An apparatus for treating fluid with ultraviolet radiation includes a head portion with an inlet conduit that is configured to convey the fluid away from an inlet along a length direction of the inlet conduit and an outlet conduit that is configured to convey the fluid along a length direction of the outlet conduit. The length direction of the inlet conduit and the length direction of the outlet conduit are collinear. A reactor vessel is coupled to the head portion. An LED light source is configured to emit ultraviolet radiation into the inner vessel, and at least a portion of the LED light source is immersed in fluid flowing toward the outlet conduit so that the fluid cools the LED light source. An adapter unit removably attaches reactor vessel and the head portion.
An apparatus for treating fluid with ultraviolet radiation includes a head portion with an inlet conduit that is configured to convey the fluid away from an inlet along a length direction of the inlet conduit and an outlet conduit that is configured to convey the fluid along a length direction of the outlet conduit. The length direction of the inlet conduit and the length direction of the outlet conduit are collinear. A reactor vessel is coupled to the head portion. An LED light source is configured to emit ultraviolet radiation into the inner vessel, and at least a portion of the LED light source is immersed in fluid flowing toward the outlet conduit so that the fluid cools the LED light source. An adapter unit removably attaches reactor vessel and the head portion.
An apparatus for disinfecting fluid flowing through a reactor with ultraviolet (UV) light emitted from a light source assembly. The apparatus includes a housing, light source, inlet, and outlet. The inlet and the outlet are positioned on the housing such that flow of fluid through the housing creates a spiral flow path. In an embodiment, the outlet is located in an outer half of the radius of the housing and directs the flow of the fluid into the housing in a direction circumferential with respect to a cylindrical wall of the housing.
A radiation source assembly comprises a source base, a UV transparent sleeve, and a UV lamp. The source base comprises a sealed electrical connection interface and an opposing sealed sleeve interface. The sealed electrical connection interface comprises a electrical contacts and the sealed sleeve interface comprise a radial sealing element, an outer collar, and a compression ring. The UV transparent sleeve is engaged with the sleeve interface such that the radial sealing element of the sealed sleeve interface is disposed between the UV transparent sleeve and the outer collar of the source base, and the compression ring is positioned over the UV transparent sleeve and engaged with the source base to compress the radial sealing element onto the UV transparent sleeve and the outer collar. The UV lamp is disposed within the UV transparent sleeve and electrically coupled to the electrical contacts of the electrical connection interface.
A light source assembly that can be connected to a reactor and which includes an board with a plurality of ultraviolet (UV) light-emitting diodes (LEDS) and a first electrical connector that is connected to a cable for supplying electrical power to the first board. The light source assembly includes an interconnector board that is separated from the LED board and which includes a second electrical connector that is connected to the cable and a third electrical connector that can connect to another cable, e.g., for supplying power to the light source assembly.
A fluid treatment system for treating a fluid with UV light and a method of evaluating a condition of at least one light source assembly in the system. The system includes a reactor including a treatment chamber for receiving fluid flow, first and second light source assemblies respectively including first and second arrays of LEDs that face each other in the treatment chamber and can emit UV light to treat the fluid, and first and second intensity sensors that can measure an intensity of UV light incident thereon. The method includes measuring an intensity of UV light in a state in which one of the first and second arrays of LEDs is powered on and the power to the other array of LEDs is temporarily modulated, and determining whether the intensity of UV light is different from a predetermined value.
Methods of operating a system for treating a fluid flowing through a reactor with ultraviolet (UV) light emitted from a light source assembly. One method includes detecting, with a flow sensor, a flow rate of fluid through the reactor; and controlling, with a processor, electric power supplied to the light source assembly so that a low average amount of electric power is supplied when the flow rate is below a threshold. In another method, an intensity of the UV light may be controlled by the processor based on a detected temperature in the light source assembly. Yet another method includes determining that the flow sensor is defective based on the detected temperature in the light source assembly and the detected flow rate. A further method includes determining that an intensity sensor is defective based on a detected intensity and the detected temperature in the light source assembly.
A lighting system including a light source assembly comprising a base portion, and a cylindrical wall and a light source disposed on the base portion, the cylindrical wall having a locking element disposed on outer surface thereof, and a light source mount comprising a cylindrical wall having a radially inner surface that defines an inner space configured to receive the cylindrical wall of the light source assembly, and a channel formed on one of the cylindrical wall of the light source assembly or the radially inner surface of the light source mount, the channel configured to receive the locking element of the other of the light source assembly or the radially inner surface of the light source mount.
Methods of operating a system for treating a fluid flowing through a reactor with ultraviolet (UV) light emitted from a light source assembly. One method includes detecting, with a flow sensor, a flow rate of fluid through the reactor; and controlling, with a processor, electric power supplied to the light source assembly so that a low average amount of electric power is supplied when the flow rate is below a threshold. In another method, an intensity of the UV light may be controlled by the processor based on a detected temperature in the light source assembly. Yet another method includes determining that the flow sensor is defective based on the detected temperature in the light source assembly and the detected flow rate. A further method includes determining that an intensity sensor is defective based on a detected intensity and the detected temperature in the light source assembly.
A fluid treatment system for treating a fluid with ultraviolet (UV) radiation. The system includes a reactor vessel including a treatment chamber that includes an inlet where the fluid enters the treatment chamber and an outlet where the fluid exits the treatment chamber. Fluid flows within the treatment chamber from the inlet to the outlet generally along a longitudinal axis of the treatment chamber. The system further includes at least one light source assembly that is removably coupled to the reactor vessel so that the light source assembly can be inserted into the treatment chamber in a direction transverse to the longitudinal axis. The at least one light source assembly includes a light source unit including an array of light-emitting diodes (LEDs) for emitting UV radiation into the treatment chamber to treat the fluid.
A light source assembly that can be connected to a reactor and which includes an board with a plurality of ultraviolet (UV) light-emitting diodes (LEDS) and a first electrical connector that is connected to a cable for supplying electrical power to the first board. The light source assembly includes an interconnector board that is separated from the LED board and which includes a second electrical connector that is connected to the cable and a third electrical connector that can connect to another cable, e.g., for supplying power to the light source assembly.
H01L 25/13 - Assemblies consisting of a plurality of individual semiconductor or other solid-state devices all the devices being of a type provided for in a single subclass of subclasses , , , , or , e.g. assemblies of rectifier diodes the devices having separate containers the devices being of a type provided for in group
C02F 1/32 - Treatment of water, waste water, or sewage by irradiation with ultraviolet light
F21K 9/20 - Light sources comprising attachment means
H01R 12/71 - Coupling devices for rigid printing circuits or like structures
H05K 1/14 - Structural association of two or more printed circuits
16.
METHODS AND DEVICES FOR ULTRAVIOLET FLUID TREATMENT OF FLUIDS
A fluid treatment system for treating a fluid with ultraviolet light. The system includes a detachable light source assembly having a thermally conductive outer wall, an inner wall disposed inside the outer wall and surrounding an inner space within the inner wall that defines a treatment zone, and an ultraviolet light source disposed between the outer wall and the inner wall and configured to emit ultraviolet light toward the treatment zone, and a reactor vessel having an inlet port for receiving a fluid and an outlet port for expelling treated fluid, the reactor vessel configured to receive the light source assembly in an attached state such that a space between a wall of the reactor vessel and the outer wall of the light source assembly defines a cooling zone in which the outer wall is cooled by contacting the fluid.
A radiation source assembly comprises a source base, a UV transparent sleeve, and a UV lamp. The source base comprises a sealed electrical connection interface and an opposing sealed sleeve interface. The sealed electrical connection interface comprises a electrical contacts and the sealed sleeve interface comprise a radial sealing element, an outer collar, and a compression ring. The UV transparent sleeve is engaged with the sleeve interface such that the radial sealing element of the sealed sleeve interface is disposed between the UV transparent sleeve and the outer collar of the source base, and the compression ring is positioned over the UV transparent sleeve and engaged with the source base to compress the radial sealing element onto the UV transparent sleeve and the outer collar. The UV lamp is disposed within the UV transparent sleeve and electrically coupled to the electrical contacts of the electrical connection interface.
An embodiment provides a device for cleaning a sleeve of an ultraviolet light source, including: the ultraviolet light source for the disinfection of a fluid, wherein the sleeve surrounds the ultraviolet light source; a cleaning composition encapsulated in a polymer material to form a compound; a canister around and in contact with the sleeve and encapsulating the compound against the sleeve thereby placing the compound in a location adjacent to the sleeve, wherein the polymer material dissolves at a pH above a target value above the polymer material dissolution point releases the cleaning composition. Other aspects are described and claimed.
09 - Scientific and electric apparatus and instruments
Goods & Services
Scientific apparatus and instruments for use with
ultraviolet radiation systems for the treatment,
disinfection, purification and/or sterilization of water for
domestic use, namely, controller and regulators.
09 - Scientific and electric apparatus and instruments
Goods & Services
Electronic controllers for use with ultraviolet radiation systems for the treatment, disinfection, purification and sterilization of water for domestic use
37 - Construction and mining; installation and repair services
Goods & Services
Water treatment systems, namely, filtration and membrane filtration units for the treatment of water for municipal and industrial use Installation, maintenance, and repair services of water treatment systems for the treatment of water for municipal and industrial use
37 - Construction and mining; installation and repair services
Goods & Services
(1) Water treatment systems, namely filtration and membrane filtration units for the treatment of water for municipal and industrial use. (1) Installation, maintenance, and repair services of water treatment systems for the treatment of water for municipal and industrial use.
37 - Construction and mining; installation and repair services
Goods & Services
(1) Water treatment systems, namely filtration and membrane filtration units for the treatment of water for municipal and industrial use (1) Installation, maintenance, and repair services of water treatment systems for the treatment of water for municipal and industrial use
37 - Construction and mining; installation and repair services
Goods & Services
Water treatment systems, namely, filtration and membrane filtration units for the treatment of water for municipal and industrial use Installation, maintenance, and repair services of water treatment systems for the treatment of water for municipal and industrial use
09 - Scientific and electric apparatus and instruments
Goods & Services
(1) Scientific apparatus and instruments for use with ultraviolet radiation systems for the treatment, disinfection, purification and/or sterilization of water for domestic use, namely, controller and regulators.
A radiation source assembly comprises a source base, a UV transparent sleeve, and a UV lamp. The source base comprises a sealed electrical connection interface and an opposing sealed sleeve interface. The sealed electrical connection interface comprises a electrical contacts and the sealed sleeve interface comprise a radial sealing element, an outer collar, and a compression ring. The UV transparent sleeve is engaged with the sleeve interface such that the radial sealing element of the sealed sleeve interface is disposed between the UV transparent sleeve and the outer collar of the source base, and the compression ring is positioned over the UV transparent sleeve and engaged with the source base to compress the radial sealing element onto the UV transparent sleeve and the outer collar. The UV lamp is disposed within the UV transparent sleeve and electrically coupled to the electrical contacts of the electrical connection interface.
A radiation source assembly comprises a source base, a UV transparent sleeve, and a UV lamp. The source base comprises a sealed electrical connection interface and an opposing sealed sleeve interface. The sealed electrical connection interface comprises a electrical contacts and the sealed sleeve interface comprise a radial sealing element, an outer collar, and a compression ring. The UV transparent sleeve is engaged with the sleeve interface such that the radial sealing element of the sealed sleeve interface is disposed between the UV transparent sleeve and the outer collar of the source base, and the compression ring is positioned over the UV transparent sleeve and engaged with the source base to compress the radial sealing element onto the UV transparent sleeve and the outer collar. The UV lamp is disposed within the UV transparent sleeve and electrically coupled to the electrical contacts of the electrical connection interface.
B01J 19/12 - Processes employing the direct application of electric or wave energy, or particle radiationApparatus therefor employing electromagnetic waves
A radiation source assembly comprises a source base, a UV transparent sleeve, and a UV lamp. The source base comprises a sealed electrical connection interface and an opposing sealed sleeve interface. The sealed electrical connection interface comprises a electrical contacts and the sealed sleeve interface comprise a radial sealing element, an outer collar, and a compression ring. The UV transparent sleeve is engaged with the sleeve interface such that the radial sealing element of the sealed sleeve interface is disposed between the UV transparent sleeve and the outer collar of the source base, and the compression ring is positioned over the UV transparent sleeve and engaged with the source base to compress the radial sealing element onto the UV transparent sleeve and the outer collar. The UV lamp is disposed within the UV transparent sleeve and electrically coupled to the electrical contacts of the electrical connection interface.
B01J 19/12 - Processes employing the direct application of electric or wave energy, or particle radiationApparatus therefor employing electromagnetic waves
A radiation source assembly comprises a source base, a UV transparent sleeve, and a UV lamp. The source base comprises a sealed electrical connection interface and an opposing sealed sleeve interface. The sealed electrical connection interface comprises a electrical contacts and the sealed sleeve interface comprise a radial sealing element, an outer collar, and a compression ring. The UV transparent sleeve is engaged with the sleeve interface such that the radial sealing element of the sealed sleeve interface is disposed between the UV transparent sleeve and the outer collar of the source base, and the compression ring is positioned over the UV transparent sleeve and engaged with the source base to compress the radial sealing element onto the UV transparent sleeve and the outer collar. The UV lamp is disposed within the UV transparent sleeve and electrically coupled to the electrical contacts of the electrical connection interface.
An embodiment provides a method for making a non-hazardous iron product for treating wastewater, including: adding sodium bisulfite to a solution comprising iron, creating an aqueous solution; adding an amount of sodium hydroxide to the aqueous solution to increase the pH of the aqueous solution to between 2-2.5; determining an amount of sodium bicarbonate and adding the identified amount of sodium bicarbonate to the aqueous solution, wherein the sodium bicarbonate adjusts the pH of the aqueous solution to a desired pH; and providing a buffer to the aqueous solution to generate a slurry. Other embodiments are described and claimed.
A fluid treatment system for treating a fluid with ultraviolet light. The system includes a detachable light source assembly having a thermally conductive outer wall, an inner wall disposed inside the outer wall and surrounding an inner space within the inner wall that defines a treatment zone, and an ultraviolet light source disposed between the outer wall and the inner wall and configured to emit ultraviolet light toward the treatment zone, and a reactor vessel having an inlet port for receiving a fluid and an outlet port for expelling treated fluid, the reactor vessel configured to receive the light source assembly in an attached state such that a space between a wall of the reactor vessel and the outer wall of the light source assembly defines a cooling zone in which the outer wall is cooled by contacting the fluid.
A fluid treatment system for treating a fluid with ultraviolet light. The system includes a detachable light source assembly having a thermally conductive outer wall, an inner wall disposed inside the outer wall and surrounding an inner space within the inner wall that defines a treatment zone, and an ultraviolet light source disposed between the outer wall and the inner wall and configured to emit ultraviolet light toward the treatment zone, and a reactor vessel having an inlet port for receiving a fluid and an outlet port for expelling treated fluid, the reactor vessel configured to receive the light source assembly in an attached state such that a space between a wall of the reactor vessel and the outer wall of the light source assembly defines a cooling zone in which the outer wall is cooled by contacting the fluid.
Ultraviolet sterilizers for water treatment and structural
parts thereof, namely, ultraviolet units for the treatment,
disinfection, purification and/or sterilization of water and
other fluids for industrial, commercial, and domestic use.
Ultraviolet sterilizers for water treatment, namely, ultraviolet lamps for the treatment, disinfection, purification and/or sterilization of water and other fluids for industrial, commercial, and domestic use
An embodiment provides method for controlling lamp output within an array of lamps, including: receiving sensor data corresponding to one of a plurality of lamps within the array, wherein the sensor data comprises an irradiance value from at least one of: within a lamp sleeve and an irradiance value from outside a lamp sleeve; identifying, based the sensor data, a change in an output of the one of the plurality of lamps; sharing the sensor data with other of the plurality of lamps within the array; and adjusting, in response to the sharing, an output of at least one of the other of the plurality of lamps within the array, thereby compensating for the change in the output of one of the plurality of lamps. Other aspects are described and claimed.
C02F 1/32 - Treatment of water, waste water, or sewage by irradiation with ultraviolet light
H05B 47/21 - Responsive to malfunctions or to light source lifeCircuit arrangements for operating light sources in general, i.e. where the type of light source is not relevant for protection of two or more light sources connected in parallel
(1) Ultraviolet (UV) light bulbs; ultraviolet disinfection units for water sterilization; ultraviolet light (UV) water purification device; ultraviolet ray lamps, not for medical purposes
An embodiment provides a method for cleaning a surface, including: encapsulating a cleaning composition in a polymer material to form a compound, wherein the polymer material surrounds the cleaning composition; placing the compound in a location adjacent to the surface, wherein the location adjacent to the surface is a volume separated from an outer volume; dissolving the polymer material at a pH above a target value above the polymer material pH dissolution point, wherein the dissolving releases the cleaning composition; and cleaning the surface using the released cleaning composition. Other aspects are described and claimed.
An embodiment provides a method for cleaning a surface, including: encapsulating a cleaning composition in a polymer material to form a compound, wherein the polymer material surrounds the cleaning composition; placing the compound in a location adjacent to the surface, wherein the location adjacent to the surface is a volume separated from an outer volume; dissolving the polymer material at a pH above a target value above the polymer material pH dissolution point, wherein the dissolving releases the cleaning composition; and cleaning the surface using the released cleaning composition. Other aspects are described and claimed.
A system, method, and assembly for controlling a power supply for at least one ultraviolet lamp where at least one ultraviolet lamp uses input received from at least one sensor of at least one ultraviolet lamp to measure a characteristic of the at least one ultraviolet lamp and, if based on that at least one sensor, the at least one ultraviolet lamp determines that at least one characteristic of a power supply operatively coupled to the at least one ultraviolet lamp should be changed, generates a command for that power supply to modify that at least one characteristic either by modulating its output or adjusting an output level.
An embodiment provides a lamp apparatus, including: at least one filament; an amount of amalgam; a heat-sink assembly connected to the lamp apparatus; and at least one control circuit comprising a heating element and a temperature measurement element connected to the at least one filament, wherein the control circuit varies the electrical power delivered to the heating element, thereby controlling an internal temperature of the lamp apparatus relative to a temperature set point. Other aspects are described and claimed.
(1) Water and fluid treatment equipment, namely, mechanical equipment in the nature of ultraviolet light (UV) water purification device for the treatment, disinfectant, purification, and sterilization of water and fluids for industrial, commercial, municipal, and residential use
WATER AND FLUID TREATMENT EQUIPMENT, namely, MECHANICAL EQUIPMENT WHICH UTILIZES ULTRA-VIOLET TECHNOLOGY FOR THE TREATMENT, DISINFECTANT, PURIFICATION, AND STERILIZATION OF WATER AND OTHER FLUIDS FOR INDUSTRIAL, COMMERCIAL, MUNICIPAL, AND RESIDENTIAL USE
48.
Creation of an iron product for wastewater treatment
An embodiment provides A method for making a non-hazardous iron product for treating wastewater, including: adding sodium bisulfite to a solution comprising iron, creating an aqueous solution; adding an amount of sodium hydroxide to the aqueous solution to increase the pH of the aqueous solution to between 2-2.5; determining an amount of sodium bicarbonate and adding the identified amount of sodium bicarbonate to the aqueous solution, wherein the sodium bicarbonate adjusts the pH of the aqueous solution to a desired pH; and providing a buffer to the aqueous solution to generate a slurry. Other embodiments are described and claimed.
ultraviolet radiation systems and structural parts thereof, namely, ultraviolet units for the treatment, disinfection, purification and/or sterilization of water and other fluids for industrial, commercial, and domestic use
An embodiment provides method for controlling lamp output within an array of lamps, including: receiving sensor data corresponding to one of a plurality of lamps within the array, wherein the sensor data comprises an irradiance value from at least one of: within a lamp sleeve and an irradiance value from outside a lamp sleeve; identifying, based the sensor data, a change in an output of the one of the plurality of lamps; sharing the sensor data with other of the plurality of lamps within the array; and adjusting, in response to the sharing, an output of at least one of the other of the plurality of lamps within the array, thereby compensating for the change in the output of one of the plurality of lamps. Other aspects are described and claimed.
An embodiment provides method for controlling lamp output within an array of lamps, including: receiving sensor data corresponding to one of a plurality of lamps within the array, wherein the sensor data comprises an irradiance value from at least one of: within a lamp sleeve and an irradiance value from outside a lamp sleeve; identifying, based the sensor data, a change in an output of the one of the plurality of lamps; sharing the sensor data with other of the plurality of lamps within the array; and adjusting, in response to the sharing, an output of at least one of the other of the plurality of lamps within the array, thereby compensating for the change in the output of one of the plurality of lamps. Other aspects are described and claimed.
A system, method, and assembly for controlling a power supply for at least one ultraviolet lamp where at least one ultraviolet lamp uses input received from at least one sensor of at least one ultraviolet lamp to measure a characteristic of the at least one ultraviolet lamp and, if based on that at least one sensor, the at least one ultraviolet lamp determines that at least one characteristic of a power supply operatively coupled to the at least one ultraviolet lamp should be changed, generates a command for that power supply to modify that at least one characteristic either by modulating its output or adjusting an output level.
A system, method, and assembly for controlling a power supply for at least one ultraviolet lamp where at least one ultraviolet lamp uses input received from at least one sensor of at least one ultraviolet lamp to measure a characteristic of the at least one ultraviolet lamp and, if based on that at least one sensor, the at least one ultraviolet lamp determines that at least one characteristic of a power supply operatively coupled to the at least one ultraviolet lamp should be changed, generates a command for that power supply to modify that at least one characteristic either by modulating its output or adjusting an output level.
An embodiment provides A method for making a non-hazardous iron product for treating wastewater, including: adding sodium bisulfite to a solution comprising iron, creating an aqueous solution; adding an amount of sodium hydroxide to the aqueous solution to increase the pH of the aqueous solution to between 2 - 2.5; determining an amount of sodium bicarbonate and adding the identified amount of sodium bicarbonate to the aqueous solution, wherein the sodium bicarbonate adjusts the pH of the aqueous solution to a desired pH; and providing a buffer to the aqueous solution to generate a slurry. Other embodiments are described and claimed.
An embodiment provides A method for making a non-hazardous iron product for treating wastewater, including: adding sodium bisulfite to a solution comprising iron, creating an aqueous solution; adding an amount of sodium hydroxide to the aqueous solution to increase the pH of the aqueous solution to between 2 - 2.5; determining an amount of sodium bicarbonate and adding the identified amount of sodium bicarbonate to the aqueous solution, wherein the sodium bicarbonate adjusts the pH of the aqueous solution to a desired pH; and providing a buffer to the aqueous solution to generate a slurry. Other embodiments are described and claimed.
There is described an on-line device for controlling a fluid treatment process configured to inactivate a microorganism in a flow of fluid using ultraviolet radiation and a chemical disinfectant. The device includes: a memory for receiving a calculated database of dose response for the ultraviolet radiation and for the chemical disinfectant for a fluid treatment parameter; means to obtain input data about the fluid treatment parameter from the process; means to compare the input data with calculated database; and means to adjust one or more of the amount ultraviolet radiation and the chemical disinfectant added to the flow fluid in response to a difference between the input data and calculated database. There is also described a process for controlling a fluid treatment process configured to inactivate a microorganism in a flow of fluid using ultraviolet radiation and a chemical disinfectant.
42 - Scientific, technological and industrial services, research and design
Goods & Services
Equipment for the treatment, disinfection, purification, and/or sterilization of water and other fluids; water treatment equipment for industrial, commercial and municipal use; parts and fittings for all the aforesaid goods. Providing online facilities for real time interaction between computer users, transfer and dissemination of information in the field water and fluid treatment equipment via computer networks; advisory, consultancy and information services in relation to all the aforesaid services. Research and development in the field of water and other fluid treatment equipment; hosting of websites; technical support services for computer hardware, software and equipment for the treatment, disinfection, purification and/or sterilization of water and other fluids for industrial, commercial and municipal use; advisory, consultancy and information services in relation to all the aforesaid services.
Water treatment equipment, namely, a UV reactor for drinking water treatment, environmental contaminant destruction in fluids and for the treatment of process waters; Water treatment equipment, namely, a UV reactor for wastewater treatment
(1) Water treatment equipment namely, a UV reactor for wastewater treatment.
(2) Water treatment equipment namely, a UV reactor for drinking water treatment, environmental contaminant destruction in fluids and for the treatment of process waters.
67.
Radiation source cleaning system and module containing same
There is described a cleaning system for a radiation source. The cleaning system comprises: (i) a cleaning chamber housing; (ii) a cleaning cartridge removably disposed in the cleaning chamber housing; and (iii) an endcap element removably coupled to the cleaning chamber housing. The cleaning cartridge comprises a first sealing element and a second sealing element, the first sealing element and the second sealing element configured to provide a substantially fluid tight seal with respect to an exterior surface of the radiation source. A radiation source module and a fluid treatment system comprising the radiation source module are also described.
42 - Scientific, technological and industrial services, research and design
Goods & Services
(1) Equipment using ultraviolet technology for the treatment, disinfection, purification and sterilization of water and other fluids for industrial, commercial, municipal and residential use. (1) Research and development in the field of water and other fluid treatment equipment; transfer and dissemination of information in the field of water and fluid treatment equipment via computer networks; hosting of websites; technical support services for computer hardware, software and equipment for the treatment, disinfection, purification and sterilization of water and other fluids for industrial, commercial, municipal and residential use.
42 - Scientific, technological and industrial services, research and design
45 - Legal and security services; personal services for individuals.
37 - Construction and mining; installation and repair services
Goods & Services
Equipment using ultraviolet technology for the treatment of water and fluids, namely, disinfection, purification and/or sterilization apparatus for industrial, commercial, municipal and residential use Online consumer information services regarding the selection of water and treatment equipment to be purchased Research and development in the field of water and other fluid treatment equipment; hosting of websites; technical support services, namely, troubleshooting diagnostic problems for computer hardware, software, and equipment for the treatment, disinfection, purification and sterilization of water and other fluids for industrial, commercial, municipal and residential use Online information services regarding safety and regulatory compliance in the field of water and treatment equipment Online information services regarding care and maintenance in the field of water and treatment equipment
37 - Construction and mining; installation and repair services
42 - Scientific, technological and industrial services, research and design
Goods & Services
Transmission and distribution of information in the field of water and fluid treatment equipment via a global computer network Providing consumer information about water and fluid treatment equipment Technical support services, namely, troubleshooting in the nature of the repair and maintenance of computer hardware for the treatment, disinfection, purification and/or sterilization of water and other fluids for industrial, commercial, municipal and residential use; technical support services, namely, repair and maintenance of equipment for the treatment, disinfection, purification and/or sterilization of water and other fluids for industrial, commercial, municipal and residential use Research and development in the field of water and other fluid treatment equipment; providing technological and scientific information about water and fluid treatment equipment; hosting of websites; technical support services, namely, troubleshooting in the nature of diagnosing computer hardware problems for the treatment, disinfection, purification and/or sterilization of water and other fluids for industrial, commercial, municipal and residential use; technical support services, namely, troubleshooting of computer software problems for the treatment, disinfection, purification and/or sterilization of water and other fluids for industrial, commercial, municipal and residential use
42 - Scientific, technological and industrial services, research and design
Goods & Services
(1) Research and development in the field of water and other fluid treatment equipment; providing information in the field of water and fluid treatment equipment via computer networks; hosting of websites; technical support services for computer hardware, software and equipment for the treatment, disinfection, purification and/or sterilization of water and other fluids for industrial, commercial, municipal and residential use
40 - Treatment of materials; recycling, air and water treatment,
42 - Scientific, technological and industrial services, research and design
Goods & Services
Equipment for the treatment, disinfection, purification, and/or sterilization of water and other fluids; water treatment equipment for industrial, commercial and municipal use; water treatment equipment; parts and fittings for all the aforesaid goods. Dissemination of information in the field of water treatment equipment for industrial, commercial and municipal use via computer networks. Research and development in the field of water and other fluid treatment equipment; hosting of websites; technical support services for computer hardware, software and equipment for the treatment, disinfection, purification and/or sterilization of water and other fluids for industrial, commercial and municipal use; advisory, consultancy and information services in relation to all the aforesaid services.
40 - Treatment of materials; recycling, air and water treatment,
42 - Scientific, technological and industrial services, research and design
Goods & Services
UV water treatment equipment; UV water treatment equipment for the beverage industry. Providing online facilities for real time interaction between computer users; advisory, consultancy and information services in relation to all the aforesaid services. Dissemination of information in the field of water treatment equipment for the beverage industry via computer networks. Research and development in the field of water treatment equipment; hosting of websites; technical support services for computer hardware, software and equipment for the treatment of water for the beverage industry; advisory, consultancy and information services in relation to all the aforesaid services.
(1) Water sterilizers and water filtering units for domestic, commercial and industrial use. (1) Providing information in the field of water sterilizers and water filtering units.
42 - Scientific, technological and industrial services, research and design
Goods & Services
UV lamps for water treatment equipment. Promoting sustainable products in the field of water treatment equipment. Providing technical information regarding sustainable products in the field of water treatment equipment.
42 - Scientific, technological and industrial services, research and design
Goods & Services
Equipment for the treatment, disinfection, purification, and/or sterilization of water and other fluids; water treatment equipment for industrial, commercial and municipal use; parts and fittings for all the aforesaid goods. Providing online facilities for real time interaction between computer users; transfer and dissemination of information in the field of water and fluid treatment equipment via computer networks; advisory, consultancy and information services in relation to all the aforesaid services. Research and development in the field of water and other fluid treatment equipment; hosting of websites; technical support services for computer hardware, software and equipment for the treatment, disinfection, purification and/or sterilization of water and other fluids for industrial, commercial and municipal use; advisory, consultancy and information services in relation to all the aforesaid services.
42 - Scientific, technological and industrial services, research and design
Goods & Services
Equipment for the treatment, disinfection, purification, and/or sterilization of water and other fluids; water treatment equipment for industrial, commercial and municipal use; parts and fittings for all the aforesaid goods. Providing online facilities for real time interaction between computer users; transfer and dissemination of information in the field of water and fluid treatment equipment via computer networks; advisory, consultancy and information services in relation to the all the aforesaid services. Research and development in the field of water and other fluid treatment equipment; hosting of websites; technical support services for computer hardware, software and equipment for the treatment, disinfection, purification and/or sterilization of water and other fluids for industrial, commercial and municipal use; advisory, consultancy and information services in relation to all the aforesaid services.
There is disclosed a lamp device including a longitudinal axis, a first elongate electrical connector and a second elongate electrical connector, each of the first elongate electrical connector and the second elongate connector being non-parallel with respect to the longitudinal axis. The present lamp device provides a reliable electric connection on the one hand, yet is relatively inexpensive, uncomplicated and simple to implement on the other hand.
42 - Scientific, technological and industrial services, research and design
Goods & Services
Equipment for the treatment, disinfection, purification, and/or sterilization of water and other fluids; water treatment equipment for industrial, commercial and municipal use; parts and fittings for all the aforesaid goods. Providing online facilities for real time interaction between computer users; transfer and dissemination of information in the field water and fluid treatment equipment via computer networks; advisory, consultancy and information services in relation to all the aforesaid services. Research and development in the field of water and other fluid treatment equipment; hosting of websites; technical support services for computer hardware, software and equipment for the treatment, disinfection, purification and/or sterilization of water and other fluids for industrial, commercial and municipal use; advisory, consultancy and information services in relation to all the aforesaid services.
40 - Treatment of materials; recycling, air and water treatment,
42 - Scientific, technological and industrial services, research and design
Goods & Services
Drinking water purification and/or sterilization system services; information support and advisory services relating thereto; provision of consumer information support and advice in the field of the purification and/or sterilization of drinking water. Research and development in the field of drinking water purification and/or sterilization equipment; transfers and dissemination of information in the field of drinking water and purification and/or sterilization equipment via computer networks; hosting of websites; technical support services for computer hardware, software and equipment for the purification and/or sterilization of drinking water for commercial and residential use.
There is disclosed a lamp device including a longitudinal axis, a first elongate electrical connector and a second elongate electrical connector, each of the first elongate electrical connector and the second elongate connector being non-parallel with respect to the longitudinal axis. The present lamp device provides a reliable electric connection on the one hand, yet is relatively inexpensive, uncomplicated and simple to implement on the other hand.
(1) Water treatment equipment for industrial, commerical and municipal use namely, a UV reactor for the disinfection and treatment of water and waste water.
40 - Treatment of materials; recycling, air and water treatment,
Goods & Services
Equipment for the treatment, disinfection, purification and/or sterilization of water and other fluids for industrial, commercial, municipal and residential use. Fluid treatment system services; information support and advisory services relating thereto; provision of consumer information, support and advice in the field of the treatment, purification, disinfecting and/or sterilization of water and other fluids.
40 - Treatment of materials; recycling, air and water treatment,
42 - Scientific, technological and industrial services, research and design
Goods & Services
Equipment for the treatment, disinfection, purification and/or sterilization of water and other fluids for industrial, commercial, municipal and residential use. Fluid treatment system services; information support and advisory services relating thereto. Provision of consumer information support and advice.
