Tag Archives: Management

Continuing Professional Development Course – Kampala, Uganda 7-11 November 2016 – Fieldwork

The SAMSET Project hosted its second continuing professional development course at Victoria University in Kampala, Uganda from the 7th – 11th November 2016. The title of the course was “A Practitioner’s Insight into Urban Energy Planning, Implementation and Management”, and aimed to cover the issues that practitioners (such as urban planners, architects and municipal government officials) face when addressing urban energy management.

The first day of the course was focused on fieldwork in and around Kampala, aiming to give attendees experience of the issues facing Kampala in the urban energy and sustainable energy spheres today. The first part of the fieldwork focused on the central market district in Kampala, and involved a walking tour led by local partners through the market area and central business district of the city.

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Part of the central market district in Kampala. Image: Daniel Kerr

To say that the market area in Kampala is busy is an understatement. Passage through the area is only really possible on foot in some places, and even then only when avoiding the constant movement of goods and people through the narrow streets of the market district. The main roads in the area are extremely busy, with heavy goods vehicles mixing with matuba taxis and boda-bodas (motorcycle taxis) to create effective gridlock at some points in the day. The sustainable energy market, however, was on show in many areas, whether that be hole-in-the-wall shops selling small solar home systems, to street vendors selling improved cookstoves and cookstove liners. The challenges to urban transport were clear to see in the area, particularly how best to facilitate the movement of goods and people in the centre of the city, without stifling the bustling engine of economic growth that the central market district provides to the city.

The second phase of the CPD course fieldtrip involved a visit to a local landfill site on the outskirts of Kampala. This site processed a significant amount of the solid waste in the city, including from official waste management collection services and informal networks of waste collectors. The site also supports a network of informal waste pickers and processors, collecting items such as plastic waste for recycling. A recent initiative at the landfill has seen a PTFE processing facility constructed through collaboration with Chinese investors, although this site has not been without issues. In particular, while investment in the processing facility has created employment at the site, redistribution of profits from the facility has not occurred, with very little being reinvested in the site or community of waste pickers servicing it.

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Landfill site in Kampala, Uganda. Image: Daniel Kerr

The issues facing solid waste management in large, primary cities such as Kampala are myriad, and the effects of this were plain to see in this phase of the trip. Collection and processing, as well as sustainability in operations, are both issues that need to be addressed by urban planners when considering municipal waste issues.

Daniel Kerr, UCL Energy Institute

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Clean Energy Transitions – Can Africa Leapfrog?

Simon Batchelor from Gamos Ltd offers his thoughts on smart technology in sustainable energy, and the concept of “leapfrogging” in energy transitions.

I recently attended the conference ICT4S which focuses on using smart technology to manage energy sustainably.  ICT4S is a series of research conferences bringing together leading researchers, developers and government and industry representatives interested in using Information and Communication Technologies (ICT) as a tool to reach sustainability goals. The 1st ICT4S Conference was held in Zürich and attracted 250 participants from 40 countries. The theme of ICT4S 2014 held in Stockholm was “ICT and transformational change”. ‘Sustainable development needs transformational changes regarding both technology and patterns of production and consumption. This conference explores  and shapes the role of ICT in this process and assess positive and negative impacts of ICT on sustainability. ICT for sustainability is about utilizing the transformational power of ICT for making our world more sustainable: saving energy and material resources by creating more value from less physical input, increasing quality of life for ever more people without compromising future generations’ ability to meet their needs.’

Obviously this conference discusses the high tech end of the spectrum.  There are many actions that can be taken to move towards cleaner, more sustainable energy production and consumption.  Switching off lights to save energy can be done by changes in behaviour – people ensuring they switch the light off when leaving the building.  But humans are fallible, so many technicians propose connecting lights to sensors that switch them off when there is no movement.   This conference spent a lot of time discussing such high tech alternatives – smart buildings that monitored and managed energy.  Even smart cities that mapped where people were travelling to and organised the public transport accordingly.

So for instance, one of the papers talks about smart management of a building in the University of Groningen in the Netherlands.  Their paper “GreenMind – An Architecture and Realization for Energy Smart Buildings” states in the abstract that existing buildings are responsible for more than 40% of the world’s total primary energy consumption (although that seems a very high proportion?). They go on to say that current management systems fail to reduce unnecessary energy consumption and preserve user comfort at the same time mainly because they are unable to cope with dynamic changes caused by user’s interaction with the environment.  So they created a software architecture for energy smart buildings.  Experimental results carried out in the Bernoulli building, a 12.000 square meter building of the University of Groningen, show that the proposed solutions are able to save up to 56% of electricity used for lighting, at least 20% of electricity used for heating while the savings from controlling workstations as well as other appliances are 33% and 10%, respectively. overall, their solution is expected to save up to 28% of total energy consumption in buildings such as the Bernoulli building.

But what relevance has this to Africa?  Well, I listened to their Eurocentric presentations with an ear for Africa, and I was surprised by what I heard.   In Citizen observatories of water: Social innovation via eParticipation, I heard officials from the Netherlands discuss how difficult it is to get people to report problems.  “Advanced citizen observatories can enable a two-way communication paradigm between citizens and decision makers, potentially resulting in profound changes to existing flood risk management processes”.   That is; they have created community volunteers who are willing to report problems!  This has been a problem in the past for Africa, not because people are unwilling to get involved (as is the case in Europe) but because the distance to report a problem was too far.  A broken handpump may lie idle because the community do not have the bus fare to get to the district to report it.  However this is changing.  There are mobile phones and reporting problems can be just a phone call away.  Africa does not need sophisticated websites to collect data on problems, it needs only a willing ear to listen – ears which can be used in face to face conversation or through a simple phone call.

As I sat listening to various presentations, looking for the leapfrog technology; I was surprised.  I realised that what Africa had was a leapfrog society.  Citizens who are willing to talk to each other in community, and to engage with officials IF officials are willing to listen.   The matching of mobile phones and a willing society could result in big data that might really help transitions to clean energy.