Stable performance Long service life economic energy saving Onsite intelligent one-stop all-in-one turnkey reliable movable portable removable relocatable stainless steel anti-corrosion PSA Oxygen O2 generator aquaculture fish farming ponds pools whole package

- Apr 22, 2019-

Stable performance Long service life economic energy saving Onsite intelligent one-stop all-in-one turnkey reliable movable portable removable relocatable stainless steel anti-corrosion PSA Oxygen O2 generator aquaculture fish farming ponds pools whole package

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Fish farming or pisciculture involves raising fish commercially in tanks or enclosures such as fish ponds, usually for food. It is the principal form of aquaculture, while other methods may fall under mariculture. A facility that releases juvenile fish into the wild for recreational fishing or to supplement a species' natural numbers is generally referred to as a fish hatchery. Worldwide, the most important fish species produced in fish farming are carptilapiasalmon, and catfish.


Demand is increasing for fish and fish protein, which has resulted in widespread overfishing in wild fisheries. China provides 62% of the world's farmed fish. As of 2016, more than 50% of seafood was produced by aquaculture.


Farming carnivorous fish, such as salmon, does not always reduce pressure on wild fisheries. Carnivorous farmed fish are usually fed fishmeal and fish oil extracted from wild forage fish. The 2008 global returns for fish farming recorded by the FAO totaled 33.8 million tonnes worth about $US 60 billion.


Growth is limited by available food, commonly zooplankton feeding on pelagic algae or benthic animals, such as crustaceans and mollusksTilapia filter feed directly on phytoplankton, which makes higher production possible. Photosynthetic production can be increased by fertilizing pond water with artificial fertilizer mixtures, such as potashphosphorusnitrogen, and microelements.


Another issue is the risk of algal blooms. When temperatures, nutrient supply, and available sunlight are optimal for algal growth, algae multiply at an exponential rate, eventually exhausting nutrients and causing a subsequent die-off in fish. The decaying algal biomass depletes the oxygen in the pond water because it blocks out the sun and pollutes it with organic and inorganic solutes (such as ammonium ions), which can (and frequently do) lead to massive loss of fish.


In these kinds of systems fish production per unit of surface can be increased at will, as long as sufficient oxygen, fresh water and food are provided. Because of the requirement of sufficient fresh water, a massive water purification system must be integrated in the fish farm. One way to achieve this is to combine hydroponic horticulture and water treatment, see below. The exception to this rule are cages which are placed in a river or sea, which supplements the fish crop with sufficient oxygenated water. Some environmentalists object to this practice.


If you’re in the aquaculture industry, you’re very familiar with the benefits of O2 — for fish growth, health, and maximizing population density. Lower cost than traditional liquid oxygen, skid mounted and easy to move, small mainten. 


The oxygen generator aquires oxygen by separating oxygen directly from the atmosphere and deliver it to  application with an oxygen generator. Only electricity is consumed, without material consumption.

 

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