M343971 八、新型說明: 【新型所屬之技術4員域】 ^創作係=關〜種降低發電機冷卻水溫度提升機組效 ^ π構尤和種藉由發電機之冷卻水以及熱回收鍋爐 之飼水進行熱交換之結構。 【先前技術】 —如第3圖所示’為習用之發電機冷卻水系統,如圖中所 :’發電機之冷卻水系統是經由冷卻風扇帶動大氣,使空 氣和管内之冷卻水做熱交換,加以強制冷卻管内之冷卻 水’如附件1之資料可見,制發電機冷卻水系統之冷卻 水溫度由46〇C(1Q() kg/s)(設計值為42。〇降至肌(設 。十值為37 C)後,冷卻水制以冷卻發電機之潤滑油及空 氣。 、惟,風扇冷卻系統由於鰭片老化及堵塞導致冷卻效果 遷減,致使冷卻錢it; Π溫度較設計值分別提升代及6 C,且利用冷卻風扇來將冷卻水降溫必須耗費大量之電 力,相對的電費成本提高。 另外,請參閱第4圖,其係習用之熱回收鎮爐飼水系 統流程圖,由圖中可見,冷凝1出口給予格蘭熱交換器之 匈水係藉由後端之鍋爐飼水槽將部份高溫之飼水回流混 S,使進入格蘭熱父換器之飼水可預先提高,由圖中可見, 於混合别之飼水溫度為39· 5°c,於混合後可達65¾,而此 〜溫度差仍具有改善而使其二者更接近之空間。 因此,如何降低發電機冷卻水降溫所需用電,並可於 5 M343971 水样槽之㈣铜水前提高詞水溫度’使銷爐飼 =口抓之财可相對減少而降低冷凝水循環泵 f加發電量即為本創作所欲解決之重點所在。 【新型内容】 降低目的’在於解決上述的問題而提供-種 ::繼與熱回收鍋爐飼水系統間具有 輸出,故冷卻水冷卻 冷卻器鰭片老化及堵塞等影響冷卻效率生 電機冷卻“節省發電機強制冷卻風扇組所需之用電,= 收鍋爐之飼水於混合鍋爐飼水槽之高溫; U飼水2度崎低冷凝水循· H 』先 為達前述之目的,本創作係包括: 二發電機冷㈣統’此發電機冷㈣統具有數以 機冷卻器,並具有至少-亦由冷卻:循 皿之·油冷卻器,㈣發電機冷卻器以及潤 部器之冷=权π前端設有—發錢強制冷卻風扇組:ς 此風扇組前端設有一可控制冷卻水流通之控制閥。 ; -熱回收鋼爐飼水系統,其具有至少—提供飼水 回收鋼爐之冷凝錢,於此冷凝水泵飼水出^連接—供朝' 水預熱之格®熱交換H,於格賴交換器後端連接一鴻^ 熱交換器,俾供飼水於預熱後進入熱回收鍋爐中。/ 7 6 M343971 一供發電機冷卻水鱼 裝置’其係設於發電機;;水熱交換之熱交換 間,此熱交換裝置包括—連、^、、’、一 ”、、回收鍋爐飼水系統之 冷卻水入口、-連通於該發卻器與控制閱間之 卻器間之冷卻水出Π、且強制冷2風扇組與該二冷 於冷凝水泵流向洩水熱交換器之2於則後分別具有連通 水出口。 ° 之飼水入口以及一飼 藉此,冷卻水與飼水於該熱交M343971 VIII, new description: [New technology 4 member domain] ^Creation system = off ~ kind of reduce generator cooling water temperature to improve the efficiency of the unit ^ π structure and the kind of water by the generator cooling water and heat recovery boiler The structure in which water undergoes heat exchange. [Prior Art] - As shown in Figure 3, it is a conventional generator cooling water system, as shown in the figure: 'The cooling water system of the generator drives the atmosphere through a cooling fan to exchange heat between the air and the cooling water in the tube. The forced cooling water in the cooling pipe is as shown in the attached data. The cooling water temperature of the generator cooling water system is 46〇C (1Q() kg/s) (design value is 42. 〇 down to the muscle (set After the ten value is 37 C), the cooling water is used to cool the lubricating oil and air of the generator. However, the cooling effect of the fan cooling system is reduced due to the aging and blockage of the fins, resulting in cooling money. It is necessary to increase the generation and 6 C separately, and it is necessary to use a cooling fan to cool the cooling water, which requires a large amount of electric power, and the relative electricity cost is increased. In addition, please refer to Fig. 4, which is a flow chart of the conventional heat recovery town furnace feeding system. It can be seen from the figure that the condensing 1 outlet is given to the Hungarian water system of the Grand Heat Exchanger. The high-temperature feed water is mixed and mixed by the back-end boiler feed water tank, so that the feed water entering the Granger heat exchanger can be advanced. Improve, as can be seen from the figure, The temperature of the mixed feed water is 39·5°c, which can reach 653⁄4 after mixing, and the temperature difference still improves and brings them closer to each other. Therefore, how to reduce the cooling water cooling of the generator is needed. Electricity, and can improve the word water temperature before the (4) copper water in the 5 M343971 water sample tank, so that the fuel consumption of the sluice water circulation pump and the power generation can be reduced. [New content] The purpose of reducing 'is to solve the above problems is provided--: After the output with the heat recovery boiler feed water system, the cooling water cooling cooler fins aging and blockage affect the cooling efficiency of the motor cooling “Save the electricity required for the forced cooling fan unit of the generator, = the high temperature of the feed water of the boiler in the feed water tank of the mixing boiler; U feed water 2 degrees low condensate water circulation · H 』 first for the purpose of the above, this creation The system includes: two generators cold (four) system 'this generator cold (four) system has several machine coolers, and has at least - also by cooling: according to the oil cooler, (four) generator cooler and cold = right π front end has - hair Money forced cooling fan group: ς The front end of the fan unit is provided with a control valve for controlling the circulation of cooling water. - The heat recovery steel furnace water feeding system has at least the condensation money for the feed water recovery steel furnace. The feed water is connected to the water-heating H, and the heat exchanger H is connected to the back of the Gree exchanger. The feed water is preheated and then enters the heat recovery boiler. 6 M343971 A generator cooling water fish device 'is installed in a generator; a heat exchange room for water heat exchange, the heat exchange device includes -lian, ^,, ', one", and a recovery boiler feed water system a cooling water inlet, a cooling water flowing between the hair conditioner and the control room, and a strong cooling 2 fan group and the second cooling water flowing to the water discharge heat exchanger Has a connected water outlet. ° Feed water inlet and one feed, cooling water and feed water in the heat
俾供冷卻水於進入該二冷卻 /進仃熱父換, 度,且供飼水於進入格鬥冷部前降至適當之溫 又上们水於進入格蘭熱父換器前先行預熱声 本創作之上述及其他目的與優點, /恤度。 實施例之詳細說明與附圖中,獲得深人了 ^下4所選用 當然,本創作在某些另件上,或另件之安排 所不同,但所選用之實施例,則於本說明書中 = 說明,並於附圖中展示其構造。 "旧 【實施方式】 —請參閱第1®至第2圖’圖巾所示者為本創作所選用 之實施例結構,此僅供說明之用,在專利申請上並不受此 種結構之限制。 本實施例提供一種降低發電機冷卻水溫度提升機組效 率之結構,其係包括: 一發電機冷卻系統1,此發電機冷卻系統1具有數發 電機冷卻器1 1,此數發電機冷卻器1 1利用冷卻水循環 降溫(於本實施例中具有四座),此發電機冷卻系統1另具 7 M343971 有至少一潤滑油冷卻器1 2 (於本實施例中為一座),此潤 滑油冷卻器1 2亦由冷卻水循環降溫。於該發電機冷卻器 1 1以及潤滑油冷卻器12二者之冷卻水入口前端設有一 發電機強制冷卻風扇組1 3,俾供冷卻經由發電機冷卻器 1 1以及潤滑油冷卻器1 2二者於熱交換後流出之冷卻 水。另於此風扇組1 3前端設有一控制閥1 4,此控制閥 14俾供控制冷卻水流通至該發電機強制冷卻風扇組工 3。於本實施例中,該發電機強制冷卻風扇組1 3包含四 • 具以馬達驅動之冷卻風扇1 3 1,而各該冷卻風扇i 3工 分別具有四具驅動馬達丄3 2驅動該冷卻風扇i 3 i運 轉。 一熱回收麵爐飼水系統2,其具有至少一冷凝水栗2 1 ’俾供供飼水予熱回收鍋爐2 2使用,於此冷凝水系2 1飼水出口連接一格蘭熱交換器2 3,此格蘭熱交換器2 3係供飼水於送入熱回收鍋爐2 2前先行預熱,於格蘭熱 父換器2 3後端連接一洩水熱交換器2 4,藉此熱回收鋼 鲁爐飼水系統2俾供飼水於預熱後進入熱回收鋼爐2 2中。 一熱交換裝置3,此熱交換裝置3係供發電機冷卻水 • 與熱回收鋼爐2 2飼水進行熱交換,其係設於發電機冷卻 系統1與熱回收鍋爐飼水系統2之間,此熱交換裝置3包 括一冷卻水入口 3 1,此冷卻水入口 3 1係連通於該二冷 卻器1 1、1 2流經該控制閥14之間;一冷卻水出口 3 2 ’此冷卻水出口32係連通於該發電機強制冷卻風扇組 1 3流經該二冷卻器1 1、1 2之間;一飼水入口 3 3與 8 M343971 一飼水出D q / 於冷凝水 此飼水入口 3 3與飼水出口 3 4係連通 斛= 2 1與洩水熱交換器2 4之間。於本實施例中俾The cooling water is used to enter the two cooling/intake heat fathers, and the feeding water is lowered to the appropriate temperature before entering the cold part of the fighting. The water is preheated before entering the Granger heat exchanger. The above and other purposes and advantages of this creation, / degree. For the detailed description of the embodiments and the drawings, it is of course selected for the use of the present invention. The creation is different on some of the components, or the arrangement of the other components, but the selected embodiments are in this specification. = Description and its construction is shown in the drawing. "Old [Implementation]—Please refer to the 1® to 2nd drawings. The figure shown in the figure is the structure of the embodiment chosen for this creation. This is for illustrative purposes only and is not subject to this structure in patent applications. The limit. The embodiment provides a structure for reducing the cooling water temperature of the generator to improve the efficiency of the unit, and the system includes: a generator cooling system 1 having a plurality of generator coolers 1, and the number of generator coolers 1 1 Using cooling water circulation to cool down (in this embodiment, there are four seats), the generator cooling system 1 has 7 M343971 at least one lubricating oil cooler 12 (in this embodiment, one), the lubricating oil cooler 1 2 is also cooled by the cooling water circulation. A generator forced cooling fan group 13 is disposed at the front end of the cooling water inlet of the generator cooler 1 1 and the lubricating oil cooler 12, and is cooled by the generator cooler 1 1 and the lubricating oil cooler 1 2 Cooling water that flows out after heat exchange. In addition, a control valve 14 is disposed at the front end of the fan unit 1 3, and the control valve 14 is configured to control the cooling water to flow to the generator forced cooling fan assembly 3. In the embodiment, the generator forced cooling fan group 13 includes four motor-driven cooling fans 133, and each of the cooling fans i3 has four driving motors 丄3 2 to drive the cooling fan. i 3 i is running. A heat recovery noodle furnace feed water system 2 having at least one condensed water chestnut 2 1 '俾 for feeding water to a heat recovery boiler 2 2 for use, where the condensed water system 2 1 feed water outlet is connected to a gran heat exchanger 2 3 The granitic heat exchanger 2 3 series feed water is preheated before being sent to the heat recovery boiler 2 2 , and a drain water heat exchanger 24 is connected to the rear end of the gran heat heat exchanger 2 3 to thereby heat The recycled steel furnace feed water system 2 feed water enters the heat recovery steel furnace 22 after preheating. a heat exchange device 3 for supplying cooling water to the generator • heat exchange with the feed water of the heat recovery steel furnace, which is provided between the generator cooling system 1 and the heat recovery boiler feed system 2 The heat exchange device 3 includes a cooling water inlet 3 1 that communicates with the two coolers 1 1 and 1 2 flowing between the control valves 14; a cooling water outlet 3 2 'cools The water outlet 32 is connected to the generator to force the cooling fan group 13 to flow between the two coolers 1 1 and 1 2; a feed water inlet 3 3 and 8 M343971 a feed water D q / condensed water for feeding The water inlet 3 3 is in communication with the feed water outlet 34 and 之间 = 2 1 and the drain heat exchanger 24 . In this embodiment
器係於冷ί、ϊ換裴置3係一板片式冷卻器,此板片式冷卻 而、内設有供冷卻水與飼水循環時俾供熱量傳遞 相六=2、人換(當然’本實施例中利用板片式冷卻器進行 二2許糸各,熱交換型態其中之一,並非侷限於此一熱交 執> 心亦可利用如殼管式熱交換器或其他可等效替代之 心=換為以達到相同之功效)。且本實施例中,該格蘭熱交 換ί 2 f係連接於該冷凝水泵2 1後方,飼水流經該格蘭 熱父換3後再進人該熱交換裝置3之飼水入口33( 另外’該格蘭熱交換器2 3之位置亦可變換,意即該冷凝 水栗2 1之飼水亦可先流經該熱交換裝置3之飼水入口 3 3進行熱交換後,再由飼水出口 3 4流往格蘭熱交換器2 3 ’飼水於格蘭熱交換器2 3内第二次熱交換後再流往洩 水熱交換器2 4)。 由上述之結構可見,發電機冷卻水係由該二冷卻器1 1、12流出後成為溫度較高之冷卻水,此冷卻水流往該 熱交換裝置3 (板片式冷卻器)之冷卻水入口 3 1,並於 熱交換裴置3 (板片式冷卻器)内流經板片(於圖中未示 )而將熱量傳遞至板片後流經該冷卻水出口 3 2後’再流 往發電機端冷卻該二冷卻器1 1、1 2。而於熱回收鍋爐 飼水系統2端,欲送往熱回收鍋爐2 2之飼水則先進入該 熱交換裝置3 (板片式冷卻器)之飼水入口,旅於熱交換 装置3 (板片式冷卻器)内流經板片(於圖中未示)而將 9 M343971 板片吸收冷卻水之熱量傳至飼水後,攜帶熱量之飼水再萨 由熱交換裝置3 (板片式冷卻器)之飼水出口流出至格^ 熱交換器2 3進行第二次的熱交換後,再送往^收鶴爐 2 2使用。 | 藉由上述之說明可見,發電機冷卻系統i之冷卻水由 該二冷卻器11、12流出時所帶之熱量傳導給予孰回收 鋼爐2 2所欲使用之飼水(其熱交換之過程可參閱附件一 之圖六-板片式熱父換器之工作原理),藉此達到埶交換之 鲁功效,其目的之一在於節省冷卻水冷卻時利用發電機強制 冷卻風扇組1 3之電力,以達到節能之效果,另外,利用 此結構進行冷卻水冷卻不會產生冷卻器鰭片老化堵夷箄 影響冷卻效率之問題’使冷卻水冷卻之溫度差更接近理論 數據·,另外,其目的之二在於,藉上述之結構除可使發電 機冷卻系統1節省發電機強制冷卻風扇組i 3所需之用電 ,更可使熱f㈣爐2 2之飼水於混合喊飼水槽之高溫 飼水前先提高飼水溫度以降低冷凝水循環栗之負荷(實際 擊 實驗之數據請參閱附件一)。 值得一提的是’由該二冷卻器11、12流出帶有熱 量之冷卻水’除可直接流入熱交換褒置3 (板片式冷卻器 )進行熱交換之外,亦可選擇開啟該控制閥i 4,使冷卻 水分別進入熱交換裝置3與發電機強制冷卻風扇組工3中 同時進行冷卻,使冷卻水達到雙重冷卻,而能更有效率的 將溫度降低。 以上所述實施例之揭示係用以說明本創作,並非用以 M343971 限制本創作,故舉凡數值之變更或等效元件之置換仍應隸 屬本創作之範疇。 由以上詳細說明,可使熟知本項技藝者明瞭本創作的 確可達成前述目的,實已符合專利法之規定,爰提出專利 申請。 【圖式簡單說明】 第1圖係本創作之冷卻流程示意圖 第2圖係本創作之風扇冷卻示意圖 • 第3圖係習用之發電機冷卻系統流程示意圖 第4圖係習用之熱回收鍋爐飼水系統流程示意圖 【主要元件符號說明】 (習用部分) 無 (本創作部分) 發電機冷卻系統1 發電機冷卻器11 潤滑油冷卻器12 發電機強制冷卻風扇組1 冷卻風扇131 驅動馬達1 3 2 控制閥1 4 熱回收鍋爐飼水系統2 冷减水果2 1 熱回收鍋爐2 2 格蘭熱交換器2 3 洩水熱交換器2 4 熱交換裝置3 冷卻水入口 3 1 冷卻水出口 3 2 飼水入口 3 3 飼水出口 3 4 11The device is connected to the cold and ϊ 裴 3 3 系 系 系 3 3 3 3 3 , , , , 3 3 3 3 3 3 3 3 = = = = = = = = = = = = = = = = = = = = = = In this embodiment, one of the two types of heat exchange types is used by the plate type cooler, and the heat exchange type is not limited to the heat transfer. The heart can also be used, for example, a shell and tube heat exchanger or the like. The effect of substitution = change to achieve the same effect). In this embodiment, the Glan Heat Exchange ί 2 f is connected to the rear of the condensate water pump 2 1 , and the feed water flows through the Glan Hot Father for 3 and then enters the feed water inlet 33 of the heat exchange device 3 (in addition The position of the granulated heat exchanger 2 3 can also be changed, that is, the feed water of the condensed water chestnut 2 1 can also flow through the feed water inlet 3 3 of the heat exchange device 3 for heat exchange, and then feed. The water outlet 3 4 flows to the Grand Heat exchanger 2 3 'the feed water flows to the drain heat exchanger 2 4 after the second heat exchange in the Grand Heat exchanger 2 3 . It can be seen from the above structure that the generator cooling water flows out of the two coolers 1 and 12 to become a relatively high temperature cooling water, and the cooling water flows to the cooling water inlet of the heat exchange device 3 (plate cooler). 3 1, and in the heat exchange device 3 (plate cooler) through the plate (not shown) to transfer heat to the plate and then flow through the cooling water outlet 3 2 're-flow The generator end cools the two coolers 1 1 and 1 2 . At the end of the heat recovery boiler feed water system 2, the feed water to be sent to the heat recovery boiler 2 2 first enters the feed water inlet of the heat exchange device 3 (plate cooler), and travels to the heat exchange device 3 (plate The chip cooler) flows through the plate (not shown) and transfers the heat of the cooling water of the 9 M343971 plate to the feed water, and the heat-carrying water is fed by the heat exchange device 3 (plate type) The feed water outlet of the cooler is discharged to the heat exchanger 2 3 for the second heat exchange, and then sent to the crane 2 2 for use. It can be seen from the above description that the heat transferred by the cooling water of the generator cooling system i is transferred to the feed water to be used by the recovery steel furnace 22 (the process of heat exchange) Refer to Figure 6 of Figure 1 - The working principle of the plate-type hot parent converter), in order to achieve the effect of the 埶 exchange, one of the purposes is to save the power of the cooling fan group 13 by using the generator when cooling water cooling is saved. In order to achieve the effect of energy saving, in addition, the cooling water cooling using this structure does not cause the problem of cooling fins aging and blocking the cooling efficiency. The temperature difference of cooling water cooling is closer to the theoretical data. The second is that, in addition to the above structure, the generator cooling system 1 can save the electricity required for the forced cooling fan group i 3 of the generator, and the feed of the hot f (four) furnace 22 can be used for the high temperature feeding of the mixed shouting water tank. Increase the temperature of the feed water before water to reduce the load of the condensate water cycle (see Appendix 1 for the actual test data). It is worth mentioning that 'the cooling water with heat flowing out from the two coolers 11 and 12' can be directly connected to the heat exchange device 3 (plate cooler) for heat exchange, and the control can also be selected to be turned on. The valve i 4 causes the cooling water to enter the heat exchange device 3 and the generator forced cooling fan assembly 3 to be simultaneously cooled, so that the cooling water is double cooled, and the temperature can be lowered more efficiently. The above description of the embodiments is intended to be illustrative of the present invention and is not intended to limit the creation of the present invention. Therefore, any numerical changes or substitutions of equivalent elements are still within the scope of the present invention. From the above detailed description, it will be apparent to those skilled in the art that the present invention can achieve the foregoing objectives, and it has been in compliance with the provisions of the Patent Law and has filed a patent application. [Simple description of the diagram] Figure 1 is a schematic diagram of the cooling process of this creation. Figure 2 is a schematic diagram of the cooling of the fan of the creation. Figure 3 is a schematic diagram of the flow of the generator cooling system. Figure 4 is a heat recovery boiler for cooking. System flow diagram [Key component symbol description] (customized part) None (this creation part) Generator cooling system 1 Generator cooler 11 Lubricating oil cooler 12 Generator forced cooling fan group 1 Cooling fan 131 Drive motor 1 3 2 Control Valve 1 4 Heat recovery boiler feed system 2 Cooling fruit 2 1 Heat recovery boiler 2 2 Grand heat exchanger 2 3 Water discharge heat exchanger 2 4 Heat exchange unit 3 Cooling water inlet 3 1 Cooling water outlet 3 2 Feed water Entrance 3 3 feed water outlet 3 4 11