Properties and coagulation mechanisms of polyferric silicate sulfate with high concentration

Polyferric silicate sulfate （PFSS） with high concentration was prepared using the composite-poly method. The coagulation properties and mechanisms of this new complex were probed using TEM, Fe-Ferron timed complex-colorimetric method, and infrared spectrum method. The results showed that the flocculating effect of polyferric silicate sulfate had an advantage over polyferric sulfate （PFS）, as the optimum coagulation effect could be obtained when the Si/Fe mole ratio was 0.75 in accordance with its macrostructure of PFSS. According to the Fe-Ferron timed complex-colorimetric method, the Si species was mainly Sic, whereas, the Fe species were Fea and Fec in the copolymerization system. The infrared spectra indicated that the structure of these new flocculants was formed by polymers, mainly by olation, which was different from polyferric sulfate, and the vibration of M-OH-M of around 1100 cm^-1, also proved that there existed Fe-OH-Fe and its polymers in some forms.

Properties of polyferric-silicate-sulfate(PFSS) coagulant

Polyferric\|silicate\|sulfate(PFSS),as a new type of coagulant,was prepared by using sodium silicate, sulfuric acid and ferric sulfate as materials.The zeta potential of hydrolyzate of PFSS under different pH values was investigated.The effects of Fe/SiO\-2 molar ratio and dosage of PFSS on turbidity removal were studied. The relation between the optimum coagulation pH range and Fe/SiO\-2 molar ratio was found and the coagulation mechanism of PFSS was discussed.The experimental results showed that Fe/SiO\-2 molar ratio has an effect on the zeta potential of hydrolyzate, the coagulation performance and the optimum coagulation pH range of PFSS and that PFSS gives the best turbidity removal effect when its Fe/SiO\-2 molar ratio was 1.5.

Preparation and Application of Polymer Silicate Phosphate Ferric Sulfate Used in High-Viscosity Oil Refining Wastewater Treatment

A new kind of flocculants, named Polymer Silicate Phosphate Ferric Sulfate(PSPFS), was synthesized by ferrous sulfate used as the main material and activated silicic acid as additive. In this paper, High-Viscosity Oil Refining wastewater from Liaohe Petrochemical Corporation was the treatment object. Overall, the in-fluencing factors and synthesis technology conditions of PSPFS were determined by experiments. First of all, the conditions of influencing factors were showed as follows: the mass percent concentration of ferrous sulfate 55%,concentration of sodium silicate 15% , the molar ratio of ferrous sulfate and hydrogen peroxide 1.2:1, oxidation temperature 40 degree Celsius, oxidation time 4 hours, polymerization temperature 60 de-gree Celsius and polymerization time 2 hours. Secondly, the optimal ratios of components were determined by uniform design method. The molar ratio of Fe/Si is 5.0:1, Fe/H2SO4 is 3.2:1, and Fe/P is 18.0:1. At last, the optimal experimental condition was determined as follows: the dosing quantity 200mg/L, pH value 5.5~9, temperature 25~45℃, stirring time 2 min, and standing time 3 min, according to the result of floc-culation experiments with PSPFS. Besides, the result of the comparative experiments showed that the effi-ciency of PSPFS was much better than the reference flocculants.

Solubility of hemimorphite in ammonium sulfate solution at 25 °C

The solubility of natural hemimorphite in ammonium sulfate solution was measured by isothermal solution method at 25 °C and the dissolved residue of hemimorphite was investigated by X-ray powder diffraction （XRD）, scanning electron microscopy （SEM） and Fourier transform infrared spectroscopy （FTIR） methods. The results show that zinc and silica in hemimorphite simultaneously dissolve in ammonium sulfate solution. The solubility of zinc in solution increases rapidly from 4.5381 mmol/kg in 0.5469 mol/kg ammonium sulfate solution to 11.5083 mmol/kg in 3.7038 mol/kg ammonium sulfate solution. The solubility of silica in solution increases slowly from 2.5509 mmol/kg in 0.5469 mol/kg ammonium sulfate solution to 7.2891 mmol/kg in 3.7038 mol/kg ammonium sulfate solution. The dissolved residue is the characteristic of hemimorphite Zn4Si2O7（OH）2·H2O based on the results of the XRD, SEM and FTIR. Thus, no phase transition occurs in the dissolution process of hemimorphite in ammonium sulfate solution.

硫酸盐环境下水玻璃对磷酸钾镁水泥浆体力学的影响

为研究硫酸盐环境下水玻璃对磷酸钾镁水泥(MKPC)浆体力学的影响,该文测试MKPC浆体在5%硫酸钠溶液中干湿循环30~180次后的强度和吸水率,并与MKPC浆体浸泡在5%硫酸钠溶液中的强度及吸水率进行对比。结果表明:MKPC浆体经过180次硫酸盐干湿循环和90 d长期浸泡试验后,其强度相比初始值分别提高16.79%、38.13%,且吸水率远低于初始值,体现MKPC浆体优异的抗硫酸盐腐蚀能力;加入适量的水玻璃后,MKPC浆体的强度得到了提高,同时耐硫酸盐腐蚀能力也得到改善。

常压下硫酸盐与基性硅酸盐熔体不混溶的实验研究

自然界中广泛存在硅酸盐与硫酸盐之间的熔体不混溶现象,这种不混溶过程控制了岩浆演化过程的氧逸度变化和岩浆中S的含量,同时也对金属元素的富集具有重要意义。前人对硫酸盐与硅酸盐的熔体不混溶过程及稀土元素在不混溶相分配行为的研究主要集中在碱性硅酸盐与硫酸盐体系,但对基性硅酸盐与硫酸盐的熔体不混溶行为及稀土元素在此过程中的分配规律研究仍相对薄弱。本文选择基性硅酸盐样品与实验用Na_(2)SO_(4)按质量比1∶1制成混合实验样品粉末,并添加少量H_(3)BO_(3)作为助熔剂,通过马弗炉加热至1200℃,使粉末完全熔融,并在1200℃恒温12 h后在马弗炉中快速冷却至常温。对加温-冷却后的样品进行详细的岩矿相、SEM/EDS和不同相态的原位LA-ICP-MS分析。研究结果表明,在1200℃的条件下,硫酸盐与基性硅酸盐熔体可以大比例混溶,且降温会造成两者的不混溶,在不混溶过程中Na、Ca、K、REEs等趋向于进入硫酸盐熔体。不混溶形成的硫酸盐熔体中,稀土元素含量明显高于残余硅酸盐熔体,但轻重稀土元素没有明显的分异。不混溶硅酸盐熔体冷凝形成的玻璃相中除硫酸盐球粒外,还可见镁铁矿、蓝方石、赤铁矿等矿物斑晶,表明富硫酸盐的基性硅酸盐熔体在降温过程中可以造成蓝方石、镁铁矿和赤铁矿的结晶分离,使残余硅酸盐熔体中S、Fe、Mg含量和岩浆氧逸度降低,这可能是地壳浅部出露的幔源基性脉岩中通常S含量不高和相对还原的原因。

结垢严重的锅炉本体除垢实践

某自备电厂65t/h干熄焦锅炉,水冷壁管平均垢量高达3539.6g/m2,远大于规定的清洗上限。文章介绍了通过水冲洗、二次碱洗+酸洗、漂洗和钝化的工艺,成功将垢层去除,对以硫酸盐和硅酸盐为主、结垢严重的锅炉本体,提出了可行性的解决办法,为同类型结垢严重、难溶垢的锅炉本体化学清洗提供了参考。

聚硅酸硫酸铁混凝剂的性能研究

以硅酸钠、硫酸和硫酸铁为原料制备聚硅酸硫酸铁混凝剂（简称ＰＦＳＳ），考察了ＰＦＳＳ在不同条件下水解产物表面的ζ电位变化情况，研究了Ｆｅ／ＳｉＯ２摩尔比和投加量对ＰＦＳＳ除浊效果的影响，试验了ＰＦＳＳ的最佳混凝ｐＨ范围与Ｆｅ／ＳｉＯ２摩尔比之间的关系，探讨了其混凝机理．结果表明，Ｆｅ／ＳｉＯ２摩尔比对ＰＦＳＳ水解产物的ζ电位、ＰＦ－ＳＳ的混凝效果以及ＰＦＳＳ适宜的最佳ｐＨ值范围都有影响；当Ｆｅ／ＳｉＯ２摩尔比达１．５左右时，ＰＦＳＳ的混凝除浊效果趋于最佳．

新型絮凝剂聚硅酸硫酸锌的结构特征

通过调控SiO2含量、Zn/Si物质的量比、聚合时间、pH值等制备了新型絮凝剂聚硅酸硫酸锌(PZSS),采用红外光谱法研究了上述因素对PZSS结构的影响。结果表明,PZSS的聚合形态结构取决于SiO2含量、Zn/Si物质的量比、聚合时间、pH值等的大小。红外光谱证实了PZSS中Zn2+及水解Zn2+离子可与共存的聚硅酸起螯合反应生成锌硅聚合物,聚硅酸与Zn2+反应并不是单纯的物理混合加成作用,而是形成了具有特殊结构的无机高分子的化学反应,这种新型絮凝剂所具有的优良絮凝特性是由各物质间以化学作用为主的物理化学因素共同作用的结果。

含硼聚硅硫酸铁絮凝剂的制备及其絮凝性能

以硅酸钠、硫酸铁和四硼酸钠为原料,在SiO2质量分数为3%、pH为3.0、活化时间为30min、铁与硅摩尔比为0.5、硼与硅摩尔比为0.31的条件下,制备了无机高分子絮凝剂———含硼聚硅硫酸铁(PFSSB)。当焦化厂生化后废水pH在6.0左右、PFSSB加入量为20mg/L时,除浊率和脱色率分别达到93%和60%以上。PFSSB的脱色、除浊性能明显优于聚合氯化铝。

330MW燃准东煤电站锅炉烟气沿程灰沉积特性研究

准东煤作为优质的动力用煤因其在燃烧过程中沾污污、结渣问题严重,制约了此煤炭资源的有效利用。因而掌握其结渣、沾污机理对准东煤得以广泛应用有重要意义。文中借助ICP、SEM-EDX、XRD及灰熔点测试手段对燃烧准东宜化煤的330MW电站锅炉烟气沿程沉积样分析研究,结果表明:后墙水冷壁、后屏再热器至低温过热器处沉积样均由松散的大小不一的小球及渣块混合而成,分隔屏过热器与后屏过热器沉积样呈现大的骨架结构;根据沉积样形貌、组成成分及矿物组成分析,将沉积样分为硅酸盐类与硫酸盐类,分隔屏过热器与后屏过热器为硅酸盐类沉积样,后墙水冷壁、后屏再热器至低温过热器为硫酸盐类沉积样;硅酸盐沉积样黏度、灰渣熔点较高,而硫酸盐沉积样黏度及灰渣熔点较低。

新型混凝剂含硼聚硅酸硫酸铁的结构分析

采用化学络合滴定、透射电镜、红外光谱等方法对含硼聚硅酸硫酸铁 (PFSSB)的结构进行了分析。结果表明 :PFSSB是聚硅酸、Fe3+ 、Fe3+ 的水解聚合产物和B3+ 相互作用而生成的一种新的聚合物 ,其特殊的带状结构使其较聚硅酸 (椭圆体结构 )、聚硅酸硫酸铁 (虾节状结构 )具有更好的稳定性和混凝性能。

聚硅酸硫酸铁的研究和制备

由硅酸钠溶液在酸条件下聚合得到聚硅酸,再加入硫酸铁熟化,制备得到聚硅酸硫酸铁(PFSS)新型无机高分子絮凝剂。实验考察了制备过程中的影响产品稳定性及其絮凝性能的主要因素,得出其最佳制备工艺条件为:聚合反应温度约为27℃,SiO2%=3.0%,pH=4～5,聚合时间2～4h;熟化时控制Si/Fe3+=5(摩尔比),反应时间2～3h。该产品对pH值为1～6范围内的废水具有较好的混凝效果,同时又具有较好的贮存稳定性,使用效果令人满意。

高含铁量聚硅硫酸铁(PFSS)絮凝剂性能及影响因素分析

以符合国家标准的聚合硫酸铁为直接原料,采用复合法制备了含铁量高的无机高分子絮凝剂聚硅硫酸铁(PFSS),并探讨了Si/Fe摩尔比、聚合温度、聚合时间等因素对其絮凝性能的影响。结果表明:当Si/Fe比为1∶20、聚合温度为40℃、聚合时间为1 h时,制得絮凝剂与改性前的聚合硫酸铁及Fe2(SO4)3相比,具有投加量少(40μL/L)、适应pH范围广(6.0～12.0)、稳定性好、絮凝性能更优异的特点。并根据实验结果对高含铁量PFSS絮凝性能的影响因素进行了分析。

聚合硅酸硫酸铝的铝形态及其水解稳定性

利用２７Ａｌ核磁共振技术分析了聚合硅酸硫酸铝的铝形态，发现铝单双核组分随碱化度的提高和硅铝比的降低而增加，表明硅的引入相对降低了聚合硅酸硫酸铝的聚合程度。但未发现Ａｌ１３的存在。聚合硅酸硫酸铝的水解稳定性随其聚合程度的提高及水解ｐＨ值的增加而下降。

聚硅酸锌铝的制备及其性能研究

以硅酸钠、硫酸锌、硫酸铝为原料,通过共聚法制备了无机高分子絮凝剂聚硅酸锌铝(PSZAS),研究了Na2SiO3的摩尔浓度、活化时间、Al/Si、Zn/Si配比及絮凝剂的投加量对絮凝效果的影响,用X-射线衍射(XRD)和电子扫描电镜(SEM)对该絮凝剂的结构及形貌进行了表征。结果表明:当硅酸钠的浓度为0.4 mol/L,硅酸活化时间为2 h,Si∶Al∶Zn=1∶1∶1.5,絮凝剂投加量为20 mL/L废水时,絮凝剂的电中和能力和吸附架桥能力最强,絮凝剂对含H-酸染料模拟废水的絮凝效果最好。

新型混凝剂含硼聚硅硫酸铁的性能研究

本文制备了一种新型高分子混凝剂含硼聚硅硫酸铁 (PFSSB) ,考察了体系中硼量及铁量对其性能的影响 ,并探讨了其混凝特性和混凝机理。结果表明 ,当体系中B与Si、Fe与Si的摩尔比分别为 0 1 6及 0 50时 ,混凝剂具有最优的混凝和稳定性能。与聚铁 (PFS)、聚硅硫酸铁 (PFSS)相比 ,PFSSB的pH适用范围更宽 (pH >6 .5) ,絮体矾花大 ,适用性更强 ,沉降性能更好 ,是一种性能优异、很有发展前景的混凝剂。混凝机理分析表明 ,该混凝剂优异的混凝性能是Fe3+ 、聚硅酸、B和SO2

絮凝剂PTSS的分子结构研究

以聚硅酸和硫酸钛为原料制得絮凝剂聚硅硫酸钛(PTSS),用电子显微镜观察其形貌,发现絮凝剂PTSS呈现不同于聚硅酸球形颗粒状的分枝长链状结构,初步推测钛与聚硅酸发生了化学成键作用;通过红外光谱与X-射线衍射研究絮凝剂PTSS结构,证实钛与聚硅酸中的硅通过氧基成键.将该絮凝剂用于处理pH为8的模拟江水,在投加量(以钛离子计)为10 mg/L时,A254的去除率为70.9%,浊度去除率为99.3%,絮凝效果良好.测定不同pH下的Zeta电位,观察所形成絮体的形貌、测定絮体粒度分布以及观测红外光谱图均发现,絮凝剂PTSS特殊的长链结构通过络合成键将模拟江水中的腐殖酸官能团带入絮体中,同时也通过吸附、网捕等作用将其余胶体颗粒去除.

含硼聚硅硫酸铁混凝剂成分间的相互作用

含硼聚硅硫酸铁 ( PFSSB)是新近开发研制成的一种性能优良的无机高分子混凝剂。本文采用化学分析和 X射线衍射法研究了该混凝剂成分间的相互作用情况 ,考察并分析了体系的 p H驰豫及电学特征。结果表明 ,体系中 Fe3+ 及其水解聚合产物、聚硅酸、B及 SO2 -4 离子等之间存在相互作用。这些相互作用的存在是