| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 101 | 低压高温蒸汽锅炉 | CN88220160 | 1988-11-19 | CN2038595U | 1989-05-31 | 朱富铭 |
| 本实用新型涉及一种锅炉,特别是一种低压高温蒸汽锅炉。其特征是:煤气发生室、燃烧室、蒸汽过热器和省煤器适当而合理地组合在一起,从燃烧、受热到排烟形成一个完整的系统。本实用新型克服了一般锅炉只能产生饱和蒸汽温度之不足,而可以使蒸汽温度达到更高。本装置的热效率高,污染小,适用于工业和民用。 | ||||||
| 102 | 桥式双流道热管余热回收装置 | CN88203836 | 1988-02-27 | CN2034676U | 1989-03-22 | 王雪梅 |
| 本实用新型是一个桥式双流道余热回收装置,它包括锅筒、“U”形通道,热管与灰筒。热管光管段分别在“U”形通道两边倾斜插入锅筒内并被水浸没,翅片管段量于烟气通道中,一端搭接在尾座上。锅筒上开孔,由固定环将热管从两段交接处固定在锅筒壁上。高温烟气由“U”形通道流过后,将烟气中的热量回收,加热锅筒中的水,产生蒸气送出。 | ||||||
| 103 | 具有三个燃烧室的立式蒸汽锅炉 | CN88209261 | 1988-08-09 | CN2032286U | 1989-02-08 | 王家兴; 乔文敏; 岳和平 |
| 一种具有三个燃烧室的立式蒸气锅炉,它是由底盘、锅炉本体及其前后、顶部的炉墙、控制系统和锅筒组成。锅炉本体内由水套、横集箱连接着两组水管炉排。两组炉排和铸铁炉排与前炉墙构成三个燃烧室。燃烧室的后部与上部是烟道、受热面管、挡烟板和顶部的排烟口形成烟气通道。其优点在于锅炉结构由几个组件组成;简单紧凑;安装检修方便;燃烧完全;消烟除尘;节约能源;占地面积小;压力可达0.4兆帕;使用范围广。 | ||||||
| 104 | 一种节能的热管蒸气锅炉 | CN87209195 | 1987-06-13 | CN87209195U | 1988-03-30 | 毛龙翔 |
| 一种节能的热管蒸气锅炉,它采用传热速度很高的热管作为导热体,炉膛设在锅体内部,烟囱通过锅体中心,炉膛里有活动挡火板。其优点是热效率高,达76%。利用烟囱抽力,即可达到燃烧良好,不用鼓风机,节约了电能。柴、煤都可以烧。规格齐备,适于机关、学校、企业、医院、火车、轮船使用。可提供热水、开水和蒸食品、消毒、取暖用的压力小于0.95公斤/cm2的蒸气。 | ||||||
| 105 | 燃多煤种的卧式快装链条炉排锅炉 | CN86201487 | 1986-02-26 | CN86201487U | 1987-07-08 | 何玉兰; 李辉杰; 粟兆平 |
| 本实用新型解决工业锅炉燃烧无烟煤或劣质烟煤的问题。本锅炉主要对炉膛结构作了改进,采用合理的前、后拱布置,使喉口出口烟速为4.5~6.5米/秒。前拱的高、长比为1.1,覆盖率20~30%。后拱出口烟速6~7米/秒,覆盖率60~70%。采用全封闭式风室,各风室二端装有调风装置。炉尾装有空气预热器。本锅炉煤种适应广;热效率高,II类无烟煤70~75%,I类烟煤78~82%;并符合国家环保规定进入一类地区的使用要求。 | ||||||
| 106 | METHOD AND APPARATUS FOR UTILIZATION OF HOT WATER PLANT WASTE HEAT RECOVERY BY INCORPORATED HIGH TEMPERATURE WATER SOURCE HEAT PUMP | EP16724455.7 | 2016-03-24 | EP3347646A1 | 2018-07-18 | DARKO, Goricanec; KROPE, Jurij; BOZICNIK, Stane |
| The invention relates to a method and apparatus for low temperature waste heat utilization. In the scope of the hot water plant (HWP) there are few low temperature sources, which cannot be used by heat consumer (HC) directly. The method and apparatus for hot water power plant (HWP) waste heat recovery comprises at least one, preferably condensing type heat exchanger (HE), which collects the waste heat for water source high temperature heat pump (HP) employment, wherein a low temperature heat is upgraded to a high temperature heat, hence heat pump (HP) hot water outlet is fed to the boiler in a return line or in a supply line of hot water plant (HWP), wherein the thermal energy balance adjustment of generated heat is executed by adapting the power of said heat pump (HP) and/or by adapting the power of said furnace and/or by adapting the mass flow of the primary heat transfer medium in at least one open loop heating network and/or in at least one closed loop heating circuit in the scope of heat distribution network. | ||||||
| 107 | WATER VAPORIZER WITH INTERMEDIATE STEAM SUPERHEATING PASS | EP08849188 | 2008-11-13 | EP2225524A4 | 2014-06-25 | VALENSA JEROEN; KIMMEL ADAM; REINKE MICHAEL |
| 108 | Wärmetauscher zur Dampferzeugung für ein solarthermisches Kraftwerk | EP09008287.6 | 2009-06-24 | EP2278220B1 | 2014-03-05 | Stahlhut, Jörg, Dipl.-Ing.; Hegner, Wolfgang Dr.; Band, Dirk |
| 109 | Heizflächenanordnung eines Dampferzeugers oder eines Wärmetauschers | EP10189120.8 | 2010-10-27 | EP2345841A1 | 2011-07-20 | Müller, Herbert-Christian; Melles, Günter |
Gegenstand der Erfindung ist eine Heizflächenanordnung eines Dampferzeugers oder eines Wärmetauschers mit ein oder mehreren Heizflächen (110, 112, 310, 312) und/oder ein oder mehreren Heizflächenpaketen (110a, 112a, 210, 212, 310a, 312a, 410, 412), welche aus mehreren parallel zueinander verlaufenden Heizflächenrohren (114, 214a, 214b, 214c, 214d, 214e, 314a, 314b, 314c, 314d, 314e, 314f, 314g, 314h, 314i, 314j, 414a, 414b, 414c, 414d, 414e, 414f, 414g, 414h, 414i, 414j) ausgebildet sind, welche horizontal ausgebildete Bereiche (116, 216, 316, 416) und zwischen zwei horizontal ausgebildeten Bereichen (116, 216, 316, 416) jeweils einen Umlenkbereich (118, 218, 318, 418) aufweisen, wobei in den horizontal ausgebildeten Bereichen (116, 216, 316, 416) die Heizflächenrohre (114, 214a, 214b, 214c, 214d, 214e, 314a, 314b, 314c, 314d, 314e, 314f, 314g, 314h, 314i, 314j, 414a, 414b, 414c, 414d, 414e, 414f, 414g, 414h, 414i, 414j) zu Heizflächendurchgängen (120, 122, 220, 222, 320, 322, 420, 422) gebündelt angeordnet sind, wobei zwei aneinander angrenzend angeordnete Heizflächendurchgänge (120, 122, 220, 222, 320, 322, 420, 422) jeweils eine Heizflächennadel (124, 224, 324, 424) ausbilden. Erfindungsgemäß ist es vorgesehen, dass ein Heizflächendurchgang (120a, 320a) aufgefächert ausgebildet ist, wobei n Heizflächenrohre (134, 334) des Heizflächendurchganges (120a, 320a) einer ersten Heizfläche (110, 310) oder einer ersten Heizflächennadel (124, 324) und m Heizflächenrohre (136, 336) des gleichen Heizflächendurchganges (120a, 320a) einer zweiten Heizfläche (112, 312) oder einer zweiten Heizflächennadel (124, 324) zugeordnet sind, und/oder, dass zumindest die beiden in einem Umlenkbereich (318) innen liegenden Heizflächenrohre (214a, 214b, 314a, 314b) beidseitig versetzt zueinander und/oder zumindest die beiden in einem Umlenkbereich (418) innen liegenden Heizflächenrohre (414a, 414b, 414c, 414d) einseitig versetzt zueinander angeordnet sind, wobei zumindest ein in dem Umlenkbereich (218, 318, 418) außen liegendes Heizflächenrohr (214c, 214d, 214e, 314c, 314d, 314e, 314f, 314g, 314h, 314i, 314j, 414e, 414f, 414g, 414h, 414i, 414j) die beidseitig versetzt zueinander angeordneten innen liegenden Heizflächenrohre (214a, 214b, 314a, 314b) oder die einseitig versetzt zueinander angeordneten innen liegenden Heizflächenrohre (414a, 414b, 414c, 414d) umgreift.
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| 110 | IMPROVED POUR-IN-PLACE WATER HEATER FOAM INSULATION SYSTEMS | EP97915846 | 1997-02-28 | EP0883776A4 | 2002-06-19 | NEILL PAUL; GREEN BERWYN; REISH RALPH |
| The present invention relates to water heater (12) construction whereby thermal insulation material is foamed in the clearance space between the tank and shell of the water heater, wherein the foamed insulation material has lesser uniformity in cell structure and density and a lesser or smaller density in the upper portion of the volume of foam which is disposed over the top of the inner water tank than in the lower portion of the volume of foam insulation material disposed around the side of the inner water tank. The present invention provides gas and electric water heaters with improved energy efficiency, utilizing a liquid, foam-in-place composite foam insulation system. The present invention further provides an improved method for insulating the annular clearance space between an inner water tank and an outer enclosure of a gas or electric water heater. | ||||||
| 111 | ENERGY CONVERTER USING IMPLODING PLASMA VORTEX HEATING | EP94930510.6 | 1994-09-30 | EP0834039B1 | 2001-01-17 | Jensen, Donald C. |
| A heating system for heating a heat sink via a heat transfer medium. The invention includes a vortex chamber (1) having opposite first (3) and second (4) inwardly curved end walls (3, 4), a combustion chamber (6) fluidly communicating with the vortex chamber (1), fuel-air supply (12, 7) means fluidly communicating with the combustion chamber (6) for injecting fuel-air mixture into the combustion chamber (6). Ignition means (24, 26A) are provided in the combustion chamber (6) for igniting the fuel-air mixture. A fuel ionizing chamber (19) is disposed in the vortex chamber (1) fluidly communicating with the fuel-air supply means (12, 7) for ionizing fuel entering the fuel-air supply means, and heat transfer medium containing means (31) are provided for holding the heat transfer medium in thermal contact with the vortex chamber (1). | ||||||
| 112 | FLUIDIC BURNER | EP95916104 | 1995-03-22 | EP0752082A4 | 1999-01-07 | STUART KEVIN; STOUFFER RONALD D |
| A gas burner comprising a gas manifold feeding an array of fluidic oscillators (49). Each fluidic oscillator has a power nozzle (42) connected to the gas manifold and an outlet for issuing a sweeping jet of gas to ambient. Each fluidic oscillator is spaced a predetermined distance from its neighboring fluidic oscillators and a baffle plate (30) controls air flow to the sweeping jet of gas from each fluidic oscillator. | ||||||
| 113 | METHOD AND APPARATUS FOR CONTROLLABLY GENERATING SIMULATED SMOKE | EP92912745 | 1992-05-28 | EP0587729A4 | 1994-07-20 | KOLASA EMILY E |
| 114 | THERMAL BAFFLE FOR WATER HEATERS AND THE LIKE. | EP86902657 | 1986-04-04 | EP0218684A4 | 1988-02-23 | KALE HEMANT D |
| 115 | Process for combustion of wood fuel and furnace and boiler system for carrying out said process. | EP80901833 | 1981-03-23 | EP0035550A4 | 1982-01-26 | HILL RICHARD C |
| A new and improved stove or furnace for efficient combustion of wood or other solid fuel including a vertical feed combustion chamber (15) for receiving and supporting fuel in a vertical attitude or stack, a major upper portion of the combustion chamber column comprising a water jacket (14) for coupling to a source of water or heat transfer fluid and for convection circulation of the fluid. The locus (31) of wood fuel combustion is confined to the base (30) of the vertical gravity feed combustion chamber. A flue gas propagation delay channel (34) extending laterally from the base of the chamber affords delayed travel time in a high temperature environment sufficient to assure substantially complete combustion of the gaseous products of wood burning with forced air prior to extraction of heat in heat exchanger (16). Induced draft draws the fuel gas an d air mixture laterally through the combustion and high temperature zone. Active sources of forced air (36) and induced draft (38) are included, multiple use circuit couplings for the recovered heat, and construction features in the refractory material substructure (12) and metal component superstructure. | ||||||
| 116 | 一种高效节能燃气蒸汽发生器 | CN202023015202.3 | 2020-12-14 | CN213930889U | 2021-08-10 | 文昌龙; 吕建波 |
| 本实用新型公开了一种高效节能燃气蒸汽发生器,涉及蒸汽发生器技术领域,解决了目前蒸汽发生器在使用过程中,难以清理产生的水垢,以致加热效率降低,造成燃气的浪费的问题,其技术方案要点是:包括水箱和位于水箱底部的加热仓,水箱设置有与其内部相通的排气管,所述水箱内铺设有隔离层;所述隔离层由多个圆环结构的连接环构成,相邻所述连接环之间均扣接;从而提高燃气的加热效率,减少燃气的浪费,节省成本。 | ||||||
| 117 | 一种电站蒸汽流化床锅炉 | CN202021120651.1 | 2020-06-17 | CN212929950U | 2021-04-09 | 不公告发明人 |
| 本实用新型公开了一种电站蒸汽流化床锅炉,包括燃烧炉、水箱、进水口、蒸汽管和支撑腿,所述燃烧炉的内部固定设置有水箱,所述水箱的外部左端固定设置有进水口,所述水箱的底部旋转安装有摇杆,所述摇杆上固定设置有钢刷,所述燃烧炉的底部左右两端固定安装有支撑腿,所述燃烧炉的中部滑动连接有挡板,所述燃烧炉的底部设置有燃烧室,所述燃烧室的外部左侧转动连接有炉门。此电站蒸汽流化床锅炉,可以通过摇杆和钢刷的作用,有效的,快速的清除水箱内部的水锈,还可以通过卡销,对燃烧过后的废渣进行快速清理,同时,按钮的设置可以快速的使过滤板旋出,从而进行清理和维护。 | ||||||
| 118 | 燃气换热机构以及蒸汽发生器 | CN201620227666.5 | 2016-03-23 | CN205504937U | 2016-08-24 | 张明灿 |
| 本实用新型公开了一种燃气换热机构以及蒸汽发生器,其中燃气换热机构包括:外罩,具有锥状的内侧壁,且内侧壁的上端为小径端,外罩顶部具有一排烟口;螺旋盘管,固定在外罩内部,螺旋盘管绕一直线盘旋,且越向上,螺旋盘管距直线的距离越小;燃烧器,安装在外罩内,位于螺旋盘管的下部或正下方,燃烧器用于加热螺旋盘管;第一连接管,与螺旋盘管底部端口连接;第二连接管,与螺旋盘管顶部端口连接。本实用新型通过摈弃原来翅片式热交换器,螺旋盘管的尺寸由下到上逐渐变小,与外罩锥状的内侧壁相适配,这样就减少了热能的损耗和极大浪费,同时又提高了热交换速度。 | ||||||
| 119 | 燃烧煤粉的相变炉 | CN200820231119.X | 2008-12-30 | CN201407639Y | 2010-02-17 | 杨沛胥; 刘刚; 闵建权; 张伟东; 拓丽 |
| 本实用新型涉及一种相变炉,尤其是涉及一种燃烧煤粉的相变炉;包括蒸汽发生器,蒸汽发生器上部依次设有换热器和压力控制器,蒸汽发生器壳体外部下侧设置炉墙,炉墙内部空间为燃烧室,燃烧室底部设置炉膛底板,炉膛底板下部设渣坑,燃烧室一侧设有燃烧口,另一侧设有排烟口,其特征在于:该燃烧口外接煤粉燃烧器;本实用新型结构上适合以煤粉为燃料,利用煤粉颗粒小,燃烧迅速、完全、容量大等特点,燃烧热效率高,排烟含尘量低、不冒黑烟,结构简单,操作、使用、维修方便,运行安全可靠,运行费用、能耗低。 | ||||||
| 120 | 节能炉头 | CN200920009928.0 | 2009-02-19 | CN201370444Y | 2009-12-30 | 黄建东 |
| 本实用新型提供一种节能炉头,包括连接有点火口、排烟口和煤气管道的具有中空内腔的炉头,炉头的底面具有出火口,炉头上方设有连接有进水口和蒸汽出口的水箱,其特征在于:炉头内腔侧壁上固设有向内突起的铁质凸块。所述的铁质凸块均设置于炉头内腔侧壁的上半部分。上述技术方案的有益之处在于:设置在炉头内腔侧壁的铁质凸块可以受到炉头内火焰的加热,并将热量传导到炉头侧壁再传导到炉头上方的水箱侧壁,从而提高炉头的加热效率。 | ||||||
