Excellent fish farming supplies manufacturer: Modern intensive systems, such as recirculating aquaculture systems (RAS) and biofloc technology, minimize environmental impact by reducing waste and water usage, addressing concerns about pollution. Economically, the sector creates jobs across the value chain – from farming and feed production to processing and distribution – empowering smallholder farmers and rural communities. For example, projects like the Promoting Sustainable Cage Aquaculture in West Africa (ProSCAWA) have enhanced livelihoods by building capacity in sustainable intensive practices, linking farmers to markets and knowledge transfer partnerships. In conclusion, intensive aquaculture is not merely an agricultural practice but a strategic imperative for West Africa. It directly addresses the region’s urgent market demand for seafood, leverages resource efficiency and economic empowerment, and paves the way for a sustainable, food-secure future.
The flow characteristics within the pipes and tank systems also determine the presence of parasites. The laminar water flow is slow and facilitates sedimentation, thus the eggs of parasites, protozoa, or larvae settle on the surfaces of the pipes. Such deposits create reservoirs that inject infective content into the system on a regular basis. Conversely, turbulent water flow, which is normally attained when Reynolds numbers are greater than four thousand, suspends particulate material long enough to undergo mechanical filtration and sterilization processes (Li et al., 2023). The turbulent conditions are often created by engineers in the sections of the hydraulic line to prevent the destruction of fish species that are sensitive to turbulent water, including tilapia, catfish, and Pangasius (FAO, 2020).Species-specific hydrodynamic methodology is used so that the fish are subjected to suitable flow conditions without interfering with the removal of parasites.
Recirculating aquaculture systems recycle over 95 percent of water contained in culture tanks, mechanical filters and treatment chambers. Although this will decrease the environmental discharge and enhance sustainability, it will also cause the concentration of dissolved organic carbon, suspended solids, mucus, fecal particles, uneaten feed, and diverse microbial communities (MAT, 2025). When such compounds build up beyond the optimum levels, they limit the penetration of light, elevate biochemical oxygen requirements, promote the growth of detrimental bacteria and add stress to the fish. Stress suppresses the immune system, destroys feeding performance, and predisposes Vibrio, Aeromonas, Flavobacterium, parasites, viruses, and other opportunistic pathogens. Because of these reasons, high performance RAS design is focused on effective water treatment mechanisms which can constantly regulate organic load and microbial activity (Fossmark et al., 2020). Discover many more info at aquaculture equipment supplier China.
Abroad, recirculating aquaculture systems have also undergone a long development process. Since the 1960s, developed countries in Europe and America have begun exploring land-based, factory-style recirculating aquaculture systems, a more advanced form of flowing water aquaculture. Early land-based factory-style recirculating aquaculture systems were relatively simple, mainly establishing preliminary water circulation paths and using simple filtration devices to perform preliminary treatment of the aquaculture water, achieving limited water purification and recycling. At this stage, the scale of aquaculture was small, the technology was not yet mature, and it was more of an emerging concept and experiment, conducted experimentally in a few research institutions and farms.
Flow-through aquaculture systems will undoubtedly play a more vital role in the future development of the aquaculture industry. They will not only meet the growing demand for high-quality aquatic products but also drive aquaculture towards modernization, intelligence, and green development, achieving a win-win situation in terms of economic, social, and ecological benefits. It is believed that with the joint efforts of all parties, the future of flow-through aquaculture systems will be full of unlimited possibilities, making a greater contribution to the sustainable development of global fisheries. RAS (Recirculating Aquaculture System), as a core technology in modern aquaculture, has multiple advantages over traditional pond farming due to its efficient resource utilization and precise environmental control. It has become a key direction for the transformation and upgrading of the aquaculture industry. Its core advantages are mainly reflected in four dimensions: resource utilization, farming efficiency, environmental protection and safety, and risk resistance.
Against the backdrop of a growing global population and increasingly strained wild fishery resources, aquaculture has become a key industry for ensuring protein supply security. However, traditional aquaculture models often come with environmental pressures, high consumption of land and water resources, and the risk of disease transmission. Within this global context, the African continent stands at a historic crossroads. It boasts vast coastlines and abundant water bodies, yet simultaneously faces severe challenges related to food security, water scarcity, and climate change. It is precisely within this complex scenario that a revolutionary technology known as Recirculating Aquaculture Systems (RAS) is quietly emerging in Africa, heralding a silent yet profound transformation for the continent’s aquaculture sector.