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TsinghuaX, UQx: Sustainable Resource Recovery from Used Water

Learn about the latest resource recovery concepts, technologies and products related to sustainable wastewater management.

Sustainable Resource Recovery from Used Water
5 weeks
2–4 hours per week
Self-paced
Progress at your own speed
Free
Optional upgrade available

There is one session available:

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Starts Apr 19
Ends May 14
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Sustainable Resource Recovery from Used Water

About this course

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Wastewater is a major end product generated by humans. Traditionally, wastewater has been treated mostly for sanitary and environmental protection reasons, but this waste product harbours an enormous value, both from an ecological and economical perspective.

This course is about the state of the art in resource recovery technologies from wastewater. Regardless of your background, we will teach you the core concepts underpinning the recovery of carbon, nutrients, energy and water.

Learn from experts in wastewater engineering from The University of Queensland and Tsinghua University. This course will help you identify opportunities towards the sustainable management of wastewater as well as understand the major applications for recovered products.

At a glance

  • Language: English
  • Video Transcript: English
  • Associated skills:Sustainable Management, Wastewater, Water/Wastewater Engineering

What you'll learn

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  • Identify recoverable resources in wastewater.
  • Appreciate the breadth of potential products.
  • Discover the technological principles of the resource recovery processes.
  • Recognise the resources that can be recovered in different situations.
  • Appreciate sustainability in the urban water cycle and the importance of resources recovery in a circular economy context.

Syllabus

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MODULE 1: Introduction to the water cycle and used water management

Impact of water cycle on water resource sustainability, sources of used water, consumption of energy and resource recovery potentials, trends for used water management.

MODULE 2: Carbon

Carbon biological transformations, anaerobic digestion, carbon to electricity: microbial cells, carbon to PHA, cellulose recovery.

MODULE 3: Nutrients

Nitrogen and phosphorous biological metabolism, microbial protein production and use as feed or fertiliser, phosphorous recovery, source separation, element recovery.

MODULE 4: Water

Fit-for-purpose water reuse, water recycling for drinking or irrigation use, environmental application of reclaimed water, industrial application of reclaimed water - desalination.

MODULE 5: Integrated solutions and successful cases

Sustainability assessment of water technologies, the Huaifang case study, expert panel discussion, visions for the future of resource recovery.

Ways to take this course

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Certificate

Free

Price

$249 USD

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Access to course materials

Unlimited

Limited

Expires on May 24

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Graded assignments and exams

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