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Low-cost hygienic drying technology for high-quality products The Solar Bubble Dryer (SBD) 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.
With QualiSani, no more toxic compounds such as Polycyclic Aromatic Hydrocarbons (PAHs) in your smoked fish and grilled meat, and reduction of cancer risk for consumers. Traditional methods of grilling and smoking food, particularly in African countries, have long been associated with health risks due to the formation of harmful compounds such as Polycyclic Aromatic Hydrocarbons (PAHs). These carcinogenic substances are produced when food is exposed to smoke and high temperatures, and their presence in grilled and smoked products has raised significant public health concerns. Studies conducted in Benin country have revealed alarming levels of PAHs in smoked and grilled meats and fish, often exceeding international safety standards. This contamination is linked to the direct exposure of food to smoke, the type of fuel used (often wood), and the inefficient design of traditional processing equipment. The accumulation of PAHs not only poses a cancer risk to consumers but also hampers the marketability of these products in regions with stricter food safety regulations. Addressing this challenge requires innovations in food processing technologies that can reduce or eliminate the formation of PAHs while maintaining or improving the efficiency and productivity of the smoking and grilling process. The development of improved equipment, such as QualiSani, represents a significant step towards safer food processing practices. These advancements aim to protect consumers' health, enhance the quality of grilled and smoked products, and support the sustainable development of small to medium-sized food processing enterprises.
Transforming Cassava, Mobile Processing for Sustainable Agriculture The Mobile Cassava Processing Plant (MCPP) addresses challenges in cassava commercialization by providing an alternative to immobile processing factories. The MCPP, developed by the TAAT Cassava Compact, is a six-wheel truck with modern processing machinery, an electricity generator, and a loader crane. It facilitates on-site processing of cassava into shelf-stable products, reducing postharvest losses and transportation costs.
From Waste to Resource Peels from bananas and plantains, often overlooked, hold significant value in various applications. They serve as animal feed, organic soil input, and even find uses in cooking, water purification, and beauty products. However, the challenge lies in their chemical composition and nutrient ratios, necessitating proper handling for animal feed and soil treatment. Despite their potential, a lack of awareness about the diverse utility of peels has led to unnecessary waste accumulation in urban areas. Understanding and harnessing the multifaceted benefits of peels is essential for both sustainable agriculture and waste reduction.
Reduce milling losses, enhance nutritional and organoleptic quality Parboiling is a process whereby rough rice is steeped in cold or warm water, heated with steam under pressure or in boiling water to gelatinize starch with minimum grain swelling, followed by slow drying. The nutritional, flavor and textural characteristics of parboiled rice are better than non-parboiled counterparts and can match the quality of imported rice making it more appealing to consumers. Traditionally, parboiling is carried out in a cast iron drum with a false bottom for soaking and steaming that is placed on a three-stone fire, which is severely expose processors to air pollution from emissions of carbon monoxide and fine particulate matter (PM 2.5). These easy-to-build systems are highly suitable for small to medium scale processors in rice growing areas of Sub-Saharan Africa that have poor energy and market infrastructures.