In one example in accordance with the present disclosure, a fluid ejection die is described. The fluid ejection die includes a fluid feed slot to deliver fluid from a reservoir to an array of nozzles. Each nozzle of the array includes an ejection chamber, an opening, a fluid actuator disposed within the ejection chamber, and a fluid channel between the fluid feed slot and the ejection chamber. The fluid ejection die also includes a fluid cleaning structure to allow live cells in the fluid to pass to the nozzle while capturing other components.

The present invention relates to a process for in-situ cleaning of a gas-liquid separator of an anaerobic bioreactor, comprising directing a gas flow in the bioreactor in order to create a scouring effect from turbulent fluid flows resulting in the cleaning of at least a part of the gas-liquid separator. The invention further relates to a process for treating a fluid aqueous waste stream, wherein use is made of the in-situ cleaning process. The invention further relates to a bioreactor suitable for carrying out a process according to the invention.

Photobioreactor devices and units for the production of biomass and remediation of environmental contamination are provided. The bioreactor devices comprise (i) a photobioreactor unit comprising a first membrane layer and a second membrane layer, the two membrane layers arranged such that at least a portion of the first membrane layer is directly bonded to at least a portion of the second membrane layer in order to form a defined boundary around non-bonded portions of the first and second membrane layers, thereby defining the photobioreactor unit capable of containing a fluid, wherein at least one of the first and second layers is translucent, and wherein at least a part of the first and second membrane layers is permeable to gases. The permeability coefficient of oxygen through the first and/or second membrane layer is suitably not less than about 100 Barrer, typically not less than about 300 Barrer, and suitably not less than about 500 Barrer. The photobioreactor unit also comprises an inlet and an outlet port to enable the fluid to circulate through said unit. Systems comprising the devices are provided as well as methods of using the devices for the production of biomass, remediation of wastewater and removal of atmospheric pollutants.

A tank receives, mixes, and dispenses input materials including algae feed stock, a micro-nutrients, cleaning solution, a sterile gas, a heating/cooling fluid, carbon dioxide, and raw water with a water treatment system. A plurality of output stations include a vent to atmosphere, a heating/cooling media return, a cleaning disposal, and an algae concentrate/product. The vent to atmosphere is coupled to the tank. The heating/cooling media return is coupled to the heating/cooling media supply through the tank. The cleaning solution disposal station is coupled to the tank with a pump followed by a nano bubbler and an algae growing system. An algae concentrate/product station is coupled to the tank. An algae dewatering system is intermediate the tank and the algae concentrate/product. A water return line couples the algae dewatering system and the water treatment system.

An apparatus for minimizing dead leg spaces in a container or tubing includes a first member having a flange for attaching the first member to a wall of the container or tubing, the flange having at least one aperture, and a second member rotatably coupled to the first member, the second member having an upper end having at least one aperture, and an open distal end. The second member is rotatable relative to the first member between a closed position where the at least one aperture of the second member is misaligned with the at least one aperture in the flange to prevent the passage of fluid, and an open position where the at least one aperture of the second member is aligned with the at least one aperture in the flange to allow for the passage of fluid.

Apparatuses and methods for microscopic analysis of a sample by simultaneously characterizing infrared absorption characteristics of a plurality of spatially resolved locations are described herein. These apparatuses and methods improve sampling times while collecting microscopic data regarding composition of a sample across a wide field.

The present invention concerns a module for a photobioreactor suitable for being assembled to an identical adjacent module, comprising: a panel having a first face and a second face, opposite the first face, the first face delimiting, with the second face of the adjacent panel, a cavity suitable for containing a culture medium when the modules are assembled, the cavity (14) having a thickness of between 1 millimetre and 2 centimetres, and a gas injection device, capable of injecting gas bubbles into the culture medium contained in the cavity, such that the bubbles rise along the faces of the panels.

The present invention relates to a particulate material separation assembly. It comprises a filtration membrane and an antifouling device. The antifouling device comprises one or more magnets and a plurality of magnetisable particles. The one or more magnets cause the plurality of magnetisable particles to self-assemble into dynamic bristles, thereby forming a brush. The particulate material separation assembly is particularly useful in the context of micro algae harvesting.

A cell treatment apparatus capable of treating cells in a cell culture vessel. The cell treatment apparatus (100) according to the present invention includes a first region (1), a second region (3), and a third region (5). The first region (1) and the second region (3) are placed in succession. The first region (1) is a cell treatment chamber for treating cells. The cell treatment chamber can be closed from the outside of the cell treatment chamber and includes a culture vessel placement portion for placing a cell culture vessel. The second region (3) includes a laser irradiation device capable of irradiating the cell culture vessel placed in the culture vessel placement portion with a laser. The third region (5) includes a control device that controls at least one device in the cell treatment apparatus (100) and a power supply device (52) that supplies electric power to at least one device in the cell treatment apparatus (100). The culture vessel placement portion is placed to be adjacent to the second region (3) in the cell treatment chamber. An adjacent portion to the second region (3) in the culture vessel placement portion is translucent.

A large scale bioreactor system includes a stainless steel large scale bioreactor having at least one valve assembly, and an aseptic connector assembly coupled to the at least one valve assembly of the bioreactor. A perfusion device includes an Alternating Tangential Filtration assembly with an autoclaved valve assembly coupled to the aseptic connector assembly, and the aseptic connector assembly includes one of a triclamp aseptic connector or a hose assembly. Single use feed containers include an aseptic connector assembly.