一、盤(pán)管整體及支撐框架結(jié)構(gòu)均采用SUS304不銹鋼材料,盤(pán)管壽命長(zhǎng)。
不銹鋼盤(pán)管均由臺(tái)灣杰美利公司位于新竹竹北的工廠制造,均由SUS304不銹鋼帶連續(xù)卷焊而成,可根據(jù)現(xiàn)場(chǎng)空間定制規(guī)格制造。使用壽命較一般鍍鋅盤(pán)管長(zhǎng),在適宜的槽內(nèi)水質(zhì)條件下,使用壽命可超過(guò)30年。
二、動(dòng)態(tài)傳熱,換熱系數(shù)更高,融冰效率更高。
配合內(nèi)循環(huán)泵,蓄冰及融冰過(guò)程中傳熱系數(shù)更高,瞬間放冷速率更高。蓄冰盤(pán)管中冰水對(duì)流熱傳,可達(dá)到快速與完全溶冰效果。本蓄冰槽設(shè)計(jì)上亦可冰水側(cè)、鹵水(乙二醇溶液側(cè))雙向進(jìn)行溶冰,融冰速率超過(guò)30%,解訣一般內(nèi)融冰蓄冰槽溶冰效率不良之缺點(diǎn)。
三、結(jié)冰率大
動(dòng)態(tài)蓄冰槽盤(pán)管排列整膺,結(jié)冰率(Ice packing factor , IPF )高達(dá)75 %以上,最大限度節(jié)省冰槽所占空間,蓄冰槽所需空間小。
四、水平蛇形盤(pán)管,安裝及維修所需高度空間更小,安裝及維護(hù)空簡(jiǎn)最省
標(biāo)準(zhǔn)產(chǎn)品盤(pán)管按500mm高度一個(gè)模組,可現(xiàn)場(chǎng)垂直組合,從而只需要0.6m的槽頂部高度來(lái)安裝以及維修,避免因槽頂安裝空間大浪費(fèi)建筑空間,以及普通盤(pán)管實(shí)際上不能維修的問(wèn)題。
五、系統(tǒng)設(shè)計(jì)簡(jiǎn)單方便
規(guī)格化定型蓄冰槽,密閉式鹵水(乙二醇)系統(tǒng),水平盤(pán)管也可根據(jù)場(chǎng)地選擇槽體的尺寸進(jìn)行匹配客戶定制規(guī)格,蓄冰系統(tǒng)設(shè)計(jì)最簡(jiǎn)便。
六、適用于各類(lèi)型場(chǎng)所
動(dòng)態(tài)蓄冰槽儲(chǔ)冰效率高,可適用于各類(lèi)型蓄冰主機(jī),蓄冰槽可以選擇長(zhǎng)方形、圓柱體、筏基式,可根據(jù)場(chǎng)地定制槽體尺寸。
七、可采用抑制性處理后的鹵水(乙二醇)
盤(pán)管材質(zhì)為不銹鋼,管內(nèi)部腐蝕性低,顧而可以采用經(jīng)過(guò)腐蝕抑制性處理后的鹵水(乙二醇),可降低采購(gòu)進(jìn)口品牌腐蝕抑制性乙二醇的成本。
八、標(biāo)準(zhǔn)槽采用不銹鋼槽體,內(nèi)部結(jié)構(gòu)件也全部采用不銹鋼,耐用性高
不銹鋼槽體,提供長(zhǎng)期使用,安全可靠,最符合經(jīng)濟(jì)效益。
九、保溫性強(qiáng),減少熱損失
配合高濕度氣候條件,動(dòng)態(tài)儲(chǔ)冰槽加強(qiáng)保溫厚度,減少槽體結(jié)露滴水現(xiàn)象,并可減少儲(chǔ)冰熱損失,節(jié)約能源。
+、配合再冷卻盤(pán)管、適用低溫送風(fēng)系統(tǒng)
動(dòng)態(tài)蓄冰槽溶冰速度快,配合雙向融冰的再冷卻盤(pán)管,內(nèi)融冰盤(pán)管即可提供3 ~5 ℃ 低溫冷凍水,適合應(yīng)用于低溫送風(fēng)系統(tǒng),節(jié)省冰水流量,降低20 %水泵馬力,減少送風(fēng)量,縮減風(fēng)管管徑,縮小空調(diào)機(jī)房,增加建筑樓層高度等多項(xiàng)優(yōu)點(diǎn)。
1 . The ice-on-coil material is SUS304 stainless steel with higher durability and anti-corrosion, offering longer life.
All ice-on-coil tubes are compact and formed in the factory in Taipei with SUS304 stainless-steel tape by continuous rolled welding..
2 .Dynamic heat transfer , higher heat transfer rate, Rapid discharging
Chilled water is working by convective heat exchange when crossing ice-on-coil tubes , so the ice will melt rapidly and completely . The ice storage tank has been designed to two - way melting ice by chilled water and brine , so the melte efficiency has been increased to improve the disadVantage of melting slowly for normal inner ice-melting tubes.
3 . High ice packing factor
Heat exchange tubes are regular arranged in the dynamic ice storage tank , so the ice packing factor ( IPF ) will gain over 75 %•;
4 . Horizontal “snake”ice-on-coil, Save install space
The ice-on-coil tubes are made to modules with 500mm height and could be compacted vertically. So the ice-on-coils will only need approximately 0.6meter installation and maintainance height above the ice storage tank. This design could offer a practical replacement and maintainance space.
5 . System simple for easy design
The ice storage system is simple for easy design due to the normalized and shaped tank within close brine circulating system .
6 . Apply to various brine chillers
The dynamic ice storage tank kept high efficiency and it suitable for various brine chillers like as screw , centrifugal , reciprocatjng or scroll type .
7 . Inhibited ethylene glycol.
The dynamic ice storage tank use stainless-steel tubes so it could circulate normal ethylene glycol solution after inhibition treatment.This could reduce the cost of importing inhibited glycol of certain brand.
8 . Durable Stainless steel tank
Stainless steel tank not only keep long - term usage . safe and stable operation but also conform to the economic benefits .
9 . Good insulation to reduce heat loss
The thickness of insulation of dynamic ice storage tank has been increased to fit the high humid climate , and will reduce dew and heat loss to save energy .
1 0 . Apply to the cold air supply system
The dynamic ice storage tank kept rapid ice melting , and it suitable for cold air supply system by supplying3~5℃ chilled water . The advantages of this system include save 20 % horsepower of pump , and reduce chilled water flow rate , airflow rate , and the diameter of duct and the size of equipment room to increase area of floor .
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