Abstract: A saddle fastening device includes a U-shaped buckle body having a reinforced rod; an abutment surface defined by one side surface of the body and is generally flat; a main tongue unit connected pivotally to the body so as to define a clearance therebetween; a spring sleeved around the tongue unit; and a trust rod connected pivotally to open end of the body, wherein, the tongue unit, the reinforced rod and the trust rod cooperatively define a slide space thereamong such that the clearance determines a size of the slide space. When a saddle is mounted on the horseback by the saddle fastening device, the abutment surface of the body causes no discomfort to a horse body.

Abstract: A saddle bag connector is disclosed. An example saddle bag connector includes a base portion, a post having an opening formed through the post, a pin configured to fit through the opening formed through the post, and a double threaded mounting portion configured for connection to the post. The mounting portion further configured to fasten the post to a saddle to receive a saddle bag on the post.

Abstract: A MEMS sensor with improved overload resistance for metrological registering of a measured variable comprises a plurality of layers, especially silicon layers, arranged on one another. The layers include at least one inner layer, which is arranged between a first layer and a second layer, and in the inner layer there is provided extending perpendicularly to the plane of the inner layer through the inner layer at least one cavity, on which borders externally at least sectionally and forming a connecting element, a region of the inner layer, which is connected with the first layer and the second layer. A lateral surface of the connecting element externally at least sectionally bordering the cavity has in an end region facing the first layer a rounding decreasing the cross sectional area of the cavity in the direction of the first layer, and has in an end region facing the second layer a rounding decreasing the cross sectional area of the cavity in the direction of the second layer.

Abstract: The application describes improvements to (MEMS) transducers (100) having a flexible membrane (301) with a membrane electrode (302), especially where the membrane is crystalline or polycrystalline and the membrane electrode is metal or a metal alloy. Such transducers may typically include a back-plate having at least one back-plate layer (304) coupled to a back-plate electrode (303), with a plurality of holes (314) in the back-plate electrode corresponding to a plurality back-plate holes (312) through the back-plate. In embodiments of the invention the membrane electrode has at least one opening (313) in the membrane electrode wherein, at least part of the area of the opening corresponds to the area of at least one back-plate hole, in a direction normal to the membrane, and there is no hole in the flexible membrane at said opening in the membrane electrode. There may be a plurality of such openings. The openings effectively allow a reduction in the amount of membrane electrode material, e.g.

Abstract: A process for manufacturing an integrated semiconductor device, envisages: forming a MEMS structure; forming an ASIC electronic circuit; and electrically coupling the MEMS structure to the ASIC electronic circuit. The MEMS structure and the ASIC electronic circuit are integrated starting from a same substrate including semiconductor material; wherein the MEMS structure is formed at a first surface of the substrate, and the ASIC electronic circuit is formed at a second surface of the substrate, vertically opposite to the first surface in a direction transverse to a horizontal plane of extension of the first surface and of the second surface.

Abstract: The present disclosure relates to a wafer-level package that includes a first thinned die, a multilayer redistribution structure, a first mold compound, and a second mold compound. The first thinned die resides over a top surface of the multilayer redistribution structure. The multilayer redistribution structure includes at least one support pad that is on a bottom surface of the multilayer redistribution structure and vertically aligned with the first thinned die. The first mold compound resides over the multilayer redistribution structure and around the first thinned die, and extends beyond a top surface of the first thinned die to define an opening within the first mold compound and over the first thinned die. The second mold compound fills the opening and is in contact with the top surface of the first thinned die.

Abstract: A MEMS device having a wafer-level package, is provided with: a stack of a first die and a second die, defining at least a first internal surface internal to the package and carrying at least an electrical contact pad, and at least a first external surface external to the package and defining a first outer face of the package; and a mold compound, at least in part coating the stack of the first and second dies and having a front surface defining at least part of a second outer face of the package, opposite to the first outer face. The MEMS device is further provided with: at least a vertical connection structure extending from the contact pad at the first internal surface towards the front surface of the mold compound; and at least an external connection element, electrically coupled to the vertical connection structure and exposed to the outside of the package, at the second outer face thereof.

Abstract: A micromechanical component having a main extension plane is provided; the micromechanical component encloses a first cavern and a second cavern, and a first pressure prevails in the first cavern while a second pressure prevails in the second cavern, and a first layer of the micromechanical component, which extends essentially parallel to the main extension plane, projects into a second layer of the micromechanical component, which extends essentially parallel to the main extension plane, between the first cavern and the second cavern, essentially in a perpendicular direction to the main extension plane.

Abstract: Provided are a capacitive transducer that can make a sealing film thickness necessary to seal a gap smaller and can enhance performance such as a wider bandwidth, and a method of manufacturing the capacitive transducer. The capacitive transducer including cells each including a vibration film including a second electrode that is provided with a gap from a first electrode can be manufactured in the following manufacturing method. A convex part is formed on the first electrode, a sacrifice layer having a thickness larger than the thickness of the convex part is formed on the first electrode and the convex part, and a membrane is formed on the sacrifice layer. Further, an etching hole is formed in the membrane at a position above the convex part, the sacrifice layer is etched through the etching hole, and the etching hole is sealed by a sealing layer.

Abstract: A temperature-stabilized MEMS device in which heat is generated by ohmic heating as an electric current passes through at least part of one of the structural layers of the device. Various implementation options are disclosed in which the heating occurs in a device layer (25) of the device, either in an outer frame (2) or within the area of an active structure (3), or where heating occurs within a substrate (1) or a cover (8) of the device. One application of particular relevance is a gyroscope device.

Abstract: The present invention discloses a integrated structure of an MEMS pressure sensor and an MEMS inertia sensor, comprising: an insulating layer formed on a substrate, a first lower electrode and a second lower electrode both formed on the insulating layer, further comprising a first upper electrode forming an air pressure-sensitive capacitor together with the first lower electrode, and a second upper electrode forming a reference capacitor together with the second lower electrode; further comprising an inertia-sensitive structure supported above the substrate by a third support part, and a fixed electrode plate forming an inertia detecting capacitor of an inertia sensor together with the inertia-sensitive structure; and a cover body which packages the inertia detecting capacitor composed of the inertia-sensitive structure and the fixed electrode plate on the substrate.

Abstract: The present invention relates to a package production method includes the step of superposing a pair of substrates on each other, and bonding the substrates to each other to hermetically seal the inside of a sealing region surrounded by a sealing material, which is formed on any of the substrates. The sealing material is formed of a sintered body obtained by sintering a metal powder of at least one selected from gold, silver, palladium and platinum, the metal powder having a purity of 99.9% by weight or more and an average particle size of 0.005 ?m to 1.0 ?m, at least one core material having a width smaller than the width of the sealing material in a cross-sectional shape, and protruding from the periphery is formed on the substrate, and the core material compresses the sealing material to exhibit a sealing effect when the pair of substrates are bonded to each other. Accordingly, a sufficient sealing effect can be exhibited while a pressuring force to the substrate is reduced.

Abstract: A semiconductor layer having an opening and a MEMS resonator formed in the opening is disposed between first and second substrates to encapsulate the MEMS resonator. An electrical contact that extends from the opening to an exterior of the MEMS device is formed at least in part within the semiconductor layer and at least in part within the first substrate.

Abstract: The present disclosure relates to a wafer-level package that includes a first thinned die, a multilayer redistribution structure, a first mold compound, and a second mold compound. The first thinned die includes a first device layer formed from glass materials. The multilayer redistribution structure includes redistribution interconnects that connect the first device layer to package contacts on a bottom surface of the multilayer redistribution structure. Herein, the connections between the redistribution interconnects and the first device layer are solder-free. The first mold compound resides over the multilayer redistribution structure and around the first thinned die, and extends beyond a top surface of the first thinned die to define an opening within the first mold compound and over the first thinned die. The second mold compound fills the opening and is in contact with the top surface of the first thinned die.

Abstract: The present invention relates to a method for obtaining a hydrogen rich gas from an off gas. Further, the invention relates to a system for operating said method.

Abstract: The invention relates to a method of separating a phosgene- and hydrogen chloride-comprising stream (5), wherein said method comprises conveying the hydrogen chloride- and phosgene-comprising stream (5) into a distillation column (1), withdrawing at the bottom of the distillation column (1) a phosgene-comprising stream (7) and withdrawing at the top of the column an essentially hydrogen chloride-comprising stream (9). At least a portion of the stream (9) withdrawn at the top is compressed and at least partially condensed and at least a portion of the liquid and compressed essentially hydrogen chloride-comprising stream is decompressed and recycled into the top of distillation column (1) as reflux.

Abstract: A method for treating water with chlorine dioxide wherein the reactor is contained inside of the water supply line being treated and an eductor is used to draw in the chemical precursors. The method offers facilitated chlorine dioxide (ClO 2) generation and safer operation over wider ClO2 mass flow capacity, thus offering a more adaptable system for CLO2 treatments. Noise reduction and ease-of-use versus traditional eductor-based ClO2 generators are additional benefits from using this method.

Abstract: An oxygen allotrope generator having a tube with an electrically grounded outer surface and an electrically positive inner surface. A plurality of corona reaction plates are spaced along the interior of the tube, the plates being longitudinally inter-connected by wires and being in electrical connection with the electrically positive inner surface of the tube. An outer jacket encloses the tube and provides a second linear pass for partially ozonated gas to flow in the generator. An alternative embodiment includes external distributed ground connections at the locations of the corona reaction.

Abstract: The present invention is directed to crystalline solids having an empirical formula of M2A2X, wherein M is at least one Group IIIB, IVB, VB, or VIB metal, preferably Cr, Hf, Sc, Ti, Mo, Nb, Ta, V, Zr, or a combination thereof; wherein A is Al, Ga, Ge, In, Pb, or Sn, or a combination thereof; and each X is CxNy, where x+y=1. In some particular embodiments, the crystalline composition has a unit cell stoichiometry of Mo2Ga2C.

Abstract: A system and process for producing carbon nano-materials is disclosed. A carbonate material such as Li2CO3 is heated via a furnace to transform into molten carbonate. CO2 is bubbled into the molten carbonate. The molten carbonate is subjected to electrolysis by passing current from an anode to a cathode. A transition metal nucleation agent is added to result in nucleation sites that grow carbon nano-materials at the cathode. This process separates oxygen at the anode and carbon nano-materials at the cathode. The characteristics of the carbon nano-material may be controlled by varying current density, feed gas, transition metal composition, temperature, viscosity and electrolyte composition.

Abstract: A carbon nanotube-elastomer composite material according to the present invention contains carbon nanotubes and an elastomer, which contains the carbon nanotubes in a range of 0.1 part by weight to 20 parts by weight relative to the total weight of the carbon nanotubes and the elastomer, and in which the elastomer has a thermal decomposition temperature of 150° C. or more, and supposing that the resulting storage modulus is E?(t) when the carbon nanotube-elastomer composite material is maintained at 150° C. for t hours, a ratio E? (24)/E?(0) between a storage modulus E? (0) at the time of t=0 hour and a storage modulus E?(24) at the time of t=24 hours is set in a range from 0.5 or more to 1.5 or less in the resulting carbon nanotube-elastomer composite material.

Abstract: Graphene layers made of primarily sp2 bonded atoms and associated methods are disclosed. In one aspect, for example, a method of forming a graphite film can include heating a solid substrate under vacuum to a solubilizing temperature that is less than a melting point of the solid substrate, solubilizing carbon atoms from a graphite source into the heated solid substrate, and cooling the heated solid substrate at a rate sufficient to form a graphite film from the solubilized carbon atoms on at least one surface of the solid substrate. The graphite film is formed to be substantially free of lattice defects.

Abstract: A process for producing solar grade silicon from silica sand employs a plurality of plasma furnaces to perform a sequence of chemical reactions together with other process steps to produce solar grade silicon. The plasma furnace generates a stable dirty air, donut-shaped plasma into which particulate matter can be introduced. The plasma in the first two stages is formed by gases from the chemical reactions and in the third from inert gasses. Cyclone separators are used to extract particulates from the plasma in an inert gas that prevents reverse reactions as the particular cools.

Abstract: A method for producing an inorganic silica gel fiber or aerogel fiber, comprising the following steps: a) extrusion of a gel, in particular a hydrogel or alcogel, by means of a spinneret directly into a coagulation bath to form at least one filament, b) stretching of the filament in the coagulation bath, c) regeneration of the filament by extraction from the coagulation bath, and d) supercritical drying or freeze drying in order to convert the filament into a silica fiber, in particular an aerogel fiber.

Abstract: The invention relates to a method for producing organically modified aerogels. The problem addressed by the invention is that of providing an economical method for producing hydrophobic aerogels which can be implemented cost-effectively, simply, and safely, and which operates to save on resources. This problem is solved by the provision of a method for producing organically modified aerogels, wherein a sol containing [SiO4,2] units is produced, and the sol obtained is dispersed in a continuous phase. The sol forms a separate phase and the continuous phase contains at least 20 wt % organosiloxane, a gel is formed from the sol in the continuous phase, and the gel obtained is surface-modified in the presence of a phase mediator in the continuous phase, wherein acids or chlorosilanes or mixtures thereof are added as initiator and the gels obtained are dried. The aerogels provided can be used as insulating materials, in particular in thermal insulation.

Abstract: Particle production apparatus 1 including processing section 3 in which a processing liquid is adhered to a surface of each of inorganic particles contained in a powder material, chamber 4 connected to processing section 3 at a downstream side thereof in which the powder material is separated from gas carrying the material, powder material supply device 50 with supply portion 5 and supply unit 6 for supplying the powder material into processing section 3, and processing liquid spraying device 70 having a nozzle 7, a pump 8, a supply unit 9 for supplying the processing liquid, and a high-pressure gas (air) generating unit 11. Processing liquid spraying device 70 is configured to spray processing liquid as droplets onto the powder material just after the powder material being supplied into the processing section 3. Preferably, a volume of the processing section 3 is smaller than a volume of the chamber 4.

Abstract: Particle production apparatus 1 including processing section 3 in which a processing liquid is adhered to a surface of each of inorganic particles contained in a powder material, chamber 4 connected to processing section 3 at a downstream side thereof in which the powder material is separated from gas carrying the material, powder material supply device 50 with supply portion 5 and supply unit 6 for supplying the powder material into processing section 3, and processing liquid spraying device 70 having a nozzle 7, a pump 8, a supply unit 9 for supplying the processing liquid, and a high-pressure gas (air) generating unit 11. Processing liquid spraying device 70 is configured to spray processing liquid as droplets onto the powder material just after the powder material being supplied into the processing section 3. Preferably, a volume of the processing section 3 is smaller than a volume of the chamber 4.

Abstract: A method of producing a complex of a lamellar inorganic compound and an organic compound includes: heat-treating a particular non-swelling lamellar inorganic compound within a pyrolysis temperature range of the non-swelling lamellar inorganic compound; and intercalating an organic compound into the non-swelling lamellar inorganic compound in a dispersion liquid in which the heat-treated non-swelling lamellar inorganic compound is dispersed in a medium, thereby inserting the organic compound into an interlamellar space of the non-swelling lamellar inorganic compound.

Abstract: Process and plant for the synthesis of ammonia from a hydrocarbon feedstock, comprising: primary reforming with steam and air-fired secondary reforming wherein primary reforming is performed at a temperature and pressure of at least 790° C. and 50 bar, and secondary reforming is carried out substantially in absence of excess air, the so obtained make-up synthesis gas having a H2 to N2 molar ratio in the range 2.5 to 3.

Abstract: A process is developed wherein sodium carbonate is reclaimed from Trona-treated fly ash waste stream, and the fly ash rendered suitable for use as a Pozzolan. The process is a closed system wherein all separated aspects of the waste stream are reused by the generating power plant or offered as a commercial product.

Abstract: The present invention discloses a method for producing lithium carbonate from a low-lithium brine by separating magnesium and enriching lithium. A salt-lake brine is used as a raw material and is converted into halide salts through dehydration by evaporation and separation by crystallization; the halide salts are directly extracted using trialkyl phosphate or a mixture of trialkyl phosphate and monohydric alcohol, and an organic extraction phase as well as remaining halide salts are obtained after solid-liquid separation; reverse extraction is performed on the organic extraction phase to obtain a lithium-rich solution with a low magnesium-to-lithium ratio, and lithium carbonate is obtained after concentration and removal of magnesium by alkalization. The used solid-liquid extraction method is simple with no co-extraction agent used, and a solute distribution driving force is strong, unaffected by phase equilibrium of the brine extraction agent.

Abstract: An alumina sintered body according to the present invention includes a surface having a degree of c-plane orientation of 5% or more, the degree of c-plane orientation being determined by a Lotgering method using an X-ray diffraction profile obtained through X-ray irradiation at 2?=20° to 70°. The alumina sintered body contains Mg and F, a Mg/F mass ratio is 0.05 to 3500, and a Mg content is 30 to 3500 ppm by mass. The alumina sintered body has a crystal grain size of 15 to 200 ?m. When a field of view of 370.0 ?m long×372.0 ?m wide is photographed with a 1000-fold magnification and the photograph is visually observed, a number of pores having a diameter of 0.2 to 0.6 ?m is 250 or less.

Abstract: A method comprising (a) reacting aluminum metal with an acid in the presence of water to provide a first aluminum salt solution comprising an aluminum salt in water, wherein the aluminum salt comprises a reaction product of the acid and the aluminum metal, (b) heating the first aluminum salt solution to provide a mother liquor and solid aluminum salt, (c) optionally, separating the solid aluminum salt from the mother liquor, (d) optionally, dissolving at least a portion of the separated solid aluminum salt with water to provide a second aluminum salt solution, (e) spray roasting the first, or second (if produced), aluminum salt solution to provide an aluminum oxide powder, and (f) washing the aluminum oxide powder, wherein the washed aluminum oxide powder comprises less than about 30 ppmw total metallic and alkyl impurities.

Abstract: The present invention is in the field of nanoparticles, their preparation and their use as pinning centers in superconductors. In particular the present invention relates to nanoparticles comprising an oxide of Sr, Ba, Y, La, Ti, Zr, Hf, Nb, or Ta, wherein the nanoparticles have a weight average diameter of 1 to 30 nm and wherein an organic compound of general formula (I), (II) or (III) or an organic compound containing at least two carboxylic acid groups on the surface of the nanoparticles (I) (II) (III) wherein a is 0 to 5, b and c are independent of each other 1 to 14, n is 1 to 5, f is 0 to 5, p and q are independent of each other 1 to 14, and e and f are independent of each other 0 to 12.

Abstract: The present invention addresses the problem of providing spherical zinc oxide particles which have an average particle diameter within a specific range, have excellent monodispersity, and have a high plasmon resonance intensity. Also provided are a process for producing the spherical zinc oxide particles and a plasmon sensor chip obtained using the spherical zinc oxide particles, the chip having high sensitivity and being reduced in angle dependence during measurement. The spherical zinc oxide particles have been doped with one or more metallic elements selected from the group consisting of gallium (Ga), europium (Eu), cerium (Ce), praseodymium (Pr), samarium (Sm), gadolinium (Gd), terbium (Tb), neodymium (Nd), and ytterbium (Yb), have an average particle diameter within the range of 50 to 5,000 nm, and have a variation coefficient in particle diameter distribution within the range of 1.0 to 10%.

Abstract: The present invention is in the field of processes for the production of tantalum oxide particles. In particular the present invention relates to a process for producing crystalline tantalum oxide nanoparticles comprising heating a water-free solution containing (a) a tantalum alkoxide, (b) an acid, and (c) a solvent.

Abstract: Provided are methods for preparing a nickel-cobalt-aluminum precursor material and a cathode material with a gradient distribution of aluminum element. The precursor material and the cathode material based on the precursor material prepared by the methods are of sphere or sphere-like shapes in which the distribution of the aluminum element is changed in a gradient manner, and the particle size distribution is uniform. The synthesized material has a high tap density, is not sensitive to ambient carbon dioxide and moisture, and has a good processability, a high specific capacity and a good stability property.

Abstract: Some of the present containers include a bottle defining a mouth in fluid communication with an interior volume, a cap configured to at least partially cover the mouth and defining an outlet in fluid communication with the interior volume, and a filter assembly configured to filter liquid communicated between the interior volume and the outlet, the filter assembly having a first end, a second end, and a housing extending between the first and second ends to define an interior passageway configured to contain a filter having an upper end cap defining an opening, a lower end cap, and a filter media extending between the upper and lower end caps. In some containers, the filter assembly is configured to be coupled to the cap with the opening in fluid communication with the outlet. Some containers include a straw configured to be coupled in fluid communication between the outlet and the opening.

Abstract: The present disclosure relates to a distillation system using waste heat, the system comprising: a waste heat supply source which receives feedstock and separates the feedstock by a difference of boiling point, wherein waste heat is generated during separation of the feedstock; a heat-exchange unit which receives water from a water supply source and which evaporates the water by heat-exchange of the water with the waste heat supplied from the waste heat supply source; a mechanical vapor recompression module (MVR) which receives water vapor generated in the heat-exchange unit and which compresses the water vapor; and a waste water supply which supplies waste water generated in a separate process to the heat-exchange unit such that the amount of saturated water vapor which is supplied to the mechanical vapor recompression module is increased.

Abstract: Herein are described compositions useful in the purification of hydrocarbon-contaminated liquids (e.g., oil-contaminated water), methods of their manufacture, and methods of their use. In one instance, the composition can include a porous agricultural substrate selected from the group consisting of walnut shell, pecan shell, apricot pit, peach pit, corn cob, and a mixture thereof; the porous agricultural substrate having an external surface and pores, wherein the external surface is hydrophilic; and an organo-amine carried within the pores of the porous agricultural substrate. These compositions are utilized as regenerable filter media in place of, for example, ground walnut media.

Abstract: A method and a system is provided for inactivation of Infectious Pancreatic Necrosis Virus (IPNV) comprising illuminating a liquid containing IPNV with a lamp emitting a continuous broad band of ultraviolet (UV) light. The UV lamp may be “tuned” to optimize IPNV inactivation. The lamp may be a medium pressure UV lamp that emits UV light having wavelength between 200-245 nm and preferably, between 200-220 nm. The pressure of the lamp may be greater than 1.6 bar, 3 bar and preferably is 7 bar. The lamp may be composed of PS (synthetic quartz).

Abstract: In a subsystem or water-feed path located upsteam of a use point in an ultrapure water production/supply process, fine particles having a particle diameter of 50 nm or less, in particular 10 nm or less are highly removed. A device for removing fine particles in water has a membrane filtration device including a microfiltration membrane or an ultrafiltration membrane having a weak cationic functional group. The microfiltration membrane or the ultrafiltration membrane having a weak cationic functional group is preferred to have a polyketone film with the weak cationic functional group. Negatively-charged particles in water are adsorbed by the weak cationic functional group and can thus be removed.

Abstract: The present invention relates to a device and a process for purification of grey water and recovery of surfactants and purified water. In particular the invention relates to in-home purification of grey water generated from laundry wash and/or rinse liquor and recovery of surfactants and purified water for water saving by re-use.

Abstract: Methods and apparatus for controlling regeneration of an electrode in unidirectional pH adjustment (“UpA”) of water. Some embodiments relate to obtaining one or more measured or otherwise known parameters related to a UpA cell (132), and controlling when a regeneration period is started, parameters for the regeneration period, and/or other inputs to the UpA cell based on the parameters. Some embodiments relate to taking the total desired and/or undesired ions production rate and/or energy efficiency of a UpA cell into account in determining discharging parameters for a regeneration period, when the regeneration period should be performed, and/or other inputs to the UpA cell.

Abstract: A multiple-bore solute cartridge carrier 10) for use in a sterile fluid delivery system. The carrier includes a rotary housing (12) adapted for connection to the sterile fluid delivery system. The rotary housing has one or more bores (30) configured to receive a solute cartridge. The rotary housing, when connected to the sterile fluid delivery system, is selectively rotatable to facilitate creation of a desired sterile solution when sterile water from the fluid delivery system is flowed through the solute cartridge.

Abstract: Methods, apparatus, and systems involving high aspect ratio conduits are provided. These may involve a plurality of high aspect ratio leaching channels that may be spaced a predetermined distance apart from each other. The predetermined distance can facilitate backfilling of the volumes of adjacent high aspect ratio leaching channels. The backfill may be sand as well as other materials.

Abstract: The invention relates to bio-electrochemical systems for the generation of methane from organic material and for reducing chemical oxygen demand and nitrogenous waste through denitrification. The invention further relates to an electrode for use in, and a system for, the adaptive control of bio-electrochemical systems as well as a fuel cell.

Abstract: A bioreactor has a biofilm that receives a gas through a supporting membrane and another biofilm attached to an inert support. The first biofilm is aerated through the membrane and provides nitrification. The other biofilm has an anoxic or anaerobic zone and provides denitrification. A module useful in the bioreactor has cords potted in at least one potting head. Optionally, some or all of the cords have a gas transfer membrane. The module may provide inert supports, active gas transfer supports or a combination of both types of support. Multiple modules may be assembled together into a cassette, the cassette providing inert supports, active supports or a combination. The module or cassette may have an aerator for mixing or biofilm control.

Abstract: An apparatus and method for the biological treatment of water using algae comprising a support frame for flat, two-sided LED lighting-panels and flat, two-sided algae turf plates, an axle, the flat, two-sided LED lighting panels and flat algae turf plates are arranged as spokes radiating from the axle in an alternating panel so that each side of each two-sided lighting panel faces and illuminates a side of a flat algae turf plate, the algae turf plates being removable from the support frame so that the collected algae can be removed from each side of each the algae turf plate.

Abstract: A method for treating organic wastewater includes: proceeding with anaerobic fermentation on organic wastewater to obtain a fermentation liquid; nitrifying a portion of the fermentation liquid to obtain a first fermentation liquid containing nitrate nitrogen, and separating the remaining portion of the fermentation liquid to obtain a second fermentation liquid containing propionic acid; mixing the first and second fermentation liquids to obtain a mixture; and removing nitrogen and phosphorus from the mixture and then proceeding with sedimentation to obtain a sediment and a supernatant discharged as purified water. An organic wastewater treating system includes an anaerobic fermentation reactor, an aeration tank, a fermentation liquid separating equipment, a biological removal reactor for removing nitrogen and phosphorus, and a sedimentation tank.