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1、<p><b> 湖南工院</b></p><p> 畢業(yè)設計(論文) 外文翻譯</p><p><b> 換熱器的優(yōu)化選型</b></p><p> W. Lub 和 S.A. Tassoub</p><p> 英國米德爾塞克斯,布魯內爾大學機械設計工程部</p>
2、<p> 【摘要】板式換熱器的優(yōu)化選型是根據(jù)換熱器的用途和工藝過程中的參數(shù)和NTU=KA/MC=△t/△tm,即傳熱單元數(shù)NTU和溫差比(對數(shù)平均溫差—換熱的動力)選擇板片形狀、板式換熱器的類型和結構。 </p><p> 【關鍵詞】平均溫差 NTU 板式蒸發(fā)器 冷凝器 </p><p><b> 1 平均溫差△tm</b></p>&
3、lt;p> 從公式Q=K△tmA,△tm=1/A∫A(t1-t2)dA中可知,平均溫差△tm是傳熱的驅動力,對于各種流動形式,如能求出平均溫差,即板面兩側流體間溫差對面積的平均值,就能出換熱器的傳熱量。平均溫差是一個較為直觀的概念,也是評價板式換熱器性能的一項重要指標。</p><p> 1.1 對數(shù)平均溫差的計算</p><p> 當換熱器傳熱量為dQ,溫度上升為dt時,則C
4、=dQ/dt,將C定義為熱容量,它表示單位時間通過單位面積交換的熱量,即dQ=K(th-tc)dA=K△tdA,兩種流體產(chǎn)生的溫度變化分別為dth=-dQ/Ch,dtc=-dQ/Cc,d△t=d(th-tc)=dQ(1/Cc-1/Ch),則dA=[1/k(1/Cc-1/Ch)]·(d△t/△t),當從A=0積分至A=A0時,A0=[1/k(1/Cc-1/Ch)]·㏑[(tho-tci)/(thi-tco)],由于兩種
5、流體間交換的熱量相等,即Q=Ch(thi-tho)=Cc(tco-tci),經(jīng)簡化后可知,Q=KA0{[(tho-tci)-(thi-tco)]/㏑[(tho-tci)/(thi-tco)]},若△t1=thi-tco,△t2=tho-tci,則Q=KA0[(△t1-△t2)/㏑(△t1/△t2)]=KA0△tm,式中的△tm=(△t1-△t2)/㏑(△t1/△t2)。</p><p> 順流 △tm=[(th
6、i-tci)-(tho-tco)] /㏑[(thi-tci)/(tho-tci)]</p><p> 逆流 △tm=[(thi-tco)-(tho-tci)] /㏑[(thi-tco)/(tho-tci)]</p><p> 對于各種流動型式,在相同的進口、出口溫度條件下,逆流的平均溫差最大。</p><p> 當板式換熱器入口和出口兩流體的溫差△t1和△t2
7、之間的差不大時,可采用算術平均溫差(△t1+△t2)/2,一般△t1/△t2小于1.5時,可采用,若△t/△t2為3時,則誤差約為10%。</p><p> 1.2 傳熱單元數(shù)法</p><p> 在傳熱單元數(shù)法中引入一個無量綱參數(shù)NTU,稱為傳熱單元數(shù),它表示板式換熱器的總熱導(即換熱器傳熱熱阻的倒數(shù))與流體熱容量的比值NTU=KA/MC,它表示相對于流體熱容流量,該換熱器傳熱能力的
8、大小,即換熱器的無量綱“傳熱能力”。對于板式換熱器來說,KA/MC=△t/△tm,式中△t/△tm稱為溫差比,上式中的右邊的工藝過程用NTUp表示,左邊的換熱設備的條件用NTUE表示。NTUp是流體溫度的變化與平均溫差的比值,表示的是用1℃△tm的變化引起幾度流體溫度變化的值,當△tm大時,NTUp則??;當△tm小時,它有變大的傾向。相反,在NTUp變大的過程中,△tm的溫度變化較大,NTUp較小時,其△tm的溫度變化較?。ㄒ姳?)。
9、 </p><p> 表1 △tm,NTUp的關系 </p><p> 板式換熱器的優(yōu)化設計計算,就是在已知溫差比NTUE的條件下,合理地確定其型號、流程和傳熱面積,使NTUp等于NTUE。</p><p> 1.3 換熱過程和NTU</p><p> 與供熱空調相關的換熱過程如下如示:</p>
10、<p> ⑴ 用蒸汽加熱水 ?、?水—水換熱</p><p> a. 蒸汽 133→133℃ c.一次水 65→60℃</p><p> 水 5→65℃(生活熱水) 二次水 45←40℃(采暖)</p><p> b. 蒸汽 133→133℃ d. 一次水 1
11、4→9℃</p><p> 水 55→65℃(采暖) 二次水 13←7℃(制冷)</p><p> e. 一次水 29→24℃ </p><p> 二次水 26←21℃(制冷機的冷卻)</p><p> 以上5例工藝過程的NTUp(見表2)</p><p> 表
12、2 供熱空調工藝過程的NTUp </p><p> 1.4 板式換熱器和NTUE</p><p> NTUE表示板式換熱器的能力,換熱器的面積是具有一定傳熱長度的單位傳熱體的組合,總傳熱長度是單位長度和流程數(shù)的乘積。當NTUE是總數(shù)時,若每1流程數(shù)為NTUe時,則NTUE=n·NTUe(其中n是流程數(shù))。</p><p> 當NTUe=NTUE=NT
13、Up時,換熱器為單程。若NTUe﹤NTUp時,則換熱器應為多流程,故設計時應先預定n。由于每種板片單程的NTUe值基本上是定值,如適合表2中e的流量為25m3/h的單程板式換熱器的NTUe為17㎡。從NTUe=A·K/MC可知,當NTUe為定值時,A·K成反比,仍以e為例,當K=500kcal/㎡·h·℃時,A=1.67×25000/500=83.5㎡,流程數(shù)n=83.5/17≈5。當K
14、=2500kcal/㎡·h·℃時,A=16.7㎡,流程數(shù)n=1。每一流程的NTUe如下所示:K=500,NTUe=NTUE/n=0.33,K=2500時,NTUe=1.67。由此可知,根據(jù)NTUe即可求出換熱器的流程數(shù),傳熱系數(shù)和傳熱面積。從以上可知,若板式換熱器設計不合理,可能使換熱面積過大,也可能使板間流速太高,阻力過大。</p><p> 1.5 板式換熱器制造技術的進步,板片種類的增
15、加,提高了板式換熱器對各種工藝過程的適應性。</p><p> ⑴ 大NTU(∽8),小△tm(∽1~2)的板式換熱器滿足了區(qū)域供冷和熱泵機組蒸發(fā)器、冷凝器的要求。從以上分析可知,△tm是換熱的驅動力,若△tm小,即意味著驅動力小,要實現(xiàn)兩種流體之間的換熱,必須增大傳熱系數(shù),增大傳熱面積,為了使傳熱面積不至過大,唯一的是增大傳熱系數(shù)K。</p><p> ① 淺密波紋板片是北京市京海換
16、熱設備制造有限責任公司開發(fā)的新型板片,它的傳熱系數(shù)約為7000W/㎡·K,是水平平直波紋板的2倍,是人字形波紋板的1.5倍,在區(qū)域供冷中時,檢測的△tm約為1.2。在作為冰蓄冷的乙二醇和冷凍水的換熱器使用中,△tm約為1.5。</p><p> ?、?板式蒸發(fā)器、板式冷凝器也是北京市京海換熱設備制造有限責任公司開發(fā)的適應于熱泵機組的新型換熱器。與管殼式蒸發(fā)器、冷凝器相比,它具有如下優(yōu)點:單位體積內板式蒸
17、發(fā)器、板式冷凝器的傳熱面積約是管殼式換熱器的3倍;板式蒸發(fā)器的傳熱系數(shù)約為1000~1200 W/㎡·K,板式冷凝器的傳熱系數(shù)約為1500~2000 W/㎡·K均為管殼式換熱器的2~3倍;在板式蒸發(fā)器上采用了使制冷劑液體分布均勻的分配器裝置,當蒸發(fā)器板片數(shù)較多時,可能會出現(xiàn)制冷劑液體分配不均的,不能充分利用所有蒸發(fā)傳熱面積,使蒸發(fā)溫度低于設計計算溫度。采用分配器后即能克服上述問題。有關單位檢測數(shù)據(jù)說明,板式蒸發(fā)器、板
18、式冷凝器的傳熱系數(shù)在△tm約為2.5~3℃時,在1500~2000 W/㎡·K之間,且阻力小,滿足了熱泵機組的要求。</p><p> ?、?小NTU(∽0.3~2),大△tm(∽40~90℃)的板式換熱器滿足了熱回收工藝和工藝加熱、冷卻的要求。當工藝過程在大△tm的條件下進行換熱時,說明驅動力大,所需的傳熱面積較小,對傳熱系數(shù)要求也不高,但,這種工藝過程或者工作壓力高,或者工作溫度高,或者工藝加熱、冷
19、卻過程的液體中含有纖維或直徑較大的顆粒,對板式換熱器的承壓、耐溫能力提出了要求,對換熱器的板間距提出了要求。</p><p> ?、?排(煙)氣—水板殼式換熱器(省能器),排(煙)氣—空氣板殼式換熱器(空氣預熱器)是北京市京海換熱設備制造有限責任公司和蘭石化共同開發(fā)出來的新型板式換熱器,全焊接板式換熱器中介質的換熱是通過板管束來實現(xiàn)的,組成板管束的板片由專用模具壓制成型,全焊接式板束裝在壓力殼內。波紋板片具有靜攪
20、拌作用,能在很低的雷諾數(shù)下形成湍流,且污垢系數(shù)低,傳熱系數(shù)是管殼式換熱器的2~3倍。為了適應換熱量大,流體壓降小的要求,板間距大,當量直徑約為28㎜。為了滿足工藝的要求板束工作壓力(反壓)P≤4.5Mpa,板束工作壓力(正壓)同殼體工作壓力,不受限制;工作溫度t≤550℃。烏魯木齊石化分公司40萬噸/年連續(xù)重整采用了進料(冷介質)和出料(熱介質)的板殼式換熱器,進料流量50t/h,進、出口溫渡88℃,470℃。出料流量50t/h,進、出
21、口溫度100℃,500℃,對數(shù)平均溫差約38℃,總傳熱系數(shù)約為380kcal/㎡·h·℃,熱負荷達23×106kcal/h,進料壓降20Kpa,出料壓降50Kpa。</p><p> ?、?多效蒸發(fā)板式加熱器(換熱器),這種換熱器既是工藝加熱裝置,又是重要的熱回收裝置。以前由于板式換熱器的流道?。ò彘g距1.5~5.0㎜),不適宜于氣—氣換熱和蒸氣冷凝;且易堵塞,故不宜用于含懸浮物的流
22、體。為了盡量地發(fā)揮板式換熱器的長處,克服存在問題,適應工藝的要求,北京市京海換熱設備制造有限責任公司開發(fā)出了新型的多效蒸發(fā)板式換熱器,這種板式換熱器屬寬流道型,其板間距為8.0㎜,適合于蒸氣冷凝,適合于含懸浮物的流體,且不易堵塞,最大處理量達1200m3/h。</p><p><b> 原文</b></p><p> New plate heat exchange
23、r optimization Selection</p><p> W. Lub and S.A. Tassoub </p><p> Department of Mechanical Engineering, School of Engineering and Design, Brunel University, Uxbridge, Middlesex, UK .</p>
24、<p> Abstract: The plate heat exchanger Selection is based on the optimization of the use of heat exchangers and in the process of the parameters and NTU = KA / MC = △ t / △ tm, that is, transfer units of NTU and
25、 the temperature difference than (the average temperature difference -- Heat transfer in power) choose plate shapes, plate heat exchanger and the type of structure. Key words: the average temperature difference between
26、NTU plate evaporator condenser</p><p> 1 average temperature difference △ tm </p><p> When the heat exchanger to heat-dQ, when the temperature rose to dt, C = dQ / dt, C will be defined as hea
27、t capacity, it said units of time through the exchange of heat per unit area, dQ = K (th-tc) dA = K △ tdA, two of the fluid temperature changes were dth =- dQ / Ch, dtc =- dQ / Cc, d △ t = d (th-tc) = dQ (1/Cc-1/Ch), whi
28、le dA = [1 / k (1/Cc-1/Ch)] ? (d △ t / △ t), when the A = 0 points to A = A0 when, A0 = [1 / k (1/Cc-1 / Ch)] ? ㏑ [(tho-tci) / (thi-tco)], because of two fluid exchange betwe</p><p> Down △ tm = [(thi-tci)
29、- (tho-tco)] / ㏑ [(thi-tci) / (tho-tci)]</p><p> Countercurrent △ tm = [(thi-tco) - (tho-tci)] / ㏑ [(thi-tco) / (tho-tci)]</p><p> For various flow patterns in the same import, export under th
30、e conditions of temperature, the average temperature difference between the largest counter-current.</p><p> When the plate heat exchanger import and export of the fluid temperature difference between the t
31、wo △ t1 and the difference between △ t2 not available when arithmetic average temperature (△ t1 + △ t2) / 2, General △ t1 / △ t2 less than 1.5, May be, if △ t / △ t2 for 3:00, the error is about 10 percent.</p>&l
32、t;p> 1.2 the number of transfer units</p><p> In the heat transfer unit of the introduction of a few dimensionless parameters NTU, known as the number of transfer units, it said plate heat exchanger of
33、the total thermal conductivity (heat exchanger heat resistance of the countdown) and the ratio of fluid heat capacity NTU = KA / MC, it said in relation to heat fluid flow, heat transfer capacity of the heat exchanger of
34、 the size of the heat exchanger that is, non-dimensional "heat transfer capability." The plate heat exchanger for, KA / MC =</p><p> Table 1 △ tm, NTUp relations </p><p> Plate heat
35、 exchanger, the optimal design, is known NTUE temperature difference than the conditions, to determine a reasonable model, processes and heat transfer area, equivalent to NTUp NTUE.</p><p> 1.3 heat transfe
36、r process and the NTU</p><p> Heating and air-conditioning related to the heat transfer process if the show are as follows:</p><p> ?、?steam heating water ⑵ water - water hea
37、t exchanger</p><p> a. steam 133 → 133 ℃ c. a water 65 → 60 ℃</p><p> Water 5 → 65 ℃ (hot water) Secondary water 45 ← 40 ℃ (heating)</p><p> b. S
38、team 133 → 133 ℃ d. a water 14 → 9 ℃</p><p> Water 55 → 65 ℃ (heating) secondary water 13 ← 7 ℃ (refrigeration)</p><p> e. a water 29 → 24 ℃ Secondary water 26 ← 21 ℃ (refri
39、gerator cooling)</p><p> More than five cases of the process NTUp (see table 2)</p><p> Table 2 heating air-conditioning process of NTUp </p><p> 1.4 plate heat exchanger and NTU
40、E</p><p> NTUE plate heat exchanger that the capacity of heat exchanger is the size of a certain length of the heat and the combination of heat transfer units, the total length of heat transfer process is t
41、he length and number of units of the product. When the total number of NTUE is, if the number of processes for every 1 NTUe, then NTUE = n ? NTUe (where n is the number of processes).</p><p> When NTUe = NT
42、UE = NTUp, the heat exchanger for one-way. If NTUe <NTUp, the heat exchanger for many processes, it should be designed to target n. As each plate of one-way NTUe value is essentially fixed value, such as in e Table 2
43、for the flow of 25 m3 / h of the one-way NTUe plate heat exchanger for 17 square meters. From NTUe = A ? K / MC tells us that when NTUe to be on duty, A ? K is inversely proportional, still e example, when K = 500kcal /
44、㎡ ? h ? ℃ time, A = 1.67 × 25000/500 = 83.5 ㎡, th</p><p> 1.5 plate heat exchanger manufacturing and technological progress, plate type of increase, raising the plate heat exchanger of the various proc
45、esses of adaptation.</p><p> ⑴ the NTU (∽ 8), small △ tm (∽ 1 ~ 2) the plate heat exchanger to meet the district cooling and heat pump units evaporator, condenser requirements. From the above analysis know,
46、 △ tm is the driving force of heat transfer, if △ tm small, means that the driver of small, to achieve the heat transfer between the two fluid, we must increase heat transfer coefficient, increasing heat transfer area, i
47、n order to Heat to make up too large, is the only increase heat transfer coefficient K. ① shallow </p><p> ② plate evaporator, condenser plate Beijing, Beijing is also the heat transfer equipment manuf
48、acturers limited liability companies adapt to the development of a new type of heat pump units in the heat exchanger. And the shell-and-evaporator, compared to the condenser, which has the following advantages: unit volu
49、me in the evaporator plate, the plate condenser is a heat transfer area of shell and tube heat exchanger of three times the plate evaporator heat transfer coefficient About 1000 ~ 1200 W</p><p> ?、?small NTU
50、 (∽ 0.3 ~ 2), the △ tm (∽ 40 ~ 90 ℃) of the plate heat exchanger to meet the heat recovery process and the process heating and cooling requirements. When the process in the △ tm conducted under conditions of heat transfe
51、r, that driving force, the heat and the smaller, the heat transfer coefficient demand is not high, but that this process or high-pressure work, or work High temperature, or process heating and cooling process in the liqu
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