7 results

Solar bubble drier: Inflatable solar dryer for crop drying

Low-cost hygienic drying technology for high-quality products The Solar Bubble Dryer (ISD) is a mobile, solar-powered drying system designed to efficiently dry freshly harvested cassava roots, reducing post-harvest losses and improving product quality. It utilizes solar energy for both thermal collection to speed up drying and electricity to power a blower for air circulation, making it independent from the power grid. The system is mobile, allowing farmers to dry produce near the harvest site, minimizing transportation costs and spoilage risks. With a drying capacity of 90-145 kg per cycle, the technology boosts food security, supports women’s empowerment, reduces carbon footprints, and promotes sustainable practices. It has a 10-year lifespan, an initial cost of $1,800, and offers a return on investment ranging from 7% to 180%. The technology contributes to multiple SDGs, including those related to hunger, gender equality, clean energy, economic growth, and climate action.


Pre-validated 9•9 5 Cost: $$$ ROI: $$$

GrainMate: Grain Moisture Meter

Control the moisture content of grains and reduce post-harvest losses. The lack of precise moisture content measurement increases the risk of mold growth, insect infestation, and aflatoxin contamination during storage, resulting in significant losses for farmers and aggregators, up to 30% of the produced grains. In sub-Saharan Africa, farmers face challenges due to the unavailability and high cost of moisture meters. Consequently, they rely on traditional, subjective methods like biting and tossing kernels, which can lead to inaccurate measurements. Poultry farmers using high-moisture grains experience reduced egg productivity and increased bird mortality. The introduction of affordable and accessible grain moisture meter technology is crucial to address these issues and improve overall grain quality management.


Pre-validated 8•7 3 Cost: $$$ ROI: $$$

Mechanized Threshing Operations

Efficient Threshing for Productive Farms Mechanized Threshing Operations is a technology that efficiently separates seeds or grain from harvested plants. It addresses the labor-intensive process of manual threshing, particularly performed by women. Mechanized threshers use small petrol engines to process seeds and grain rapidly, offering a significant improvement in efficiency.


Validated (TAAT1) 8•8 4

Value-added Processing of Bananas and Plantain

Banana and Plantain Processing for a Healthier Diet Value-added processing of bananas and plantains creates valuable products by using both ripe and unripe fruit. This technology produces items like flour, purees, and chips, all with higher market value than raw fruit. Unripe banana or plantain flour finds uses in baking, gluten-free products, and even infant food. Ripe bananas are transformed into purees suitable for beverages, ice cream, and yogurt. Similar to potato chips, banana chips can be produced fried or dried, offering consumers a tasty and convenient snack. This approach not only reduces fruit waste by utilizing both ripe and unripe stages but also creates new markets and higher potential income for farmers. An additional benefit is the improved nutritional profile, with banana flours boasting a richness in fiber, potassium, and resistant starch. The technology is adaptable to both small-scale and industrial production facilities, making it a valuable tool for a variety of stakeholders in the banana and plantain value chain.


Validated (TAAT1) 7•7 5

Rice Threshing and Polishing Machines: Axial flow thresher and improved quality polishing

Efficient rice threshing and polishing for premium quality grains, boosting income and market access in african communities. This technology greatly improves rice processing in Sub-Saharan Africa. It uses advanced machines like motorized threshers and polishers to replace manual methods. These machines can be easily moved near the fields, reducing transportation costs and increasing processing capacity. They work precisely, getting more rice without damage. This raises the quality and value of the rice, benefiting both small and large-scale farmers. Additionally, using these machines creates job opportunities. This represents a significant step towards modernizing rice processing and improving livelihoods for farmers in the region.


Validated (TAAT1) 8•8 2 Cost: $$$

Induced Ripening of Banana for Increased Marketability and Storage

Ripening Solutions for Quality and Efficiency The technology of "Induced Ripening of Banana for Increased Marketability and Storage" is of paramount importance in the banana industry. Typically, dessert bananas are harvested prematurely to prevent damage during transportation. This technology allows for the artificial ripening of bananas using various chemical agents, with ethylene gas being the most commonly employed. Commercial ripening chambers are utilized to precisely control temperature, humidity, and ethylene gas concentration, ensuring that bananas reach optimal ripeness. Catalytic generators are used to produce ethylene, and a concentration of 100 ppm for 12 hours can have an immediate ripening effect. Ethephon, another widely used compound, releases ethylene, which aids in the ripening process. This technology not only enhances the marketability of bananas by delivering consistently ripe and attractive fruit but also extends their shelf life. It allows for better inventory management, reduces post-harvest losses, and ultimately benefits the banana industry by meeting consumer demand for high-quality, ready-to-eat bananas. In summary, the induced ripening of bananas is crucial for ensuring marketability and optimizing storage, ultimately driving the success of the banana supply chain.


Validated (TAAT1) 8•8 4 Cost: $$$

PICS: Hermetic Bags for Safe Storage of grain

Low cost storage technologies for grain Large post-harvest losses of bean occurs across Sub-Sahara Africa because of improper storage techniques resulting in pest infestation that threatens the food security and livelihoods of farmers. As a result, farmers may opt to sell their produce immediately after harvest when market prices are at their lowest as a risk avoidance strategy. Grain storage pests such as weevils (bruchids) can be controlled by physical, chemical and biological methods. Some of the physical methods include use of hermitic storage bags and containers. The hermetic storage technology for grains avoids grain damage using sealed bags that prevents movement of air and moisture. The bags preserve the quality of grains and obstruct the entry of insects and microbial organisms through depletion of oxygen levels and accumulation of carbon dioxide. These conditions prevent damage by insects like weevils, moths and mites, curb development of fungi like aflatoxin that contaminate the grain, and maintain the taste and color characteristics of food. Hermitic bags allow for storage of grain without the need to apply chemicals.


Validated (TAAT1) 9•9 5 Cost: $$$ ROI: $$$