9 results

Cage Systems for Fish farming

Cage Culture: Dive Deep for a Sustainable Leap! Cage Systems for Fish Culturing is a method of aquaculture where fish are grown in floating cages in water bodies like lakes or rivers. The cages protect the fish, allow for controlled feeding, and make it easy to harvest the fish when they're ready. This technology is a cost-effective way to grow fish in a natural, safe, and controlled environment.


Validated (TAAT1) 8•8 2

MoneyMaker Solar pumps: Mechanized irrigation pumps

Low-cost and fast irrigation technologies for smallholder farmers. MoneyMaker offers a range of irrigation pumps tailored for small plots in sub-Saharan Africa. MoneyMaker's irrigation solutions prioritize sustainable water management, employing smart technology for efficient resource use. Designed to enhance crop yield and profitability, these solutions offer real-time insights into soil moisture and precise water application, contributing to environmental conservation and farm productivity.


Pre-validated 8•7 3

MoneyMaker: Low-cost irrigation pumps

Low-cost irrigation technologies for increasing incomes for smallholder farmers. MoneyMaker's irrigation solutions prioritize sustainable water management, employing smart technology for efficient resource use. Designed to enhance crop yield and profitability, these solutions offer real-time insights into soil moisture and precise water application, contributing to environmental conservation and farm productivity.


Pre-validated 9•7 3 Cost: $$$

Wheat Cultivation in Dryland through Winter Irrigation

Growing Resilient Wheat, Even in the Hottest Seasons. The technology of "Expanded Production of Irrigated Wheat" is crucial due to the impact of heat stress on traditional wheat cultivation in the hot rainy seasons of Sub-Saharan Africa. The innovative approach involves growing wheat during the cool season (winter production) to circumvent heat-related crop damage. However, this necessitates the implementation of irrigation systems due to limited precipitation. The technology enables stable, high wheat grain yields and quality, promoting a climate-resilient food value chain and allowing wheat cultivation in non-traditional dryland areas. Successful implementation not only advances self-sufficiency but also reduces the need for expensive wheat imports in various key regions of Africa.


Validated (TAAT1) 7•8 2 Cost: $$$

Precision Rice Irrigation and Surface Leveling

Level Up Rice Yields with Precision Irrigation and Resource Conservation Precision Rice Irrigation and Surface Leveling technologies play a pivotal role in optimizing rice farming. They ensure efficient water distribution, leading to resource conservation, improved crop production, and enhanced input efficiency. By leveling soil surfaces and utilizing innovative water lifting systems, these technologies revolutionize traditional farming practices.


Validated (TAAT1) 8•8 3 Cost: $$$

Pond Liners to Save Water and Ease Maintenance

Preserving Water, Pond Liners for Sustainable Fish Farming. Pond Liners, an innovative water conservation technology, employ sheets of UV-resistant materials to form an impermeable layer between water and soil. This reduces water losses, prevents algal blooms, and facilitates nutrient cycling. Affordable and easy to install, these liners are crucial for fish farming in areas with sandy soils or limited access to freshwater.


Validated (TAAT1) 8•9 2 Cost: $$$ ROI: $$$

Aquaculture and vegetables Integration System: Integrated Aquaculture and Agriculture Systems

Aquaculture and Crops system for better yield This technology brings fish farming and crop growing together in a smart way. It helps make more food for households by using pond water for plants and plant leftovers for fish. This means less money spent on fish food and more crops from the fields. It's a big help for small and big farms, making them better at growing food and making money. This technology is a game-changer for farming and making sure there's enough food for everyone.


Validated (TAAT1) 9•9 5

In-Pond Raceway Systems for Fish Farming

Revolutionize your fish farming with IPRS for maximum yields and sustainability. The In-Pond Raceway System (IPRS) is a pivotal advancement in aquaculture technology, revolutionizing fish farming practices. By ensuring continuous water flow and efficient waste management, IPRS allows for significantly higher fish stocking densities. This translates to a substantial boost in fish production compared to traditional methods. The technology's emphasis on water quality optimization, aeration, and waste removal addresses critical factors for fish growth. Its benefits extend beyond productivity, encompassing cost-effectiveness, improved feed conversion, and environmental sustainability. IPRS represents a crucial innovation in meeting the growing demand for sustainable fish farming practices, making it a cornerstone in modern aquaculture.


Validated (TAAT1) 7•7 3 Cost: $$$ ROI: $$$

Flow-Through and Recirculatory Water Systems for Fish Tanks

Enhance fish farming efficiency with sustainable water systems, reducing resource wastage and ensuring robust fish growth. A recirculatory aquaculture system is a technology where water is recycled after filtration to remove suspended matter. This method is used for higher density culture of fish, allowing for maximum use of limited land and water. Water movement into and out of the tank maintains peak water quality conditions despite dense stocking rates. As water passes into the tank it provides oxygen and when it leaves it carries away waste products. Intensive aquaculture in tanks that operate at high stocking densities is furnished with a flow-through system that discharges water, cleans water, and pumps it back through the system. Tanks with a conventional flow-through systems are simpler in design but require an affordable and reliable source of quality water that can be used with minimal pre-treatment. Recirculatory systems are more complex and costly to install but have higher water use efficiency, higher feed conversion, and more exact disease control.


Validated (TAAT1) 7•8 4 Cost: $$$