ZCE系列紙漿脫氣器/ ZCE Series Pulp Deaerator
用 途 :
ZCE系列紙漿脫氣器是引進(jìn)安德里茲——奧斯龍公司的技術(shù)許可制造的現(xiàn)代紙機(jī)上漿系統(tǒng)的關(guān)鍵設(shè)備。裝置在除渣器和低脈沖網(wǎng)前篩之間,分離并脫出漿料中100%的空氣。并使?jié){料在進(jìn)入流漿箱前消除紙漿壓力、流量或濃度的變化,而保持其穩(wěn)定性,有利于紙頁的形成、質(zhì)量的穩(wěn)定。
結(jié)構(gòu)特點(diǎn):
通過射流和降膜、對(duì)表面流體沖擊、真空及滯留時(shí)間等物理作用,實(shí)現(xiàn)上網(wǎng)漿料完全除氣。
使進(jìn)入流漿箱的漿料濃度穩(wěn)定,漿料流量和壓力穩(wěn)定;抄造紙張定量變化小,產(chǎn)品質(zhì)量將大大提高。防止了腐漿的產(chǎn)生,防止了起泡,減少臟物的凝聚;使紙機(jī)網(wǎng)部脫水得到改善,紙頁勻度更好。
結(jié)構(gòu)原理:
ZCE系列脫氣器由多支進(jìn)漿噴射管、高旋轉(zhuǎn)速率低壓降的噴嘴、溢流堰板和脫氣器器體等組成。
裝置在紙機(jī)上漿系統(tǒng)的ZCE系列脫氣器,將從除渣器來的漿料,以壓力送入多支進(jìn)漿管,通過高旋轉(zhuǎn)速率的噴嘴,強(qiáng)烈地噴射到脫氣器的頂部,使?jié){料分散成許多小液滴,并形成一層沿著脫氣器的圓柱形表面運(yùn)動(dòng)的液膜;而脫氣器內(nèi)的真空度對(duì)漿料產(chǎn)生沸騰的作用,使?jié){料中的游離氣體和氣泡在低壓下開始膨脹;并撞擊破裂,其殘留和結(jié)合的空氣也被有效地分離噴射、撞擊、沸騰等三個(gè)物理作用,使?jié){料中的空氣100%脫出,纖維絮聚也得到疏解。同時(shí),將漿料濃度波動(dòng)分劃為微小的獨(dú)立成分單體,并在脫氣器器體內(nèi)停留一定時(shí)間,
在特殊設(shè)計(jì)的堰板作用下,使?jié){流在脫氣器內(nèi)成反向流動(dòng),而有效地控制頻率高于0.03Hz的漿流脈動(dòng)和濃度波動(dòng)。
噴射
漿料通過除渣器中的Spinjet 低壓降噴射器噴嘴,噴嘴的噴射效果最大限度地?cái)U(kuò)大液滴的暴露面積,提高空氣的去除率。
射流撞擊
漿料沖擊到脫氣器的頂部, 打碎漿料中的纖維束,使 粘附在纖維上的氣泡脫離。脫氣器的內(nèi)表面,可以防 止任何結(jié)垢出現(xiàn)。
沸騰
脫氣器通過自調(diào)真空系統(tǒng)使得內(nèi)部的絕對(duì)壓力維持在漿溫所對(duì)應(yīng)的沸點(diǎn),這樣保證脫氣器中的脫離的空氣能夠得到清除。
Application:
Manufactured under the license of Andritze-Ahlstrom,ZCE series deaerator is a
kind of key equipment for the flow approach system in modern paper machine. The
equipment is arranged between the cleaner and low-pulse paper machine screen for
separating and Removing 100% air in pulp. It eliminates pulp's fluctuations of
pressure, flow or consistency before the pulp goes into the headbox so that
pulp's stability will be kept in favor of sheet formation and quality
stability.
Design Features:
Realizing complete deaeration of the pulp onto the wire by physical actions
such as jet flow and falling film, hydraulic impact on surface, vacuum and dwell
time etc.
Realizing the stability of the consistency as well as flow and pressure of
the pulp which enters the head box so that paper's basis weight varies little
and paper quality will be significantly improved.
Preventing slime pulp from producing, preventing foaming, reducing the
accumulation of dirty materials so as to improve the dewatering of wire end and
get better paper formation.Structure Principles
Structure Principle:
ZCE series deaerator consists of pulp-feeding jet manifold, nozzles with high
rotational velocity and low pressure-drop, overflow slice and deaerator's body
etc.
Mounted in the flow approach system of a paper machine, ZCE series deaerator
feeds the stock which comes from the cleaner into
the pulp-feeding manifold by pressure and then goes through the nozzles with
high rotational velocity, the stock is jetted intensively onto the roof of the
deaerator, where the stock is dispersed into a lot of droplets and a layer of
fluid-flim is formed, which moves along a cylindrical surface. And the boiling
action, which is generated by the vacuum in the deaerator, makes the free air
and bubbles in the stock expend, impact and break under low pressure so that the
remained and combined air is effectively acted by three physical actions:
separately jetting, impacting and boiling, thus the air in the stock will be
100% removed and fiber flocculation will also be mitigated. Simultaneously
pulp's consistency fluctuation is divided into tiny monomers with independent
component, and the monomers will dwell in the deaerator for a certain time; and
being acted by the specially designed slice, the pulp flow is made flow in the
opposite direction so that the pulp-flow pulsations whose frequency are higher
than 0.03Hz and consistency fluctuation will be controlled effectively.
Spraying The stock is fed through low-pressure-drop Spinjet nozzles which are
located in the cleaner. The effect is to create a spray to maximize the exposed
droplet surface area and enhance air removal.
Impingement The hydraulic impact of stock against the roof of the de- aerator
breaks down fiber bundles and releases bound air bubbles. The deaerator interior
is highly polished to prevent any build-up of deposits.
Boiling The absolute pressure in the deaerator is maintained at the boil- ing
point corresponding to the stock temperature by using a self-regu- lating vacuum
system, which en- sures that all the air released in the deaerator is
removed