6 results
Enhance meat quality while prioritizing animal welfare. Humane Slaughtering and Meat Inspection ensures animals are slaughtered without pain or distress, improving meat quality and consumer health. It addresses the ethical treatment of animals in the meat processing industry.
Preserving Quality, Expanding Opportunity: Value Addition for Poultry The “Processing chicken meat for cold storage” technology is a transformative approach to poultry processing in Africa. It addresses the current practice of selling live poultry at markets, which often leads to lower returns for farmers and public health concerns. The technology enables the secondary processing of raw chicken into value-added products and facilitates cold storage, expanding the consumer base and increasing revenue for producers. It caters to the growing demand for ready-to-cook or precooked chicken meat, driven by urbanization, income growth, and heightened awareness of diet and food quality. The technology, accessible to small and medium enterprises, involves mechanized equipment for high-volume processing and refrigeration facilities for long-term storage and transport.
From Catch to Cuisine: Enhancing Fish Quality and Sustainability Fish processing is a vital component of the agricultural sector, ensuring the preservation and value addition of fish products. It plays a crucial role in extending the shelf life, improving taste, and enhancing the nutritional value of fish. Common methods like solar tent dryers and smoking kilns offer cost-effective ways to preserve fish, reducing the need for refrigeration, and enabling the creation of various value-added fish products, ranging from fillets to fish powder, which contribute to food quality and market appeal.
Bean Flour Made Easy The technology of producing bean flour and flour products is of paramount significance, particularly in Sub-Saharan Africa. It addresses the challenges posed by the time and energy required for traditional bean preparation, making it more appealing to urban consumers. This innovation not only facilitates the creation of a wide range of processed and ready-to-eat products but also serves as a crucial first step in their production. By using bean flour, homemakers can save substantial time and reduce fuel costs when compared to the traditional method of lengthy boiling. Additionally, it enhances the bioavailability of essential vitamins and micronutrients in food products derived from beans.
Advanced approach for quick, convenient, and delicious bean "Pre-Cooked Beans for Consumer Convenience" is a food processing technology designed to address the long cooking time, high energy, and water requirements associated with whole dried common beans, which are a major staple food in eastern and southern Africa. This technology involves pre-cooking the beans and then preserving them through methods like canning or freezing. This significantly reduces preparation time and fuel use, making it more appealing to urban and middle-class consumers. It also opens up new commercial opportunities, benefiting both consumers and farmers. The technology is particularly advantageous for women homemakers and canteen caterers, as it frees up time for other activities. The process involves sorting, washing, blanching, soaking, sterilization, and drying of the beans before packaging. The technology can be applied in various agroecologies and is available in several countries in Africa.
Effortless sweet potato puree, every time! Puree production and products for orange fresh sweet potato (OFSP) technology involves processing sweet potato tubers into a versatile puree that offers numerous benefits. By converting fresh tubers into puree, the shelf life is extended, enabling year-round availability. This process can be carried out using common small-scale food processing equipment and vacuum-packed storage technology with preservatives, ensuring the puree remains stable for up to four months. The resulting puree can be used as a nutritious ingredient in a variety of baked and fried products, as well as concentrated foods like baby food and smoothies. Additionally, OFSP puree is rich in pro-vitamin A, enhancing the nutritional value of the end-products. The process itself is relatively simple, involving steps such as cleaning, steaming, peeling, and mashing the sweet potato flesh. Overall, OFSP puree technology presents an accessible and beneficial solution for adding nutritional value and commercial viability to food products.