Having Plural Fireboxes Patents (Class 122/240.1)
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Patent number: 10954854Abstract: A hybrid power plant system including a gas turbine system and a coal fired boiler system inputs high oxygen content gas turbine flue gas into the coal fired boiler system, said gas turbine flue gas also including carbon dioxide that is desired to be captured rather than released to the atmosphere. Oxygen in the gas turbine flue gas is consumed in the coal fired boiler, resulting in relatively low oxygen content boiler flue gas stream to be processed. Carbon dioxide, originally included in the gas turbine flue gas, is subsequently captured by the post combustion capture apparatus of the coal fired boiler system, along with carbon diode generated by the burning of coal. The supply of gas turbine flue gas which is input into the boiler system is controlled using dampers and/or fans by a controller based on an oxygen sensor measurement and one or more flow rate measurements.Type: GrantFiled: August 26, 2019Date of Patent: March 23, 2021Assignee: Mitsubishi Power Americas, Inc.Inventors: Song Wu, Allan Kukoski, Yasushi Fukuizumi
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Patent number: 10551053Abstract: A fired heater with a film temperature optimizer is presented. The fired heater is for heating a process fluid in process coils within the fired heater. The process coils experience high temperatures at the outlets. The film temperature optimizer includes baffles or means for changing the flow of the fired heating gas around the process coils near the coil outlets. The baffles are positioned near the process coil outlets.Type: GrantFiled: October 27, 2017Date of Patent: February 4, 2020Assignee: UOP LLCInventors: Quan Yuan, Rajeswar Gattupalli, Matthew Martin, Michael J. Vetter
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Patent number: 10393018Abstract: A hybrid power plant system including a gas turbine system and a coal fired boiler system inputs high oxygen content gas turbine flue gas into the coal fired boiler system, said gas turbine flue gas also including carbon dioxide that is desired to be captured rather than released to the atmosphere. Oxygen in the gas turbine flue gas is consumed in the coal fired boiler, resulting in relatively low oxygen content boiler flue gas stream to be processed. Carbon dioxide, originally included in the gas turbine flue gas, is subsequently captured by the post combustion capture apparatus of the coal fired boiler system, along with carbon diode generated by the burning of coal. The supply of gas turbine flue gas which is input into the boiler system is controlled using dampers and/or fans by a controller based on an oxygen sensor measurement and one or more flow rate measurements.Type: GrantFiled: June 2, 2016Date of Patent: August 27, 2019Assignee: Mitsubishi Hitachi Power Systems Americas, Inc.Inventors: Song Wu, Allan Kukoski, Yasushi Fukuizumi
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Patent number: 10330340Abstract: An apparatus for a fired heater is presented. The fired heater is designed with a plurality of process coils inside a shell, and with a positioning of the burners for reducing the size of the fired heater. The shell has a general rectangular prismatic shape with combustion inlets for admitting combustion gases from the burners, and the process coils include at least two inlet ports and at least one outlet port.Type: GrantFiled: October 30, 2017Date of Patent: June 25, 2019Assignee: UOP LLCInventors: Quan Yuan, Rajeswar Gattupalli, Ka Lok, William M. Hartman, Bryan J. Egolf
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Patent number: 9416685Abstract: A combined cycle plant (10) including: a gas turbine engine (12) having a compressor (14), a combustor and a gas turbine (16); a heat recovery steam generator (20) (HRSG) configured to receive exhaust from the gas turbine engine; a steam turbine (22, 24) configured to receive steam from the HRSG; a supplemental air arrangement (40) configured to generate supplemental heated air (42) when operating and to operate independent of the gas turbine engine; and a kettle boiler (26, 28) configured to use heat from the supplemental heated air to generate steam used in the steam turbine.Type: GrantFiled: January 6, 2014Date of Patent: August 16, 2016Assignee: SIEMENS ENERGY, INC.Inventors: James H. Sharp, Michael Scheurlen, Monica B. Hansel
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Publication number: 20150114313Abstract: A hot water supply system provided on a water pipeline, which includes a water inflow side and a water outlet side. The hot water supply system includes a plurality of water heaters; each includes a conduit, a heating device, a calculating unit, and a control unit. The conduit includes an inlet section, an outlet section, and a heating section in sequence, wherein the inlet section and the outlet section are connected with the water inflow side and the water outflow side respectively; the heating device heats the heating section; the calculating unit estimates a heating workload needed. If the heating workload of any water heater exceeds a predetermined upper limit workload thereof, the control unit of one water heater controls the other idle heating device to heat water, which ensures that water temperature of water provided to the water outflow side would reach a demanded water temperature.Type: ApplicationFiled: April 24, 2014Publication date: April 30, 2015Applicant: GRAND MATE CO., LTD.Inventors: CHUNG-CHIN HUANG, CHIN-YING HUANG, HSIN-MING HUANG, HSING-HSIUNG HUANG, YEN-JEN YEH, KUAN-CHOU LIN
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Publication number: 20150034024Abstract: Modern steam generators typically include a radiant section and a convection section. Due to differing performance requirements of the radiant and convection sections, the radiant section often has a round cross-section, while the convection section often has a rectangular cross-section. Previous designs utilized a target wall to effect the transition. An angled transition section is disclosed herein that substantially eliminates the target wall and/or the reverse target and provides a corresponding improvement in steam generator efficiency.Type: ApplicationFiled: September 12, 2013Publication date: February 5, 2015Applicants: Aera Energy LLC, PCL Industrial Services, Inc.Inventors: Garry Loren Barker, Mark Elmer Pittser, Zachary Mark Smith
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Patent number: 8900522Abstract: The invention relates to an ethylene cracking furnace having a multi-pass radiant coil, comprising at least one radiant section. In the radiant section there are provided with bottom burners and/or sidewall burners, and at least one set of multi-pass radiant coil longitudinally arranged in the radiant section. The multi-pass radiant coil is a four- to ten-pass type radiant coil. At least one tube of the multi-pass radiant coil is arranged to be spatially adjacent to a tube which is not consecutive to said at least one tube. With this arrangement, the thermal radiation influence between tubes with high temperature can be reduced, so that the tubes with low temperature can absorb the radiation heat from the tubes with high temperature. Therefore, the surface temperature of the tubes with high temperature can be reduced, thus extending the lifetime of the radiant coil and the operational cycle of the cracking furnace.Type: GrantFiled: October 26, 2010Date of Patent: December 2, 2014Assignees: China Petroleum & Chemical Corporation, SINOPEC Engineering Incorporation, China Petroleum & Chemical Corporation, Beijing Institute of Chemical IndustryInventors: Xiou He, Changli Li, Zhaobin Zhang, Jingkun Liu, Mujun Yuan, Cong Zhou, Yuping Guo, Yonghua Zhao, HainĂ¼ Shen
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Patent number: 7172412Abstract: A pyrolysis heater particularly for the cracking of hydrocarbons in the production of olefins has a burner arrangement in the firebox which includes staged combustion low NOx hearth burners firing upwardly in the firebox adjacent to the walls. Wall stabilizing gas fuel injection tips, located at an elevation above the hearth burners, inject fuel upwardly between the walls and the flame from the hearth burners. This prevents rollover of the flame onto the process heater coil and overheating of the coil.Type: GrantFiled: November 19, 2003Date of Patent: February 6, 2007Assignee: ABB Lummus Global Inc.Inventors: Erwin M. J. Platvoet, Robert John Gartside, Peter Robert Ponzi, Paul Chapman, Frank D. McCarthy