|
|
马上注册,结识高手,享用更多资源,轻松玩转三维网社区。
您需要 登录 才可以下载或查看,没有帐号?注册
x
循环流化床烟气脱硫技术实验研究
4 Y4 h* S! A( y4 l* H/ o王爱军,祁海鹰,由长福,徐旭常
# f2 O1 E O7 d c' O( Y(清华大学煤的清洁燃烧技术国家重点实验室,北京100084); M* j. @+ o8 b, f4 {: x# g' e
摘 要:提出一种干式烟气脱硫技术方案,并在400~800℃的温度下进行了实验研究。为了提高脱硫效率和脱硫
) A' F9 y+ R" O1 ~6 F0 X剂的利用率,还对在床内循环的脱硫剂进行了蒸汽处理。研究了烟气温度、Ca/S、床内气流速度、床内固体物料浓度; L; A5 {$ }# f" V, u
等参数对脱硫效率的影响,以及各参数之间的关系。研究发现温度对脱硫效率有明显的影响,近600℃时最高。增: \; ]4 e5 z6 _4 T$ q
加Ca/S可以大幅度提高脱硫效率。此外,适当降低床内气体流速使床内的总物料量增加,可以提高脱硫效率。研究2 S- X; r* B' y) R) J& z: d
表明,蒸汽处理对脱硫效率的提高有明显效果,在本实验条件下,处理后的脱硫效率提高42.1%。7 G# @& u8 W1 o# ~( | ^
关键词:循环流化床;烟气脱硫;蒸汽活化;脱硫效率
. `3 s, \1 ?; j中图分类号:TQ534.9 文献标识码:A 文章编号:1006-8740(2000)04-0351-05
8 [. u9 ~# S7 l& n5 w0 @Experimental Study of FGD Technology by CFB at 400~800℃
* J6 L, n( P2 m7 A& {; ] ZWANG Ai-jun, QI Hai-ying, YOU Chang-fu, XU Xu-chang
! u5 ~0 X x8 ]! f& ?5 w(The State Key Laboratory of Clean Combustion of Coal,Tsinghua University,3 z8 t5 V; X- L, o% @
Beijing 100084,China)
9 ^1 `& @0 H; G4 B3 vAbstract:A new type dry flue gas desulphurization proposal in a temperature range of 400~800℃has been, B' n0 Y) S4 o" l2 L( H9 O; w
introduced.The experiment was done at 400~800℃in a circulating fluidized bed (CFB) using lime as absorbent( w' j+ L _, E# N; `& v i
and fly ash collected from power plants as bed materials. To make the absorbents more effective, the spent
: q, |8 Q9 i2 M" m$ _% t) rabsorbent was treated by steam in the circulating loop. The experiments showed that the influence of gas& D0 I: g5 ~0 j+ X9 L6 G
temperature on desulphurization efficiency was obvious, and perhaps there was an optimum desulphurization
; Y ~5 b" d$ Q$ g( e" Uefficiency near 600℃.As Ca/S was increased the desulphurization efficiency would be increased greatly.The Total+ o9 J2 t. ~% Y+ R! o
amount of bed materials was increased as the gas velocity inside the bed was decreased,so the desulphurization6 l- `: Z. p/ _; ~5 N
efficiency would be increased. The steam reactivation was an effective method for increasing the absorbent/ a0 _ |+ g( w- j: @0 S I& Z- h
utilization because the desulphurization efficiency was increased by 42.1% after the absorbent was treated by
1 K% }+ Z. w1 {0 r. X: ~1 [# ~0 |2 lsteam.Therefore the dry flue gas desulphurization technology in a CFB added steam reactivation is worth of4 W) R4 m( F' i( `, [% p" k/ l; w
researching further.8 G9 D1 \3 \0 ?
Keywords:CFB;flue gas desulphurization;steam reactivation;desulphurization efficiency |
评分
-
查看全部评分
|
发表于 2009-9-3 09:47:19
