Difference between revisions of "Bioremediation"

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== Intro ==
 
== Intro ==
  
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== Summary ==
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Waste Water Treatment Plants (WWTP) face increasing costs of sludge management, and its disposal is a challenging issue. Anaerobic digestion is the most commonly used method for disposing of municipal and industrial sludge, as it reduces the amount of final sludge and produces biogas for energy generation. However, Anaerobic digestion produces a reject water called '''centrates''', which contains a high amount of ammonium and causes disruptions and inefficiencies in WWTP processes.
  
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To address this issue, we would like develop a bioreactor and bioprocess that uses isolated and selected microorganisms in granular form to treat centrates. Out ultimate goal is to develop an industrial solution.
  
== Intro ==
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== Who ==
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The project will be driven by Daniel and Vice, members of Hackuarium.
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To further improve the bioprocess, we are collaborating with HEPIA to investigate the relationship between Extracellular Polymemic Substance (EPS) coating and bioprocess performance. Efficient granulation and stable granular biomass depend on EPS. The research part of this project aims to define optimal process and operational conditions to produce EPS, which will provide the physical structure of the aerobic granules and enhance the biomass's resilience against harsh conditions.
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== Risk Analysis ==

Revision as of 09:08, 1 January 2024

testing


Intro

Summary

Waste Water Treatment Plants (WWTP) face increasing costs of sludge management, and its disposal is a challenging issue. Anaerobic digestion is the most commonly used method for disposing of municipal and industrial sludge, as it reduces the amount of final sludge and produces biogas for energy generation. However, Anaerobic digestion produces a reject water called centrates, which contains a high amount of ammonium and causes disruptions and inefficiencies in WWTP processes.

To address this issue, we would like develop a bioreactor and bioprocess that uses isolated and selected microorganisms in granular form to treat centrates. Out ultimate goal is to develop an industrial solution.

Who

The project will be driven by Daniel and Vice, members of Hackuarium.

To further improve the bioprocess, we are collaborating with HEPIA to investigate the relationship between Extracellular Polymemic Substance (EPS) coating and bioprocess performance. Efficient granulation and stable granular biomass depend on EPS. The research part of this project aims to define optimal process and operational conditions to produce EPS, which will provide the physical structure of the aerobic granules and enhance the biomass's resilience against harsh conditions.

Risk Analysis