Cameroonian Bamboo Magic

Our friend Bill Zimmerman, a technologist who runs a startup un-incubator called LimbeLabs in Cameroon, posted this interesting story on his blog about a teacher who makes an extra income by fabricating gadgets out of Bamboo.

Avid readers may remember the Bamboo Bike project, so the idea of using Bamboo as an alternative and sustainable material isn’t that far fetched. In fact, we’re glad that someone took the initiative and ventured into this field with so many different products at the same time. Bamboo Magic, really. Make sure not to miss out the video!

“I had an opportunity to stop by the 2009 South West Regional Agro-Pastoral Show, an annual exhibition for local farmers and craftsmen, here in Limbe this afternoon. The event was held on a community field ringed by exhibition booths overflowing with every imaginable vegetable, fruit and live animal cultivated and raised in the southwest region of Cameroon. In addition, there were a number of innovators with homemade products and gadgets crafted from local materials.

Amid all the displays, one guy stood apart with some creations that can only be described as a near perfect marriage of form, function, green design and a borderline obsession with bamboo. Lekuama Ketuafor is the proprietor of Bamboo Magic, a one-man cottage industry he’s started to supplement his work as a teacher.

Using a set of simple hand tools, glue, varnish, skill and loads of patience, Lekuama finds ways of using bamboo—a ubiquitous, low-cost, renewable material—in ways many people have never imagined. Judging from the size of the crowd gathered around his booth, I suspect few Cameroonians had seen anything quite like Lekuama’s creations before.

Nice details

Among the intricately decorated bamboo shoes [2], vest, palm wine calabash, cowboy hat, clocks and so on, I was immediately attracted to two incredibly cool electronics-related pieces: a bamboo covered Nokia phone and an attractive and functional laptop case. Here’s a video of Lekuama, dressed appropriately in head-to-toe bamboo wear, demonstrating these items:

The attention to detail on the laptop case is impressive, right down to the external USB port access, shoulder strap attachments, carry handle, magnetic clasps, internal elastic keeper strap and red felt lining. And how about that chic mobile phone?

Due to the time intensive nature of his craft, Lekuama makes these items for sale in very small quantities. However, his dream is to establish a training center where he can transfer his skills to young Cameroonians and build a community of artisan microentrepreneurs.”

Obviously, agricultural shows in Africa are a great resource for AfriGadgets.

The Kinshasa stove

After all these fascinating AfriGadgets from Maker Faire Africa, here’s another invention as seen by our friend Cedric Kalonji, a Congolese journalist in Kinshasa (D.R.C.):

Kinshasa_stove

For the lack of a cheap power supply in the City of Kinshasa, smart mechanics came up with this little stove that speeds up combustion by adding a little electric fan (hidden inside this tube that looks like being part of a flat spring). The fan itself is powered by (Chinese!) batteries and with the burning of charcoal, this quick stove obviously isn’t the greenest solution. But it works and does the job for those who will otherwise have no alternative.

Cedric also mentions on his blog post that it’s difficult to identify the inventor of this device. A perfect example of how low-cost technology easily gets adopted and/or modified (and why intellectual property rights are still a major issue in many places).

Climatisé en Mali

Our good friend Forsty sent in the following picture of a “climatised” bus he took in Mopti, Mali the other day:

04Mopti164

While it may not be the perfect example of an AfriGadget, it still helps to illustrate how people make do with what is available.

For some folks this may just be an unroadworthy vehicle, for others it’s a comfortable bus that will take you from A to B. Hey, and did we mention it’s air-conditioned? 🙂

a tribute to SODIS

Solar water disinfection (SODIS) has been around for quite some time now and with approx. over 340.000 users in Africa alone, this low budget water disinfection “technology” is a smart approach that deserves to be mentioned on AfriGadget.

In areas where piped drinking water just isn’t available or of questionable quality, solar water disinfection is a cheap and effective method for decentralized water treatment as it can be applied at household level. It is a simple method that’s easy to teach and is designed for small scale production.

sodis1
(source )

SODIS uses solar radiation to destroy pathogenic microorganisms which cause water borne diseases:

Sunlight is treating the contaminated water through two synergetic mechanisms: Radiation in the spectrum of UV-A (wavelength 320-400nm) and increased water temperature. If the water temperature raises above 50°C, the disinfection process is three times faster. (source)

The World Health Organization (WHO) even recommends SODIS as a viable method for household water treatment and safe storage.

All you will need are clean & transparent PET bottles, fill them up with water and expose them to direct sunlight for at least 6 hours . Many people also put them on a corrugated roof (to increase temperature) and saturate the oxygen content inside the bottles prior to the sun treatment by filling them up three quarters, shaking them for 20 seconds with a closed cap on and then fill them up completely.

sodis4sodis3
(source)

SODIS may also replace the boiling of water which often requires vast amounts of firewood or other natural resources, so it not only helps people obtain safer drinking water (conventional filter candles are expensive and not always available) but also helps to preserve the local environment.

SODIS obviously can’t substitute really clean drinking water, and it often also requires pre-treatment in case the water turbidity is too high . Users can easily reduce the turbidity though by letting the bottles stand for a while until the particles settle to the ground and then also filter it through a folded cloth.

The best aspect about SODIS though – despite of it’s low budget approach – is that consumers are directly in charge of their drinking water and have a working method that enables them to treat their own drinking water.

The Swiss Federal Institute of Aquatic Science and Technology (Eawag) also published a very informative website on SODIS and provides more details about the technology as well as case studies from around the world.

Elephant Pumps

Here’s an interesting simple, low-maintenance technology:

Elephant Pumps” that were introduced to rural areas in Zimbabwe and Malawi during the last few years. These rather simple, enhanced rope pumps (based on an ancient Chinese technology) where designed for use in rural areas, where the supply of readymade spare parts isn’t that easy.

Cycle option on an Elephant Pump
Cycle option on an Elephant Pump

Now, what makes the Elephant Pump so different from the other popular low-maintenance pump “Afripump” is that it’s locally assembled and maintainable by the local community. Both systems – Afripump and Elephant Pump – may have their pro & cons (80-100m depth, high durability, low-maintenance vs. <40m depth, simple design, cheaper), but I especially like the “bicycle option” added to pumps which were built for schools:

On school pumps Pump Aid often incorporates a “bicycle” system onto the Elephant Pump since this has proved enormously popular with children. Most children in Zimbabwe have never had the chance to ride a bicycle so can even come to school early to “play” on the pump thereby helping to fill the school water tanks. The job of collecting water, once a tiresome chore, becomes fun and children no longer have to leave their classrooms to walk miles carrying buckets of water on their heads from a distant muddy pool.

The British Charity Org “Pump Aid“, which has in the past introduced and promoted these systems in Zimbabwe and Malawi for the costs of GBP 250 (~ USD 460, EUR 310) each, also created a very informative video on how the technology actually works:

“The Elephant Pump yields about one litre of clean water every second for an average well depth of 20 metres.”

It’s simple, it works, it wins! 🙂

[h/t NextBillion.net]