99久久九九免费看精品国产一区_国产国语刺激对白毛片黄色_最近中文字幕在线mv视频7_人妻办公室被强奷hd_在线播放国产一区二区_日韓av無碼精品一區二區_00粉嫩高中生洗澡偷拍视频_91美女在线视频_spank打屁股调教网站_可以直接观看A∨你懂的

1、過熱水裝置工作原理Working principle
a.傳統(tǒng)的加熱工藝Traditional heating processing
鍋爐供汽電廠蒸汽 Boiler supplied power plant steam             
熱　壓　機Heat compressor             
水 池Water pool
　從上面的生產(chǎn)工藝我們可以看出: 鍋爐出來的蒸汽經(jīng)壓機后就直接排進了水池, 形成了能源的大量浪費。尤其在保溫、保壓以后, 需要降溫的時候, 壓機模板內(nèi)蒸汽和熱水被排進水池, 經(jīng)常會看到熱氣沖天的現(xiàn)象, 表面上看排掉的是蒸汽和熱水, 實際上排掉的就是能源和金錢。We can understand from above that the steam from boiler passes compressor and straightly enters into water pool which causes large energy waste. Especially, as cooling after temperature and pressure insulating, the steam and hot water in compressor would be discharged into water pool. We always see the phenomenon of volcanic steam. Apparently, we have discharged the steam and hot water, but in fact we have wasted the energy and money.

b.過熱水裝置的生產(chǎn)工藝Manufacturing processing
過熱水生產(chǎn)工藝也是用蒸汽加熱(沒有蒸汽鍋爐的,使用導(dǎo)熱油加熱的需通過熱交換器將水溫升到需要的溫度.), 用蒸汽將高溫塔內(nèi)的水加熱到壓板需要的溫度(最高180℃)形成過熱水, 通過循環(huán)水泵將過熱水打進壓機, 壓機出來的水(約120℃)回進高溫塔, 通過蒸汽加熱后繼續(xù)供壓機使用, 從而節(jié)約了大量的熱能。冷卻的時候, 將中溫塔的水打進壓機, 出來的熱水(約120℃)通過循環(huán)水泵打進中溫塔, 當(dāng)冷卻水的溫度低于80℃時被排進水池。需要重新升溫時, 用中溫塔的熱水將壓機模板內(nèi)的冷水置換出來, 同時將整個壓機升溫到80-90℃, 再用高溫塔內(nèi)的過熱水將壓機升溫至需要的溫度。具體流程圖示意如下: The manufacturing processing of overheating water device adopts steam to heat(if steam boiler is not available, heat transfer oil and heat exchanger is necessary). Steam would heat the water in high temperature to the necessary temperature (max. of 180℃) to form hot water which would be pumped into compressor through circulating pump. The water flowing from compressor (about 120℃) would go back to high temperature tower and be used for compressor after heated by steam, which would save large sum of energy. As cooling, pump the water in medium temperature tower into compressor, then the hot water (about 120℃) would be pumped into medium temperature tower by circulating pump. And the water would be drained into water pool as its temperature goes below 80℃. If it is necessary to raise the temperature again, it need to use the hot water in medium temperature tower to exchange the cool water in compressor, meanwhile, to raise the temperature of compressor to 80-90℃ and to the necessary temperature using the hot water in high temperature tower. The principle illustration is as following:

C. 過熱水裝置的加熱工藝與傳統(tǒng)的加熱工藝的區(qū)別Difference between the traditional heating processing and overheating water device heating processing
⑴.升溫階段 Phase of temperature rising
①傳統(tǒng)的生產(chǎn)工藝是使用蒸汽將壓機模板內(nèi)的冷水置換出來, 然后再將壓機系統(tǒng)升溫至設(shè)定的溫度, 使用的全部是蒸汽的能量, 因此能耗很高。而升溫后從壓機出來的蒸汽和熱水直接排進了冷水池, 形成的是開放式的加熱系統(tǒng)模式, 造成了熱能大量的浪費。 Traditionally, the steam is used to replace the cold water in compressor, then rise the compressor temperature to setting value. All the energy is from steam and cause large consumption. The steam and hot water from compressor after temperature raised are directly discharged into cold water pool, which is open heating system mode and causes large sum of waste.
②壓機的溫度很不均勻(上面的溫度高, 下面的溫度低, 因為水在下面, 上面全部是蒸汽。)采用過熱水裝置升溫則不同, 升溫的初始階段, 先用中溫塔的熱水將壓機模板內(nèi)冷水置換出來, 同時可將整個壓機系統(tǒng)溫度預(yù)熱到85～90℃, 這部分的熱量就不需要由蒸汽來提供, 從而節(jié)約了能源。當(dāng)整個系統(tǒng)溫度到了85～90℃后, 再用高溫塔的過熱水來升溫整個系統(tǒng), 壓機出來的熱水經(jīng)過循環(huán)水泵又回進了高溫塔, 形成了 一個封閉系統(tǒng), 從而節(jié)約了大量的能源。同時, 由于過熱水是用循環(huán)泵供水, 壓機上面和下面的全部是水, 而且壓力相等, 溫度也相等, 不存在溫差的問題, 生產(chǎn)出來的產(chǎn)品比原來的要好得多。The temperature of compressor is not average (upper part is high and lower part is low; steam gathering on upper part). It would have a different result to adopt overheating water device. At first phase, it need to use the hot water in medium temperature tower to replace the cold water in compressor, meanwhile, pre-heat the compressor to 85-90℃. In this way, such part of heat would not be provided by steam, so the energy is saved. As the system temperature reaches 85～90℃, it could use the hot water in high temperature tower to heat the whole system. The hot water would return to high temperature tower through circulating pump. Such process is a closed system, so it would save large sum of energy. Meanwhile, the overheating water is supplied by circulating pump. The water is full of compressor, the pressure is same and the temperature is same too. So we can gain the high quality product.
③過熱水采用的是分段升溫, 現(xiàn)將壓機從25℃升溫到80-90℃, 然后再升溫到140℃左右。用蒸汽升溫則不同, 將160℃的蒸汽直接通進壓機, 溫差很大。隨著升溫時間的加長, 壓力會降低, 蒸汽溫度也會下降, 熱源會產(chǎn)生波動。過熱水是采用恒溫供熱, 不存在上述問題, 所以生產(chǎn)出來的產(chǎn)品會更穩(wěn)定。Overheating water adopts the method of progressive temperature rising. Raise the temperature of compressor to 80-90℃ from 25℃ firstly and then to 140℃. It is different to raise the temperature adopting steam. Input the steam of 160℃ directly to compressor which would cause the large temperature difference. As the long time of temperature rising, the pressure would reduce and steam temperature would reduce too, then heating source would fluctuate. On the contrary, overheating water adopts the method of constant heat supply. The above problem would not exist, so the manufactured products would be more stable.
⑵.降溫階段 Phase of temperature reducing
①傳統(tǒng)的工藝在降溫階段是直接將冷卻水通進壓機, 將原來壓機模板內(nèi)的蒸汽和熱水置換出來, 使整個壓機的溫度降低至設(shè)定的出板溫度。所以我們在冷卻水池邊經(jīng)常會看到有大量的蒸汽和熱水噴進冷水池, 一幅熱氣騰騰的景象。其背后是大量的能源浪費, 實際上就是金錢的浪費。Traditionally, the cooling water would be directly input into compressor at cooling phase and the steam and hot water in compressor would be replaced. The temperature of compressor would reduces to setting value. Therefore, we could always see the steam and hot water flow into cold water pool, which is actually the waste of energy and money.
②使用過熱水裝置則大不同, 先用中溫塔的熱水將壓機冷卻到90℃, 出來的熱水約100-140℃回進中溫塔, 低于80℃的水則被排進了冷水池。從而節(jié)約的熱能, 在水池邊再也看不到熱氣騰騰的場面了。It would have the different result that use overheating water device. Cool the compressor to 90℃ by the hot water in medium temperature tower. The water of 100-140℃ would return to medium temperature tower and the water lower than 80℃ would be discharged into cold water pool. We would never see the phenomenon of volcanic steam and the energy is saved.
③由于過熱水裝置采用的是分段降溫, 溫差小, 生產(chǎn)出來的產(chǎn)品柔韌性很好, 不容易破碎, 成品率會更高。As overheating water adopts the method of progressive temperature reducing, the temperature difference is little. Therefore, the manufactured products are well flexible, not easy fragile and high acceptability rate.