This disclosure describes methods to separate solids from liquids in a production facility. A process separates components in the process stream by applying non-condensable media to create density differences and then using a mechanical device to separate the solids from the liquids based on the density difference. The process produces the liquids and solids, which may be further processed to create valuable animal feed products.

This disclosure describes methods to separate solids from liquids in a production facility. A process separates components in the process stream by applying non-condensable media to create density differences and then using a mechanical device to separate the solids from the liquids based on the density difference. The process produces the liquids and solids, which may be further processed to create valuable animal feed products.

The present invention discloses a multiplier and modulator additive of the ruminal microbiota created from exogenous multienzyme compounds, integrating processes and devices for cultivating and harvesting biomass of selected fungal species, assembling active components of fungal origin and by mixing supplies according to specifications, forming thus a multiplier and modulator additive of the ruminal microbiota suitable for its application (as part of food or via distribution devices as a nutritional supplement) in the ruminant animal feed industry.

The present disclosure provides compositions and methods for using recombinant C1 metabolizing microorganisms capable of metabolizing sulfur containing compounds and other contaminants to biologically convert sour or acidic natural gas into high-value molecules, and to allow recovery of stranded oil.

The present disclosure provides compositions and methods for using recombinant C1 metabolizing microorganisms capable of metabolizing sulfur containing compounds and other contaminants to biologically convert sour or acidic natural gas into high-value molecules, and to allow recovery of stranded oil.

This invention is about how to create a principle water natural-filters, such as Daphnia with reinforced resistance to pathogen and toxic microorganisms, by using Haematococcus pluvialis, as its dietary. Astaxanthin is a key carotenoid of Haematococcus pluvialis sustaining the tolerance of Daphnia to gain immunity to toxic algae and pathogen bacteria. Due to obtained resistance, Daphnia can survive even in waters with high content of pathogen bacteria and algal toxins and filter higher volume of water. This cannot be achieved with any other technologies by now without need in chemicals (bactericides and algaecides). In this conditions Daphnia, especially new-born offsprings, get intoxicated and die, which disrupts natural self-cleaning capacity of aquatic ecosystem. As an indirect effect pre-treated and resistant Daphnia reduce odor effect of the aquatic ecosystems due to elimination of the odor compounds producing bacteria and algae.

This invention is about how to create a principle water natural-filters, such as Daphnia with reinforced resistance to pathogen and toxic microorganisms, by using Haematococcus pluvialis, as its dietary. Astaxanthin is a key carotenoid of Haematococcus pluvialis sustaining the tolerance of Daphnia to gain immunity to toxic algae and pathogen bacteria. Due to obtained resistance, Daphnia can survive even in waters with high content of pathogen bacteria and algal toxins and filter higher volume of water. This cannot be achieved with any other technologies by now without need in chemicals (bactericides and algaecides). In this conditions Daphnia, especially new-born offsprings, get intoxicated and die, which disrupts natural self-cleaning capacity of aquatic ecosystem. As an indirect effect pre-treated and resistant Daphnia reduce odor effect of the aquatic ecosystems due to elimination of the odor compounds producing bacteria and algae.

Artificially Intelligent systems are able to draw inferences and conclusions by analyzing information in natural language and then using such information to prove or disprove hypotheses. The quality of such inferences is directly dependent on the accuracy of the input data corpus. Given the proliferation of the Internet as well as the dubious data sources on social media, it is important to determine the truthfulness of the input information. Combining concepts of library classification, crowd-sourced curation and Google Scholar search, we propose the concept of the Veracity Index and an algorithm to calculate it. This index can be used in Artificial Systems to determine the confidence measurement of the inferences.

The subject invention provides microbe-based products, as well as their use, for enhancing aquaculture. In particular, the subject invention provides materials and methods for producing healthy and high quality farmed fish by applying yeast and/or bio surfactant-based compositions to a fish farm. In one embodiment, the subject invention improves the environment in which the fish are farmed. In another embodiment, the subject invention provides a highly nutritious fish feed, as well as methods of feeding fish at low cost.

The subject invention provides microbe-based products, as well as their use, for enhancing aquaculture. In particular, the subject invention provides materials and methods for producing healthy and high quality farmed fish by applying yeast and/or bio surfactant-based compositions to a fish farm. In one embodiment, the subject invention improves the environment in which the fish are farmed. In another embodiment, the subject invention provides a highly nutritious fish feed, as well as methods of feeding fish at low cost.