More about our beekeeping initiative...

In Sub-Saharan Africa, most farmers living in the rural areas take agriculture as their livelihood. In Malawi, a variety of agricultural activities happen in these areas and yet very few farmers know about integrating the various activities. Most farmers have little information regarding the practice of combining agriculture farming systems. Things have been like this for a long time just because most agriculture extension officers put much emphasis on encouraging farmers to grow crops that would immediately benefit them. As such, most farmers concentrate on these crops and realize little benefits at the end of that particular growing season.

Africa Windmill Project in Malawi put on board a new tune for farmers interested in partaking in sustainable irrigation farming. Since 2012, AWP has been figuring out how best farmers could fully benefit from irrigation farming which in most areas takes place in April-October, the period during which most farmers fall into temptations of selling the available few food crops. As you can see, this is a short period where an individual farmer is expected to make use of the available agriculture resources to make food and money available at the household level. The challenge is further experienced, when it comes to sourcing seeds for irrigation farming. Farmers are tempted to sell food crops (which are supposed to take them up to the next rain fed farming) to purchase seeds. This has been an observed problem in most areas and including our implementation areas.

To take care of the problem, the we have introduced beekeeping in Mziza and Mwankhundi villages. The organization offered 5 bee hives to 25 farmers as one way of diversifying income generating sources for farmers participating in irrigation farming. These bee hives were made by Africa Windmill Project and hanged in August this year. It was noticed this month that the bee hives have bees and farmers just waiting to harvest first honey probably by January. AWP would like to see farmers using honey as an alternative for sugar which is currently expensive to local farmers; sell some and use the money for purchasing seeds at the primary phase of the irrigation farming. In the long run , AWP will facilitate village savings among her beneficiaries and make sure that they are able to buy more beehives for themselves. In this case, farmers will have sufficient money for purchasing seeds during irrigation farming and also be able to meet some household needs-hence continue to experience sustainable livelihood.

Windmill now in play at the demo garden

Technologies are there to help people work efficiently and effectively in any sector of development. In irrigation development, so many technologies have been developed to assist in irrigation farming. However, the drawback has been that these technologies have kept on demanding man power when it comes to operating the technology and frequent attention. Farmers in rural communities do face the hustles and hurdles of operating these kinds of irrigation technologies. The time and energy spent on operating these technologies could be of use in quality establishment of an irrigation system. Africa Windmill Project is in Malawi to take care of problems faced by farmers interested to embark on irrigation farming. The organization is developing irrigation technologies that could be of profound help to medium to small scale irrigation farmers. One of the irrigation technologies that can perform wonders for irrigation farmers is the wind water pump.

check out the video: Amazing Windmill

The picture you see above is a wind powered water pump developed by Africa Windmill Project in Malawi and placed at the our irrigation demonstration plot. The water pump is made out of bamboos (60%), blue gum pole, few steel (at pivotal point, nails and wire,), reused materials (5l and 25 liter containers and glass bottles) and plastic pipes and polyethylene sacks. The pump auto-operates under the influence of winds. As the winds blow, all four panels swirl towards one direction, forcing the rope with washers to rotate also. As the rope is rotating, washers tied to the rope at intervals pump water inside the pump carrying it through to the outlet pipe. In the AWP irrigation demonstration plot, the outlet pipe exit water into the irrigation reservoir tank. The pump is highly effective. It pumps water, every time the wind blows at the four panels. The more the wind blows, the faster the water resource is drained. In other words, the flow rate of the pump is equaled to recharge rate of the well. The wind powered water pump is designed to pump water into the reservoir. This is the technology that if properly improved on will help in irrigation development and assist in reducing the effect of food insecurity and financial insufficiency in rural households.