Class / Patent application number | Description | Number of patent applications / Date published |
122451000 | FEEDERS | 22 |
20080302315 | High-efficiency water heater dip tube and method for reducing turbulence in water heaters - A high-efficiency water heater dip tube includes a wall having orifices formed therein for conducting an outflow of relatively colder water from the dip tube into relatively hotter water in an interior of a water heater. The orifices have a size, number, shape, pattern and location for at least minimizing turbulence, for reducing admixing near the tube, for diluting, equalizing and blending efflux flow and for reducing outflow force and speed. A method for reducing turbulence in water heaters includes providing a dip tube including a wall having orifices formed therein, conducting an outflow of relatively colder water from the dip tube into relatively hotter water in an interior of the water heater, and selecting a size, number, shape, pattern and location of the orifices for at least minimizing turbulence, reducing admixing near the tube, diluting, equalizing and blending efflux flow and reducing outflow force and speed. | 12-11-2008 |
20090159018 | SYSTEM AND METHOD FOR CONTROLLING LIQUID LEVEL IN A VESSEL - A system includes sensors configured to measure parameters related to a vessel including liquid level, gas flow rate, pressure in the vessel, temperature of the vessel, and feed-liquid flow rate. A signal processing unit receives sensor output signals and generates a first filtered output signal representative of liquid level, a second filtered output signal representative of gas flow rate, a third filtered output signal representative of feed-liquid flow rate, a fourth filtered output signal representative of vessel pressure, and a fifth filtered output signal representative of vessel temperature. A flow demand control unit receives the first filtered output signal and generates an output signal representative of feed-liquid flow demand. A shaping unit receives the second, fourth, and fifth filtered output signal and generates an output signal representative of shaped gas flow rate as a function of pressure, temperature, or combination thereof in the vessel. A liquid level control unit controls the liquid level within predetermined limits by controlling one or more components based on the output signals from the flow demand control unit, the shaping unit, and the third filtered output signal. | 06-25-2009 |
20090293819 | REMOTE WATER SHUT-OFF DEVICE - Described herein, is a device and system for remotely shutting off the supply of water to water heaters, thereby preserving a reservoir of potable water within the water heater during exigent times. An “off” signal may be sent within a region, thereby preventing the further flow of water into water heaters when the water supply has become contaminated. The device includes an antenna for receiving signals, a valve unit, and a solenoid capable of opening and closing the valve unit upon the receipt of “on” and “off” signals. The device may be battery operated and may sound a warning alarm when activated and/or when the batter is low. Also described, is a method of preserving a potable reservoir of water within a water heater upon the water supply leading to the water heater becoming contaminated. | 12-03-2009 |
20100126433 | LIQUID LEVEL CONTROL SYSTEM - A water level control system for enhancing the controllability of the level of water retained in a steam drum. A water level control section of the system determines the volume of retained water in a steam-water separator from a detected steam flow rate signal by using a function operator and a first order lag circuit, determines a signal representing the mass flow rate balance of water in the steam-water separator by differentiating the volume of retained water with respect to time with a differentiator, generates a compensated signal by adding the signal to the difference between a detected feed water flow rate signal and the detected steam flow rate signal, and properly compensates a valve area demand for a feed water flow control valve. | 05-27-2010 |
20110041782 | PORTABLE STEAM AND HEAT GENERATOR FOR PEST CONTROL - The present invention describes numerous improvements in steam generating apparatus for pest control. In one aspect, an improved cart arrangement for such an apparatus is described. Other aspects include improved valves, nozzles and other improvements to increase the efficiency of the steam generating apparatus. | 02-24-2011 |
20110214623 | APPARATUS FOR RECOVERING RE-EVAPORATED STEAM AND CONDENSATE - The present invention relates to an apparatus for recovering re-evaporated steam and condensate, and in particular, to an apparatus for mixing the steam re-evaporated from condensate that is discharged from a heating unit for heating an object to be treated, with high-temperature steam supplied from a boiler, and for resupplying the mixed steam to the heating unit. To this end, the apparatus comprises: a steam recovery unit for recovering the condensate discharged from a heating unit for heating an object to be treated, and the steam re-evaporated from the condensate, and then supplying the recovered re-evaporated steam to a steam-pressurizing unit and the recovered condensate to a boiler; and the steam-pressurizing unit for mixing the re-evaporated steam supplied from the steam recovery unit, with high-temperature steam supplied from the boiler and then supplying the mixed steam to the heating unit. Therefore, with a closed circuit, the apparatus can recover the whole quantity of the re-evaporated steam and condensate for use, prevent the release of steam into the air and utilize a latent heat contained in the condensate, thereby improving the efficiency of energy consumption. | 09-08-2011 |
20110232588 | Integrated system for vapor generation and thin film deposition - An apparatus and method for generating vapor from a liquid precursor for a thin film deposition on a substrate includes an inlet section in fluid communication with a downstream vaporization chamber section. The inlet section comprises a gas inlet for receiving gas from a gas source through a gas flow sensor and a gas flow control valve and a liquid inlet for receiving liquid from a liquid source through a liquid flow sensor and a liquid flow control valve. An electronic controller controls the gas and liquid flow control valves thereby controlling the rates of gas and liquid flow into the inlet section to generate vapor in the downstream vaporization chamber section for thin film deposition on the substrate. | 09-29-2011 |
20120017851 | GEARED BOILER FEED PUMP DRIVE - A geared fluid drive arrangement in which a constant speed motor is used to start a “full-size” boiler feed pump, and is able to operate the pump at a limited speed and correspondingly limited power adequate to fill, pressurize and feed water to a boiler such as would be used for an electrical generating plant to start-up and to operate stably at part load, but not necessarily full load. After the boiler is operating stably, steam from the boiler or from an extraction point of the main turbine is admitted to a mechanical drive steam turbine in order to drive the same “full-size” pump to the normal operating range. | 01-26-2012 |
20130152877 | METHOD FOR REDUCING THE OXYGEN CONTENT IN STEAM GENERATOR WALL TUBES - In a method for reducing the oxygen content in the flow volume of tubes of erected and installed tube wall regions or tube wall segments of a steam generator or steam boiler of a power station fired, in particular, with carbon-containing fuel, a solution is to be provided which eliminates or at least diminishes the problem of the incorporation of atmospheric oxygen into the boiler water which arises when tubes of the steam generator wall are being filled with boiler water and/or when boiler water is being discharged from these tubes. This is achieved in that an inert gas or an inert gas mixture is introduced into tubes of the tube wall regions or tube segments, through which boiler water or steam formed from this flows when the power station is in operation, before filling with boiler water or steam, in a way whereby gaseous oxygen present in the respective flow volume of the tubes, particularly in the form of atmospheric oxygen, is displaced, and/or an inert gas or an inert gas mixture is introduced during a discharge of boiler water or steam from the respective flow volume of the tubes, in a way whereby the free volume occurring is filled. | 06-20-2013 |
20130312674 | Integrated system for vapor generation and thin film deposition - An apparatus and method for generating vapor from a liquid precursor for a thin film deposition on a substrate includes an inlet section in fluid communication with a downstream vaporization chamber section. The inlet section comprises a gas inlet for receiving gas from a gas source through a gas flow sensor and a gas flow control valve and a liquid inlet for receiving liquid from a liquid source through a liquid flow sensor and a liquid flow control valve. An electronic controller controls the gas and liquid flow control valves thereby controlling the rates of gas and liquid flow into the inlet section to generate vapor in the downstream vaporization chamber section for thin film deposition on the substrate. | 11-28-2013 |
20140338615 | DRAINAGE COLLECTION SYSTEM - There is provided a drain recovery system with which power for driving a feedwater pump can be reduced and the feedwater pump can be driven at low costs. The drain recovery system includes: a buffer tank; an assist tank disposed below the buffer tank; a first drain supply line that connects a load device and the buffer tank; a second drain supply line that connects the buffer tank and the assist tank; a drain supply valve; a communication line that establishes communication between the assist tank and the buffer tank; a communication valve; a steam supply line that supplies steam from a boiler to the assist tank; a steam supply valve; a feedwater line that supplies drain from the assist tank to the boiler; and a feedwater pump. | 11-20-2014 |
20140345545 | BOILER - The boiler is provided with: a boiler body in which the water level inside water pipes when combustion is stopped is lower than the upper ends of the water pipes; external water level detection means which communicates with upper and lower headers and detects a boiler body external water level; control means which controls the water supply means so as to lower the water level inside the boiler body when the water level detected by the external water level detection means reaches a first set water level; and header water level detection means which detects a water level existing inside the upper header by boiler water being pushed up by air bubbles. The control means controls the water supply means so as to lower the water level inside the boiler body when the water level detected by the header water level detection means reaches a second set water level. | 11-27-2014 |
20150013623 | BOILER - A boiler is provided with: a boiler body in which the water level inside water pipes when combustion by a burner is stopped is lower than the upper ends of the water pipes; water supply means; control means which controls the water supply means depending on the water level in the boiler body; header water level detection means which detects a water level existing inside an upper header; and a downcast pipe. The control means performs first control for controlling the water supply means so as to lower a boiler body water level when the water level detected by the header water level detection means reaches a header set water level and second control for controlling the water supply means so as to raise the boiler body water level when the amount of drop in the boiler body water level reaches a predetermined amount after the first control. | 01-15-2015 |
20150047580 | SEPARATORLESS BOILER - The separatorless boiler includes a downcomer pipe ( | 02-19-2015 |
20160084496 | SEPARATORLESS BOILER - The separatorless boiler includes a downcomer pipe ( | 03-24-2016 |
20160097529 | SUPERHEATED STEAM GENERATOR - The present invention intends to suppress energy consumption despite making it possible to generate superheated steam in a short period of time. Specifically, the present invention includes: a steam generating part that generates steam; a superheated steam generating part that generates superheated steam; and an on/off valve that switches the supply of the steam to the superheated steam generating part or the stop of the supply, wherein the on/off valve switches the supply of the steam or the stop of the supply, and thereby switching is performed between a waiting state that is a state where the steam generating part generates the steam and a state where the supply of the steam is stopped, and a supply state where the steam is supplied to the superheated steam generating part. | 04-07-2016 |
122000000 | Automatic | 3 |
122451100 | Thermally controlled | 3 |
20100288210 | Method for operating a once-through steam generator and forced-flow steam generator - A method for operating a once-through steam generator including an evaporator heating surface is provided. A target value for the supply water mass flow is fed to a device for setting the supply water mass flow, which is predefined using the ratio of the heat flow currently being transferred in the evaporator heating surface from the hot gas to the flow medium to a target enthalpy increase predefined with respect to the desired live steam condition of the flow medium in the evaporator heating surface. A forced-flow steam generator used for carrying out the method is also provided. The heat flow transferred from the hot gas to the flow medium is ascertained for this purpose allowing for a specific temperature value characteristic of the current temperature of the hot gas at the evaporator inlet and a specific mass flow value characteristic for the current mass flow of the hot gas. | 11-18-2010 |
20110139094 | Method for operating a continuous flow steam generator - A method for operating a continuous flow steam generator with an evaporator heating surface is provided. A target value for a supply water mass flow is fed to a device for adjusting the supply water mass flow. In order to improve the quality of a predictive supply water or mass flow control and to maintain the enthalpy of the flow medium at the evaporator outlet particularly stable especially when load changes occur, a correction factor is taken into consideration during production of the target value for the supply water mass flow. The correction factor is a characteristic of the temporal derivative of enthalpy or the density of the flow medium at the input of one or more heating surfaces. | 06-16-2011 |
20130133594 | STEAM GENERATION SYSTEMS AND METHODS FOR CONTROLLING OPERATION OF SAME - A method for controlling the operation of a steam generation system is provided. Fluid flow is channeled from at least one first boiler within at least one conduit. Fluid flow is added within the conduit from at least one second boiler. At least one operating condition within the first and second boilers is detected. A fluid pressure set point and/or a fluid temperature set point for each boiler is determined based on the operating condition detected for each boiler. A fluid pressure and/or a fluid temperature is maintained within the first and second boiler to be approximately equal to the fluid pressure set point and the fluid temperature set point for each boiler, respectively, prior to fluid flow being channeled and/or during the channeling of fluid flow from the first boiler and/or the second boiler within the conduit to a steam process and/or at least one steam turbine engine. | 05-30-2013 |
122452000 | Boiler pressure | 1 |
20130284122 | AUTOMATIC WATER SUPPLY-TYPE STEAM GENERATOR USING VAPOR PRESSURE - The present invention relates to an automatic water supply-type steam generator using vapor pressure for creating the optimum vacuum pressure inside a pressurized water supply tank, and for smoothly providing water to the pressurized water supply tank by using the strong aspiration force that is created by means of the vacuum pressure while continuously generating steam. The present invention is characterized by allowing control of the vacuum pressure to the optimum state when creating the vacuum pressure inside the pressurized water supply tank by introducing an adequate amount of outside air from the atmosphere through an air vent. In addition, the present invention is characterized by providing a means for cooling the pressurized water supply tank so as to control the vacuum pressure inside the tank to the optimum state. | 10-31-2013 |
122000000 | Gravity | 2 |
122456000 | Automatic | 2 |
20130074787 | STEAM GENERATION DEVICE FOR AUTOMATIC WATER SUPPLY USING SELF VAPOR PRESSURE - The present invention relates to a steam generation device for automatic water supply using self vapor pressure that continuously generates necessary steam while smoothly supplying water to a steam tank by using a self vapor pressure stored in the steam tank as well as minimizes heat loss in a process of generating steam to outside thereby reducing energy consumed in generating steam, and more particularly, to a steam generation device for automatic water supply using self vapor pressure that supplies water more smoothly through a control method of opening a water supply pressure tank only after the water supply pressure tank is supplied with sufficient vapor pressure. | 03-28-2013 |
20150144076 | Heat Recovery Vapor Trap - A heat recovery vapor trap is provided for removal of vapor condensate from a container, while preventing any appreciable escape of vapor, and for achieving beneficial heat recovery from said condensate prior to temperature degradation associated with depressurization, whereby useful heating to much higher temperature is possible. The trap is indirect acting, and is preferably mechanically actuated by a float. | 05-28-2015 |