Microalgae Strains Articles
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Varicon Aqua Installation at Geb Impact in Hong Kong - Case Study
Varicon Aqua’s latest project is up and running in Hong Kong, with the installation led in person by our Managing Director, Joe McDonald. The client, Geb Impact Technology Company Limited, will be using two of our reactor systems, the Phyco-Lift and the Phyco-Pyxis, the latest in our range of innovative products. Geb Impact and Varicon Aqua have enjoyed a long professional relationship, ...
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Phyco-Flow Installation in Mexico - Case Study
We are pleased to announce the latest installation of a 2750 L Phyco-Flow system for Grupo Fagro at their new Micro Algae Technology Development Unit, Biorganix in Ramos Arizpe, Mexico in conjunction with Novel Agricultural Bioactives from Microalgae (NAMBA) initiative. Our Phyco-Flow tubular photo-bioreactor will be used to cultivate microalgae species for the production of synthetic ...
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Microalgae Cultivation
We are currently cultivation microalgae species such as Haematococcus Pluvialis and Auxenochlorella protothecoides. Please read more about these microalgaes in our product page for the BioAlgae-unit. Our goal is to produce microalgaes for new valuable food products, such as fish- and animal feed ingredients or as “SuperFoods”. The microalgaes can also utilize the nutrients from ...
By Redono Oy
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Microalgae and Hydroponic cultivation experiments
Redono is performing hydroponic plant cultivation and microalgae cultivation researches together with the Clean Technologies Department in Metropolia, University of Applied Science, Vantaa. Exciting to see how we can make organic hydroponic fertilizers from brewery and aquaculture sidestreams. The goal is to use these sidestreams as organic fertilizers that will be used in hydroponic ...
By Redono Oy
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Joint immobilization of plant growth-promoting bacteria and green microalgae in alginate beads as an experimental model for studying plant-bacterium interactions
A simple, quantitative experimental model, offering a convenient and basic approach to studies of plant-bacterium interactions, is proposed. This involves immobilizing a unicellular, freshwater microalga, a Chlorella species, serving as the plant, with a plant growth-promoting bacterium, an Azospirillum species, in small alginate beads to allow close interaction and to avoid external ...
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