Team:Imperial/Informing Design
From 2014.igem.org
Line 46: | Line 46: | ||
</h2> | </h2> | ||
<figure class="content-image image-right image-small"> | <figure class="content-image image-right image-small"> | ||
- | <img class="image-full" src="https://static.igem.org/mediawiki/2014/8/81/IC14-informed-templeton.jpg" width= | + | <img class="image-full" src="https://static.igem.org/mediawiki/2014/8/81/IC14-informed-templeton.jpg" width=1000> |
<figcaption>Dr. Michael Templeton</figcaption> | <figcaption>Dr. Michael Templeton</figcaption> | ||
</figure> | </figure> |
Revision as of 12:18, 24 September 2014
Collaborations
Overview
We spoke with individuals and organisations who have interests in water treatment and bacterial cellulose in order to direct the development of our project. This included discussions with academics, industry and NGOs. These talks allowed to us to draw on previous experience in cellulose biosynthesis and processing as well as see how our solution could appropriately fit in with current processes.
Key Achievements
- Spoke with water treatment experts to find out about the problem and what specific contaminants can be tackled
- Discussed with industry how our project could be developed to fit in with existing infrastructure
22/07/14 - Dr. Michael Templeton (Civil Engineering, Imperial College)
Dr Michael R. Templeton is a chartered civil engineer and Senior Lecturer in Public Health Engineering at Imperial College. He is the chair of the Water Supply and Quality Panel of the Chartered Institution of Water and Environmental Management (CIWEM) and a member of the ICE Water Expert Panel.
We met with Dr. Templeton to discuss specific contaminants and go through some of our main questions relevant. He described the need for desalination, the fear of bugs in drinking water treatment. Then he told us about sand treatment of water with biology, the kanchan arsenic filter and emphasised the robustness of filters. He mentioned the pesticide metaldehyde as a contaminant that cannot be removed in the UK and that there is a pesticide regulation in the EU which makes this an issue for the water supply. Currently, water treatment aims to minimise the unwanted things in water by diluting contaminated water, rather than filtering it out.
Dr. Templeton emphasised the need to make an idea which locals can grow themselves. He described the current treatment standard for water purification in the UK. He said that we need to find a process that treats something we cannot get out of water right now. To this means, he gave us some papers to have a look at. Finally he told us about other areas that could require synthetic biology include faeces pits and treating bugs in water.
22/07/14 - Dr. Andreas Mautner (PaCE, Imperial College)
Dr. Andreas Mautner is a Postdoctoral member at the Polymer and Composite Engineering group at Imperial College London, led by Prof Alexander Bismark. Dr. Mautner’s work focuses on the development of filtering membranes for sustainable water treatment. Specifically, he targets fertilizers, pesticides, heavy metal ions and microbial contamination for further industrial applications.
We met with Dr. Mautner to discuss his findings on cellulose-based filters, their characteristics, limitations, and scope for improvement by biological engineering. Amongst other issues, we discussed the biological characteristics of cellulose that could be improved. We also talked about the limitations of the current chemical functionalisation of cellulose, mainly based on the chemical attachment of functional groups. The latter very much reinforced our aims to functionalise our pellicles by both the non-covalent and covalent attachment of biologically-derived proteins of interest, due to their higher affinity for their cognate targets.
Furthermore, he described in detail a variety of post-processing steps and post-production treatment of cellulose pellicles, which became a fundamental pillar of our cellulose post-processing side project.
24/07/14 - Prof. Nigel Graham (Civil Engineering, Imperial College)
WRITE UP HERE
28/07/14 - Dr. Sandy Cairncross (LSHTM)
Dr. Sandy Cairncross is a Professor of Environmental Health at the London School of Hygiene and Tropical medicine (LSHTM) with a vast career spanning water, sanitation and public health implementation in developing countries. Two of our team members met with Dr. Cairncross to discuss using our bacterial cellulose biomaterial as a point-of-use filter in areas where people do not have access to clean drinking water. In the meeting he emphasised that water quantity, rather than quality, can be the more important factor which reduces illness such as diarrhea, and warned that ‘temporary’ solutions such as point-of-use filters can end up becoming inadequate permanent solutions which reduce governmental focus on improving infrastructure. We also discussed other areas our filter could be used such as disaster zones. An enlightening meeting, we re-examined our end application to think about more industrial settings.
30/07/14 - WaterAid
WaterAid is an international NGO that works worldwide to deliver clean water and sanitation through sustainable, long-term solutions. We visited their London based global office to speak with Ray Heslop, an Engineering Advisor and founder member of the Northumbrian WaterAid Committee. From him we learnt about the importance of sustainable, appropriate solutions, as well as some of the current water distribution and treatment methods. We were informed that it is far easier and preferable to protect a clean water source than attempt to treat a contaminated one. This lead to us to reconsider our initial idea of targeting our bacterial cellulose filter to underdeveloped countries and instead focus on ones with some water infrastructure.
05/08/14 - Dr. Koon Yang Lee (Chemical Engineering, UCL)
WRITE UP HERE
21/08/14 - Thames Water
We also considered the use of our filter in current industrial processes in developed countries. We got in contact with Thames Water, who is the private utility company responsible for water supply and waste water treatment in large parts of London. At their treatment facility we learnt from Dr. Michael Chipps and his colleagues how water is treated at an industrial scale using a variety of techniques. These included techniques we had come across previously such as slow-sand filters and activated carbon as well as some we had not. Of particular interest were membrane bioreactors and the issues surrounding current cellulose acetate membranes.
02/09/14 - Médecins Sans Frontières
We considered that our filter may find applications in areas of disaster where more immediate aid and provision of potable water may be required. Our meeting with Dr. Biserka Pop Stefanija, a Water Sanitation Advisor from (MSF) gave us insights into how our filter would be better suited to use by organisations such as MSF in bulk treatment for temporary storage and distribution than as a point of use filter.
From our meeting we learnt how it is important to rapidly set up water treatment and provision facilities when responding to crises. Not only is this vital for drinking and prevention of disease, it also allows medics to provide their services effectively. Water is viewed as part of public health rather than a commodity. An interesting part of our discussion was how it was important to engage with the community when providing technological solutions. If the water treatment procedure is too much of a hassle, it simply won’t be used and so will have no effect. Cultural/traditional ideas and political propaganda may also halt the uptake of new technologies. This is something we would have to consider in the future.