Compositions and methods for removing phosphates, nitrates and heavy metals from aqueous solutions.

Disclosed is an apparatus (1) and method for treating contaminated waste water (2). The apparatus comprises a heater (30), a feed apparatus (11, 12, 13, 14), for supplying contaminated waste water (2) to the heater (30) and a centrifuge (50, 60) downstream of the heater (30). A heat exchanger (20) is also provided which has a first channel (22) and a second channel (24). The first channel (22) is connected in a flow path extending between the feed apparatus (11, 12, 13, 14) and the centrifuge (50, 60); and a waste water outlet (9) from the main centrifuge (60) is fluidly coupled to an inlet of the second channel (24) of the heat exchanger (20).

The present invention relates to a continuous on-board drying method for Antarctic krill and a continuous on-board processing method of shelled Antarctic krill. The drying method includes the following steps: 1) subjecting fishing materials to cleaning, sorting, and dewatering with a vibrating screen; 2) rapidly heating the krill to the temperature of up to 70? C. using infra-red rays; 3) hot-air drying; 4) impurity removal by vacuum; 5) cooling to obtain dried krill. The processing method includes the following steps: a) subjecting fishing materials to cleaning, sorting, and dewatering with a vibrating screen; b) rapidly heating the krill to the temperature of up to 70? C. using infra-red rays; c) hot-air drying; d) subjecting the dried krill to shelling treatment to separate shell from meat, to obtain shelled krill; e) impurity removal by vacuum to obtain shelled krill product. The methods in the present invention are highly efficient, energy saving, green and environmental protection, and the krill products have high quality and safety.

The present invention relates to method(s), apparatus and use(s) of apparatus for treating materials such as waste products and by-products of industrial processes e.g. slurries comprising solids and liquids, or, more particularly, slurries comprising solids, oil(s), and water. The invention further relates to method(s), apparatus and use(s) for treating slurry, the apparatus comprising a treatment chamber having a first end configured to receive slurry to be treated and a second end configured to allow egress of solids; at least one heated material conveyor configured to draw material comprising slurry and/or solids through the chamber in a direction from the first end towards the second end; the at least one heated material conveyor being further configured to heat and mix material comprising slurry and/or solids as these are drawn along; a condenser configured to receive vapours from the chamber and condense the vapours into liquid form.

The present invention relates to a process for increasing the solids content of aqueous sludges and/or sediments, to the use of a surface-treated mineral material for increasing the solids content of sludges and/or sediments, and to a composite material comprising a surface-treated mineral material and impurities obtainable by said process.

An apparatus for synergistically combining a plasma with a comminution means such as a fluid kinetic energy mill (jet mill), preferably in a single reactor and/or in a single process step is provided by the present invention. Within the apparatus of the invention potential energy is converted into kinetic energy and subsequently into angular momentum by means of wave energy, for comminuting, reacting and separation of feed materials. Methods of use of the apparatus in the practice of various processes are also provided by the present invention.

A treatment process for municipal, commercial, industrial, and institutional fluids containing one or more substances at a first concentration includes a contactor, an aerator, and a separator. The fluid is mixed with a powdered natural lignocellulosic material (PNLM), a microbial growth inoculum, and at least a portion of the fluid in the contactor to provide a mixture that includes an established, acclimated microbial growth in the fluid. The mixture is introduced to an aerator where physical binding and chemical bonding of at least some of the one or more substances to the PNLM additionally physiological uptake by microbial growth in a biosludge reduces the concentration of at least some of the one or more substances in the fluid discharged from the aerator to a second concentration. The biosludge is separated to recover at least a portion of the PNLM that is recycled to the contactor.

According to one embodiment, a method for removing antimicrobial material from a composition includes providing a container that contains a plurality of carbon elements such as granules, rocks and sheets. The carbon elements are submerged with a liquid and a composition that includes an antimicrobial material is deposited in the container. The carbon elements are configured to remove the antimicrobial material from the composition. The level of the liquid in the container is monitored and controlled to maintain a submerged condition of the carbon elements.

A method of organic waste treatment includes treating an organic waste stream that contains solid waste particles suspended in a liquid to cause the solid waste particles to settle in a settling tank, separating contents of the tank into a separated liquid phase and a separated solid phase, and treating the separated solid phase with an oxidant to create a sterile odorless ash.

A system for storing biological feedstock includes receiving tanks, storage tanks, and at least one slop tank. The biological feedstock is supplied to the receiving tanks from sources external to the system. Fat separated from the biological feedstock is transferred from the receiving tanks to the storage tanks, and sludge deposited on a bottom portion of each receiving tank and on a bottom portion of each storage tank is transferred to the slop tank. Fat separated from the sludge is transferred from the slop tank to the receiving tanks. Biological material is blended from biological feedstocks. The tanks act in different roles to improve the removal of sludge, and increases the yield of desired biological material.