Contact details +6469517153
Associate Professor Nicola Brown BTech(Hons), PhD, AMIChemE
Leader of Science & Sustainability
Doctoral Supervisor College of SciencesMy main area of expertise is Environmental Engineering. One area of my research focuses on recovering useful components from wastewater including nutrient and energy via biogas. I am also involved in a number of projects which are developing new biotechnologies for waste treatment.
The majority of my teaching is in project based learning courses for Engineering and Food Technology students. I enjoy using different teaching and assessment techniques. Recently this has also included developing engaging online content which encourages active learning. When possible, I publish my findings in Engineering Education journals.
Professional
Contact details
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Ph: 84153
Location: RC2.116, Riddet Building
Campus: Turitea
Qualifications
- Bachelor of Technology (Honours) - Ƶ (2004)
- Doctor of Philosophy - Ƶ (2009)
Fellowships and Memberships
- Member, Institution of Chemical Engineers (Associate Member/Fellow) (2014)
Research Expertise
Research Interests
Many of the projects I am working on are confidential as they have industrial partners. Below are some examples of previous projects where the findings have been published.
Previous Project: How do we trigger algae to be greedy for phosphorus?
We have problems with too much phosphorus in our waterways but at the same time phosphorus is a nutrient that we are running out of. Currently large amounts of money are spent on removing phosphorus from wastewater without considering how we might be able to reuse this resource.
Imagine if algae could be 'triggered' on demand to suck up large quantities of phosphorus from domestic, agricultural and industrial effluents. Algae can at times store phosphorus but there's a catch - we don't know how to reliably trigger this phenomenon. This research determined the environmental, process and biological conditions which 'trigger' phosphorus storage at an individual algal cell scale. A new process was proposed and initial results look promising.
This project is funded by the Marsden Fund. To see more about this project take a look at this episode of(at about 19 minutes along)
Previous Project: Recovering energy from waste
There are many high energy wastes which could be used to produce energy via anaerobic digestion. Anaerobic digestion produces biogas high in methane which can then be used to produce heat and electricity using co-generation. This project involved surveying a range of wastes available and determining the right mix to use in the digesters. Anaerobic digesters use microorganisms to produce the biogas and they are quite sensitive to their environment so just the right mixture of ‘food’ is needed.
Another part of this project was to develop a new technology to allow anaerobic digestion of some of the more difficult waste products to digest. This involved laboratory studies and pilot scale work.
This project was funded by the Pre-Seed Accelerator Fund.
Thematics
Resource Development and Management
Area of Expertise
Field of research codes
Chemical Engineering (090400):
Engineering (090000):
Environmental Engineering (090700):
Wastewater Treatment Processes (090409)
Research Projects
Completed Projects
Project Title: Establishing the engineering fundaments of a new algae based phosphorus removal process
Date Range: 2012 - 2016
Funding Body: Marsden Fund - Full
Project Team:
- Prof Andrew Shilton - Project Leader
- A/Pro Nicola Brown - Team Member
Project Title: PSAF: Waste to Energy
Date Range: 2009 - 2011
Funding Bodies: Foundation for Research, Science & Technology; Palmerston North City Council
Project Team:
- Prof Andrew Shilton - Project Leader
- A/Pro Nicola Brown - Project Leader
Research Outputs
Journal
[Journal article]Authored by: Brown, N.
[Journal article]Authored by: Brown, N.
[Journal article]Authored by: Brown, N., Jayamaha, N.
[Journal article]Authored by: Brown, N., Lockhart, P.
[Journal article]Authored by: Brown, N., Tunnicliffe, M.
[Journal article]Authored by: Brown, N.
[Journal article]Authored by: Brown, N.
[Journal article]Authored by: Brown, N.
[Journal article]Authored by: Brown, N.
[Journal article]Authored by: Brown, N.
[Journal article]Authored by: Brown, N.
[Journal article]Authored by: Brown, N.
[Journal article]Authored by: Brown, N.
[Journal article]Authored by: Brown, N.
[Journal article]Authored by: Brown, N.
[Journal article]Authored by: Brown, N.
[Journal article]Authored by: Brown, N.
[Journal article]Authored by: Brown, N.
[Journal article]Authored by: Brown, N.
[Journal article]Authored by: Brown, N.
[Journal article]Authored by: Brown, N.
[Journal article]Authored by: Brown, N.
[Journal article]Authored by: Brown, N.
Book
[Chapter]Authored by: Brown, N.
Thesis
[Doctoral Thesis]Authored by: Brown, N.
Report
[Commissioned Report]Authored by: Brown, N.
[Technical Report]Authored by: Brown, N.
[Commissioned Report]Authored by: Brown, N.
[Commissioned Report]Authored by: Brown, N.
Conference
[Conference Paper]Authored by: Brown, N.
[Conference Oral Presentation]Authored by: Brown, N.
[Conference Paper]Authored by: Brown, N.
[Conference Paper]Authored by: Brown, N.
[Conference Paper in Published Proceedings]Authored by: Brown, N., Tunnicliffe, M.
[Conference Paper in Published Proceedings]Authored by: Brown, N., Tunnicliffe, M.
[Conference Oral Presentation]Authored by: Brown, N.
[Conference Paper in Published Proceedings]Authored by: Brown, N.
[Conference Paper]Authored by: Brown, N.
[Conference Abstract]Authored by: Brown, N.
[Conference Paper in Published Proceedings]Authored by: Brown, N.
[Conference Paper in Published Proceedings]Authored by: Brown, N.
[Conference Paper in Published Proceedings]Authored by: Brown, N.
[Conference Paper in Published Proceedings]Authored by: Brown, N., Tunnicliffe, M.
[Conference Paper in Published Proceedings]Authored by: Brown, N., Tunnicliffe, M.
[Conference Abstract]Authored by: Brown, N.
[Conference]Authored by: Brown, N.
[Conference Abstract]Authored by: Brown, N.
[Conference Paper in Published Proceedings]Authored by: Brown, N., Davies, R.
[Conference Abstract]Authored by: Brown, N., Gray-Stuart, E.
[Conference Paper in Published Proceedings]Authored by: Brown, N., Hanly, J., Horne, D.
[Conference Paper in Published Proceedings]Authored by: Brown, N.
[Conference Paper in Published Proceedings]Authored by: Brown, N.
[Conference Paper in Published Proceedings]Authored by: Brown, N.
[Conference Paper in Published Proceedings]Authored by: Brown, N.
[Conference Poster]Authored by: Brown, N.
[Conference Paper in Published Proceedings]Authored by: Brown, N.
Other
[Oral Presentation]Authored by: Brown, N.
[Oral Presentation]Authored by: Brown, N.
[Oral Presentation]Authored by: Brown, N.
Teaching and Supervision
Summary of Doctoral Supervision
Position | Current | Completed |
---|---|---|
Main Supervisor | 1 | 1 |
Co-supervisor | 0 | 2 |
Current Doctoral Supervision
Main Supervisor of:
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Emma Muir
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Doctor of Philosophy
Understanding microalgae self-aggregation for economic and sustainable harvesting.
Completed Doctoral Supervision
Main Supervisor of:
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2024
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William Wilson
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Doctor of Philosophy
Quality Improvement Interpreted as a Complex Adaptive System: Implications and Opportunities
Co-supervisor of:
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2023
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Alexander Cliff
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Doctor of Philosophy
Environmental influences on polyphosphate accumulation in microalgae: an investigation into species differences and transcriptional responses -
2019
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Matthew Sells
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Doctor of Philosophy
Elevating phosphorus accumulation in waste stabilisation pond algae
Media and Links
Media
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27 Mar 2013 - Television
Global Radar
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21 Nov 2013 - Radio
Algae, phosphorus and effluent
Our Changing World, Radio NZ