<p style="margin: 0cm 0cm 6pt; text-indent: 24pt;"><span style="font-size: x-small;"><a href="http://www.hzjb.com/"><span style="font-size: small;">變壓吸附<strong>制氮機(jī)</strong>(<strong>PSA制氮機(jī)</strong>)</span></a>是以碳分子篩為吸附劑���,利用加壓吸附��,降壓解吸的原理從空氣中吸附和釋放氧氣���,從而分離出氮氣的自動化設(shè)備�����。碳分子篩是一種以煤為主要原料����,經(jīng)過研磨����、氧化����、成型、碳化并經(jīng)過特殊的孔型處理工藝加工而成的�����,表面和內(nèi)部布滿微孔的柱形顆粒狀吸附劑���,呈黑色���。</span></p>
<p style="margin: 0cm 0cm 6pt; text-indent: 24pt;"><span style="font-size: x-small;">碳分子篩的孔徑分布特性使其能夠?qū)崿F(xiàn)<span style="font-family: "Times New Roman";" lang="EN-US">O<sub>2</sub></span>、<span style="font-family: "Times New Roman";" lang="EN-US">N<sub>2</sub></span>的動力學(xué)分離�。這樣的孔徑分布可使不同的氣體以不同的速率擴(kuò)散至分子篩的微孔之中,而不會排斥混合氣(空氣)中的任何一種氣體���。碳分子篩對<span style="font-family: "Times New Roman";" lang="EN-US">O<sub>2</sub></span>����、<span style="font-family: "Times New Roman";" lang="EN-US">N<sub>2</sub></span>的分離作用是基于這兩種氣體的動力學(xué)直徑的微小差別,<span style="font-family: "Times New Roman";" lang="EN-US">O<sub>2</sub></span>分子的動力學(xué)直徑較小����,因而在碳分子篩的微孔中有較快的擴(kuò)散速率,<span style="font-family: "Times New Roman";" lang="EN-US">N<sub>2</sub></span>分子的動力學(xué)直徑較大�,因而擴(kuò)散速率較慢。壓縮空氣中的水和<span style="font-family: "Times New Roman";" lang="EN-US">CO<sub>2</sub></span>的擴(kuò)散同氧相差不大����,而氬擴(kuò)散較慢。較終從吸附塔富集出來的是<span style="font-family: "Times New Roman";" lang="EN-US">N<sub>2</sub></span>和<span style="font-family: "Times New Roman";" lang="EN-US">Ar</span>的混合氣�����。</span></p>
<p style="margin: 0cm 0cm 6pt;"><span style="font-size: x-small;"><span style="font-family: "Times New Roman";" lang="EN-US"> </span>吸附壓力的增加�����,可使<span style="font-family: "Times New Roman";" lang="EN-US">O<sub>2</sub></span>���、<span style="font-family: "Times New Roman";" lang="EN-US">N<sub>2</sub></span>的吸附量同時增大,且<span style="font-family: "Times New Roman";" lang="EN-US">O<sub>2</sub></span>的吸附量增加幅度要大一些�。變壓吸附周期短,<span style="font-family: "Times New Roman";" lang="EN-US">O<sub>2</sub></span>��、<span style="font-family: "Times New Roman";" lang="EN-US">N<sub>2</sub></span>的吸附量遠(yuǎn)沒有達(dá)到平衡(較大值),所以<span style="font-family: "Times New Roman";" lang="EN-US">O<sub>2</sub></span>��、<span style="font-family: "Times New Roman";" lang="EN-US">N<sub>2</sub></span>擴(kuò)散速率的差別使<span style="font-family: "Times New Roman";" lang="EN-US">O<sub>2</sub></span>的吸附量在短時間內(nèi)大大超過<span style="font-family: "Times New Roman";" lang="EN-US">N<sub>2</sub></span>的吸附量��。</span></p>
<p style="margin: 0cm 0cm 6pt; text-indent: 24pt;"><span style="font-size: x-small;">變壓吸附<strong>制氮機(jī)</strong>(<strong>PSA制氮機(jī)</strong>)正是利用碳分子篩的選擇吸附特性�����,采用加壓吸附�����,減壓解吸的循環(huán)周期����,使壓縮空氣交替進(jìn)入吸附塔(也可以單塔完成)來實現(xiàn)空氣分離,從而連續(xù)產(chǎn)出高純度的產(chǎn)品氮氣�。</span></p>
