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1、 含氰废水加NaClO后时间与PH、ORP关系 实验目的:观察反应PH ORP氰变化,找出反应最佳控制点 实验步骤:(1)测量原水PH ORP 氰含量(2)调节原水PH至11,在搅拌情况下加入NaClO,并间隔2分钟测量一次ORP PH,间隔15分钟测一次氰(3)调节原水PH至10,在搅拌情况下加入NaClO,并间隔2分钟测量一次ORP PH, 间隔15分钟测一次氰实验现象:原水透明略带黄色,加入次氯酸钠溶液变蓝,且次氯酸钠量大沉淀多,但在PH10情况下,加入6:1 8:1药量次氯酸钠,溶液蓝偏绿色。原水数据:原水PH=7.3, ORP=213mv, CN=410mg/l前处理:PH调至11实
2、验数据:A组表1-1 加入不同量次氯酸钠后溶液ORP与PH变化A1:NaClO (4:1)A2:NaClO (2:1)A3:NaClO (6:1)A4:NaClO (8:1)时间ORPPHORPPHORPPHORPPH050010.196852610.6954910.96259010.128210.8858010.6360710.86461410.18910.8259910.662310.74661910.079210.7961210.5663610.61859910.029410.7861510.4862010.46106039.979610.7761610.3466010.1126089.
3、99710.7563810.17319.64146129.859810.756669.847489.45166159.89810.767019.677509.34186179.759910.757079.587519.3206189.7210010.757099.547499.26226199.6910010.747089.457479.24246259.6510110.747059.447439.21266339.6410210.737029.387429.2286329.6310210.726989.367399.19306299.6210310.746939.347359.1932628
4、9.6110410.746899.337349.18346249.5910410.736859.327339.18366229.5910510.736809.317329.17386199.5710610.726769.317309.17406159.5710610.716709.37299.17426119.5610710.76659.37279.17446089.5510810.686609.37269.16466039.5510810.686549.297249.16486009.5410910.676489.297239.16505979.5310910.666449.287229.1
5、6525939.5211010.666409.287209.16545909.5211110.666349.287199.16565879.5111210.656289.287179.16585829.511210.656239.277169.16605859.511310.646189.277169.164h2099.3815010.462749.166408.96表1-2 加入不同量次氯酸钠后溶液氰含量变化A1:NaClO(4:1)A2:NaClO(2:1)A3:NaClO(6:1)A4:NaClO(8:1)时间氰含量氰含量氰含量氰含量15 min513210.230 min21320.4
6、0.245 min2.5130260 min2.841362.15 图1-1 ORP与反应时间关系图1-2 PH与反应时间关系通过上图可以看出:1 低于理论量ORP明显小许多2 高于理论量起始ORP相差不大,但次氯酸钠量大ORP会上升的更高,之后会有个下降过程,其中以6:1下降最为明显,而8:1下降趋势较小3 加入次氯酸钠理论量,略有些氰未反应 4 次氯酸钠2:1 反应在15min内完成,次氯酸钠4:1, 6:1, 8:1,反应在半小时内完成,之后氰会逆反应?通过上图可以看出: 加入次氯酸钠量越大,PH下降越大,但最后能趋于平稳。B组 PH=10表2-1 加入不同量次氯酸钠后溶液ORP与PH变
7、化时间ORPPHORPPHORPPHORPPH06039.4260010.259310.926609.3526428.957329.0911510.467139.0746208.977618.812710.357108.9866068.917558.7713310.277008.9785878.917478.7513910.276908.98105678.927408.7514210.176748.99125438.937308.7414510.136668.99145068.957228.7414710.116578.99164308.967148.7314910.16459183688.9
8、67088.7315210.076389203248.967018.7315310.056299222848.966948.7315410.056229242638.956878.7315510.046138.99262488.956818.7315610.046048.99282398.956748.7315710.035958.99302338.956688.7315710.035858.99322278.956608.7315810.035738.99342238.956548.7415810.025628.99362208.956468.7415910.025528.99382178.
9、956408.7415910.015428.99402168.956338.74159105308.99422148.956268.751609.995158.99442138.956198.751609.985058.99462148.956128.751619.984949482118.956058.751619.974838.99502118.955958.771619.974738.99522108.955878.771619.974648.99542108.955778.771619.974588.99562098.945698.791629.964508.99582098.9455
10、78.791629.964368.99602098.945468.791629.964288.994h2258.822848.811749.82518.93表1-2 加入不同量次氯酸钠后溶液氰含量变化A1 NaClO 4:1A2 NaClO 2:1A3 NaClO 6:1A1 NaClO 8:1氰含量015 min71303.5530 min71333.5245 min6.5133460 min5.01304表2-3 ORP与反应时间关系通过上图可以看出:1 PH为10情况下,反应完全度不如PH=11 2 超过理论量,起始ORP高,下降快;低于理论量,起始ORP低,且缓慢上升表2-4 PH与反应时间关系通过上图可以看出: 与PH11相比, PH更快平稳,波动更小。结论:1 破氰反应在半小时内完成,半小时后反而有氰析出 2 PH=11条件下比PH=10条件下反应更彻底;PH升高,ORP下降 3 加入次氯酸钠量越大,PH下降越大 4控制点选择请参考,a反应前期(PH1115MIN,PH105MIN,ORP处于上升过程)反应15分钟后ORP处于下降过程;b 高于理论量,氰含量变化较小;c以上3点结论;d 反应的安全性(中间产物CNCl为剧毒)
