renewable Industrial Heat On Demand
A turnkey solution for Swedish buildings through integrated PV electricity and energy storage (PV-ESS)
A new standard methodology for assessing the environmental impact of stationary energy storage systems (LCA-SESS)
EleFanT – Electric Fan Thruster
Circular Techno-Economic Analysis of Energy Storage– IEA Annex Co-coordination
Optimization of Molten Salt Electric Heaters
FLEXnCONFU: Flexiblize Combined Cycle Power Plants through Power To-X Solutions using Non-Conventional Fuels
SolarSCO2OL
ARIAS - Advanced Research Into Aeromechanical Solutions
PILOTS4U – A network of bioeconomy open access pilot and multipurpose demo facilities
Cavity Purge Flows inside axial turbines
Effective thermal storage systems for competitive Stirling-CSP plants
ENFLOW: Energy flow metering of natural and biogas for residential applications
H2020 Pump Heat
BRISK II – Infrastructure for Sharing Knowledge II
Improved flue gas condensate treatment in MSW incineration via membrane distillation
Integrated modelling and optimization of coupled electricity and heating networks
IntegrCiTy
Membrane distillation for advanced wastewater treatment in the semiconductor industry
Microgrid for Tezpur University
Smart and Robust Electricity Infrastructure for the Future