Development of Soda Residue Concrete Expansion Agent

A new type of concrete expansion agent has been successfully developed for the first time in the world by utilizing an industrial waste residue soda residue and an industrial wasteliquor.Adding 3%-6% of the agent into Portland cement enables a shrinkage compensating concrete to be prepared.Mortar and concrete containing this expansion agent have better shrinkage compensating and mechanical properties.The raw materials component,production process,technical properties,micro analysis of mortar made with this expansion agent,mechanism of expansion and research results are described in this article.The experimental results show that the new type of concrete expansion agent accords with the standard and its main mineral component is xCaO ySO 3 zAl 2O 3.

Extraction and kinetic analysis of Pb and Sr from the leaching residue of zinc oxide ore

NH4HCO3 conversion followed by HCl leaching was performed and proven to be effective in extracting Pb and Sr from zinc extracted residual.The mechanism and operating conditions of NH4HCO3 conversion,including molar ratio of NH4HCO3 to zinc extracted residual,NH4HCO3 concentration,conversion temperature,conversion time,and stirring velocity,were discussed,and operating conditions were optimized by the orthogonal test.Experimental results indicate that NH4HCO3 conversion at temperatures ranging from 25 to 85°C follows the shrinking unreacted core model and is controlled by inner diffusion through the product layer.The extraction ratios of Pb and Sr under optimized conditions reached 85.15%and 87.08%,respectively.Moreover,the apparent activation energies of Pb and Sr were 13.85 and 13.67 kJ·mol^−1,respectively.

Consolidation Mechanism of Chloride Ion in Soda Residue from Ammonia Soda Process Method

Soda residue-magnesium oxychloride cement is prepared with soda residue from ammonia soda process method,magnesium oxide and magnesium sulfate heptahydrate as main raw materials,and its consolidation mechanism of chloride ion is studied.The results show that the hydration products of soda residue-magnesium oxychloride cement are mainly 5-phase,gypsum and brucite,which exist in the matrix in needle rod shape,long plate shape and hexagonal plate shape,respectively.When the molar ratio of MgO/MgCl_(2) is 8:1,the concentration of MgSO_(4) is 29%,and the mass ratio of soda residue:magnesium oxide:magnesium sulfate heptahydrate is 45.8:36.4:17.8.The chloride ion consolidation effect of the sample is the best,and the chloride ion consolidation content of the 7 d sample is about 93%.The chloride ion consolidation content of the 28 d sample is about 96%.

Strength Model of Soda Residue Soil Considering Consolidation Stress and Structural Influence

Soda residue(SR)is a type of industrial waste produced in the soda process with the ammonia-soda method.Applying SR to backfilling solves the land occupation and environmental pollution problems in coastal areas and saves material costs for foundation engineering.The strength characteristics of soda residue soil(SRS)under different consolidation conditions are the key points to be solved in the engineering application of SRS.Triaxial compression tests were performed on the undisturbed SRS of Tianjin Port.The shear properties of SRS under different consolidation conditions were then discussed.Meanwhile,a structural strength model(SSM)based on Mohr-Coulomb theory was proposed.SSM reflects the influence of soil structure on undrained strength(Cu)and divides the Cu into the following two parts:friction strength(C_(uf))and original structural strength(C_(u0)).C_(uf)characterizes the magnitude of friction between soil particles,which is related to the consolidation stress.Meanwhile,C_(u0)represents the structural effect on soil strength,which is related to the soil deposition and consolidation processes.SSM was validated by the test data of undisturbed soils.Results reveal that the undisturbed soil generally had a certain C_(u0).Therefore,the SRS strength model was established by combining the experimental law of SRS with SSM.Error analysis shows that the SRS strength model can effectively predict the Cu of undisturbed SRS in Tianjin Port under different consolidation conditions.

内蒙古二连浩特北部阿仁绍布地区晚石炭世花岗岩Sr-Yb分类及其成因

对分布在内蒙古二连浩特北部阿仁绍布地区的晚石炭世花岗岩类,依据Sr、Yb含量,划分为低Sr高Yb型、极低Sr高Yb型和低Sr低Yb型花岗岩3种类型。低Sr高Yb型花岗岩类相对低Si、富Al,Na2O>K2O,稀土元素分馏中等,有或无负Eu异常,Sr含量低,平均为183×10-6,Ba含量较高,平均585×10-6,Y含量高,平均30.06×10-6,Rb/Sr比值较低,平均0.97;极低Sr高Yb型花岗岩富Si、REE,低Al、Sr、Ba,高的Rb/Sr比值(平均为7.47),具明显的负Eu异常等;低Sr低Yb型花岗岩富Si,贫Al、Ca、Mg,重稀土元素(Y、Yb)含量低,Y含量在(7.26～10.6)×10-6之间,平均9.76×10-6,Yb含量在(1.04～1.89)×10-6之间,平均1.44×10-6,δEu=0.64～0.94,具弱负Eu异常,微量元素Ba含量高,Rb/Sr比值低。3种类型的花岗岩类过铝指数(A/CNK)多小于1.0,说明它们均源自变质火成岩的部分熔融。由于源区的深度不同(pT条件不同)和残留的主要矿物相不同,它们的岩石地球化学特征存在差异。极低Sr高Yb型花岗岩形成深度最浅(中上地壳),熔融残留相以斜长石为主;低Sr高Yb型花岗岩类形成于中下地壳,熔融残留相为斜长石和辉石;低Sr低Yb型花岗岩形成深度最深,推测可能形成于加厚下地壳(>40km)底部,熔融残留相为石榴子石、斜长石和角闪石。

基于IEWT和噪能转移SR-MLS反演识别技术的低频振荡信号分析

电力系统低频振荡信号是典型的多分量混噪信号,特征提取较困难。为此,采用基于顺序统计滤波原理(order statistics filter,OSF)平顶上包络的改进经验小波变换算法(improved empirical wavelet transform,IEWT)和随机共振—移动最小二乘(resonance-moving least squares,SR-MLS)反演识别技术相结合的方法实现对振荡信号的特征分析。IEWT结合了小波分析的完备理论性和经验模态分解的自适应性,通过构造一系列正交小波滤波器组对信号进行分解。首先,根据OSF最大值滤波器原理得到频谱的有效平顶上包络,进而确定EWT的边界并对原始振荡信号进行抗噪主导模态分离,然后结合SR-MLS反演识别技术,在残余噪声的帮助下增强振荡特征并有效提取。最后,在自合成模拟信号仿真、IEEE 16机68节点系统仿真以及电网实测数据3个算例仿真下通过与经典Prony法、VMD-Hilbert法对比,表明了所提方法的可行性及有效性。

Environmental risk for application of ammonia-soda white mud in soils in China

In recent years,some reports,mainly from Chinese research,show that there has been an increasing trend in the use of ammonia-soda residue(ASR)(or called ammonia-soda white mud) as a soil conditioner in farmlands.Up to now,the studies on ASR have focused on its utilization for acid soil amendment in agriculture,but few studies have assessed its environmental risk.ASR contains pollutant elements such as mercury(Hg),cadmium(Cd),copper(Cu) and fluorine(F) and the purpose of this study was to review research on the environmental impacts of ASR application in agriculture.Observations obtained from 23 research reports indicate that the concentrations of Hg,Cd,Cu,F and Cl(0-170,0.01-2.8,4.5-200,2000-24700 and 1 600-188 000 mg kg^-1,respectively) in ASR may exceed the limits(≤0.5,≤0.3 and ≤50 mg kg^-1 for Hg,Cd and Cu,respectively) of Chinese Risk Screening Values for Soil Contamination of Agricultural Land(GB 15618-2018 2018) or the refereed critical value(≤800 and ≤200 mg kg^-1 for F and Cl,respectively) based on Chinese research.The concentrations of the elements Hg,Cd,Cu,F and Cl in the leachate of ASR detected by the extraction tests also exceed the limits(Class IV-V) of the Chinese Standard for Groundwater Quality(GB/T 14848-2017 2017).Based on the above results,it is suggested that ASR without any pretreatment for reducing harmful pollutants should not be used for soil remediation or conditioning of farmlands,to ensure soil health,food safety and environmental quality.

New Sr Isotope Evidence to Support the Material Source of the Mengyejing Potash Deposit in the Simao Basin from Ancient Marine Halite or Residual Sea

Objective The Mengyejing potash deposit in the Simao Basin is the only producing area of solid potash at present in China. There is still controversy about the material source and distribution of the potash in this deposit （Shen Lijian et al., 2017）, which has influenced not only the prospecting direction and efficiency but also the understanding of the control of Tethys tectonic evolution on the formation and distribution of the mineral resources. This work analyzed the Sr isotope geochemical characteristics of evaporites from core samples in the well MZK-3 in order to further clarify the material source and to explore the potash distribution in the Simao Basin.

化学沉淀法处理含^(90)Sr-^(90)Y闪烁废液的研究

在对放射源的检验中需要使用液体闪烁计数器对其表面污染及泄漏指标进行测量,检验过程会产生含有^(90)Sr-^(90)Y的闪烁废液,该废液同时具有有机物与放射性物质两种属性,不易进行处理,成为亟待解决的问题。国内外对放射性有机废液的处理进行了诸多研究,虽得到一些解决方案,但都存在一定局限性,并不适用于放射源检验产生的闪烁废液的处理。本工作借助闪烁液能够与一定量水互溶的特性,采用多种化学沉淀法尝试对^(90)Sr-^(90)Y进行沉淀,分析了影响因素,并通过过滤将放射性沉淀与过滤后的闪烁液分离,实现对含有^(90)Sr-^(90)Y的闪烁废液进行去污及减容的目的,提出了一种处理放射性闪烁废液的新思路。

回收盐脱SO_4 ^(2-)新技术(SRS)浅析

介绍了隔膜烧碱生产中回收盐脱SO2-4的老工艺及新技术,分析了SRS法从回收盐中脱SO2-4的技术,提出了切合实际的新的发展方向。

考虑地下水位影响的碱渣土地基半埋混凝土内氯离子传输试验研究

关于碱渣土地基环境下钢筋混凝土结构耐久性问题,尚未见相关研究成果,是有待研究的课题。为探究碱渣土地基混凝土内氯离子传输规律,本工作模拟真实碱渣土地基及地下水侵蚀环境,设计了三种地下水位-0.2 m、-0.5 m、-0.8 m,开展半埋于碱渣土地基的混凝土氯离子自然扩散试验,探究不同地下水位环境下混凝土地表吸附区及地下区域的氯离子分布规律。结果表明,地表吸附区由于其蒸发浓缩及毛细作用,氯离子浓度高于地下区域。氯离子浓度随地下水位的变化呈现较大差异,地表吸附区氯离子浓度随地下水位的升高呈下降趋势,地下区域地下水位的影响主要体现在试件与水位的相对位置,地下水位以下区域氯离子浓度高于地下水位以上区域。在此基础上,探究碱渣土地基半埋混凝土内氯离子传输机理,基于Fick第二定律定量研究了地下水位对表面氯离子浓度及扩散系数的影响,建立考虑地下水位影响的氯离子传输时变模型,通过与实测结果对比印证了模型的正确性,本模型可为实际工程中定量评估不同碱渣土侵蚀环境下混凝土内氯离子浓度以及服役寿命预测提供技术支持。

碱渣-电石渣激发混凝土的基本力学性能与应力-应变关系

碱渣、电石渣等碱性工业固废的大面积堆置引发了严重的环境污染问题,亟需拓展资源化利用渠道。本工作以先前开发的碱渣-电石渣协同激发矿渣-粉煤灰胶凝材料替代水泥制备了新型混凝土,研究了其抗压、抗拉、抗折等基本力学性能与单轴受压应力-应变关系。结果表明:新型混凝土的早期抗压强度相比水泥混凝土发展缓慢,可通过适宜的热养护(60~75℃@12 h)进行改善,且对后期强度不会产生不利影响。新型混凝土拉压比和折压比分别为0.102±0.006、0.137±0.007,均高于同等级的水泥混凝土。新型混凝土在单轴受压下具有比水泥混凝土更短的弹性上升段,更长的塑性上升段,峰值应力后延性略差。通过统计回归分别建立了标准抗压、轴心抗压、劈裂抗拉、抗折强度的预测模型以及单轴受压应力-应变关系,均与试验值吻合性较好,为这类新型混凝土的配合比设计、强度预测及工程应用奠定了理论基础。

碱渣土蠕变特性试验及数值模拟研究

碱渣土孔隙比大、含水量高、压缩性大,研究其蠕变特性对于准确预测碱渣土地基长期沉降、确保上部结构长期稳定性具有重要意义。以天津港碱渣土为研究对象,采用分级加载-卸载的方式对不同深度处碱渣土进行一维压缩固结试验(包括卸荷回弹与再压缩试验)。通过试样孔隙比随上部固结压力的变化曲线分析了碱渣土的压缩特性;利用“陈氏法”对分级加载过程的应变-时间试验数据进行处理,得到不同深度处碱渣土在不同固结压力下的应变-时间蠕变曲线。在此基础上,根据蠕变曲线衰减稳定规律以及应力-应变等时曲线所反映的非线性蠕变特征,提出采用Merchant元件模型对蠕变试验曲线进行拟合,并确定模型中3个参数的经验计算公式,建立碱渣土非线性蠕变模型。最后,通过编制有限元子程序实现数值开发,将数模计算值与蠕变试验数据、天津港碱渣土地基沉降实测值进行对比,验证所开发数值模型的合理性。

菌糠预腐解与蚯蚓对苏打盐碱土改良效果的研究

为实现高添加量菌糠与蚯蚓对苏打盐碱土的快速改良,本研究利用预腐解菌糠与蚯蚓对苏打盐碱土进行改良,探究了在苏打盐碱土中添加大量菌糠预腐解后再接种蚯蚓对蚯蚓的影响,以及二者共同作用对苏打盐碱土水稳性团聚体分布、盐碱化程度、土壤养分及有机碳和水溶性有机碳的影响。结果表明:将15%、20%、25%、30%的菌糠添加到苏打盐碱土中先进行预腐解再接种蚯蚓,可以显著增加蚯蚓的存活率和日增重倍数,使蚯蚓的存活率基本保持在90%以上。在苏打盐碱土中添加15%~30%的菌糠预腐解后再接种蚯蚓显著增加了>2mm的水稳性团聚体数量,降低了土壤pH,提高了土壤电导率,增加了苏打盐碱土中的阳离子交换量(增加量为4.8~10.2 cmol·kg^(-1)),降低了苏打盐碱土的碱化度(下降2.7~4.0个百分点),显著增加了土壤速效氮磷钾含量,显著提高了土壤有机碳含量、水溶性有机碳含量及芳香度,促进了类腐植酸物质的生成。研究表明,大量菌糠预腐解后再接种蚯蚓能够快速高效地改良苏打盐碱土。

碱渣-粉煤灰基地聚合物固化软黏土的强度及渗透性研究

“双碳”背景下寻找低碳环保的固化剂替代水泥等传统固化剂进行软土地基加固受到越来越多的关注。利用碱渣(SR)和粉煤灰(FA)制备碱渣-粉煤灰基地聚合物(SR-FAG),通过无侧限抗压强度试验(UCST)和渗透试验(PT),以及扫描电镜(SEM)试验、X射线衍射(XRD)分析与傅里叶变换红外光谱(FTIR)测试开展了SR-FAG固化含水率超液限软黏土的试验研究,分析了SR掺量、FA掺量及养护龄期对SR-FAG固化土无侧限抗压强度及渗透性的影响,并探讨了固化机理。研究表明:SR掺量对SR-FAG固化土的早期强度增长作用较明显,7 d的强度可达到28 d的56%~89%,而后期强度增长主要受FA掺量影响。当SR掺量为30%且FA掺量达到25%时,SR-FAG固化土28 d的强度可达到1.6 MPa,并随龄期持续增长。SR-FAG固化土90 d龄期的渗透系数比固化前降低近一个数量级,达到1.344×10^(-8)cm/s。C-S-H凝胶充填固化土中土颗(团)粒的大孔隙,并发挥胶结作用,导致SR-FAG固化土的早期强度增长与渗透性降低,而后期强度增长则与硅铝酸盐凝胶的胶结作用密切相关。

碱渣泡沫轻质土路基的施工方法及抗压强度测试

碱渣是氨碱法生产纯碱时产生的废渣,其大量堆积会污染环境。利用原状碱渣制备碱渣泡沫轻质土,并将其用作连云港至宿迁高速公路徐圩—灌云段的路基填料;优化施工方案,提出碱渣泡沫轻质土路基的施工方法;测定抗压强度,并将其与设计值及规范值进行对比。研究表明,碱渣泡沫轻质土的施工方法简单,抗压强度符合设计及规范要求。碱渣泡沫轻质土可替代传统泡沫轻质土,达到节约水泥、减少碳排放和降低工程造价的目的,具有广阔的应用前景。

不同吸水环境下碱渣固化淤泥毛细吸水和强度性质

地下水位以上的固化淤泥中存在毛细吸水现象,可能会对固化淤泥的耐久性产生不利影响。以碱渣、矿渣和电石渣对淤泥进行固化处理,开展不同吸水环境下固化淤泥的毛细吸水、无侧限抗压强度、X射线衍射和核磁共振试验,研究毛细传输系数和强度的变化规律及其微观机理。研究表明,固化淤泥毛细管系数与吸水系数之比为2.3~3.2;固化淤泥的吸水系数和毛细管系数随碱渣掺量的增加先减后增,在碱渣掺量为25%(质量分数,下同)时最小,对应毛细孔体积也最小;随着水中含盐量增加,更多的钙矾石生成并发生氯化钠的迁移和聚集,毛细孔体积增多,孔径增大,毛细吸水能力增强,导致固化淤泥的毛细吸水系数和毛细管系数增大,无侧限抗压强度降低。在海水环境下毛细吸水使碱渣固化淤泥强度损失比水泥固化淤泥更严重。以碱渣等工业固体废弃物作为淤泥固化剂时,需考虑毛细吸水对固化淤泥耐久性的不利影响。

海带渣中纤维素的提取研究

本文以纤维素得率和残余蛋白质含量为评价指标,研究氢氧化钠溶液质量分数、提取温度、提取时间3个因素对海带渣纤维素提取的影响。结果显示,在NaOH溶液质量分数为3.0%,提取温度为100 ℃,提取时间为140 min的条件下,海带渣纤维素的得率为33.46%,残余蛋白质含量为0.98%,且红外分析显示提取物具有纤维素的特征峰。

水泥-碱渣固化高含水率海相软土力学性质试验研究

为了解决低剂量水泥单独固化高含水率海相软土早期强度不足及固废碱渣资源化利用率低等问题,采用水泥、碱渣联合固化高含水率软土。通过30种不同质量配比的无侧限抗压强度试验得出,水泥-碱渣固化高含水率海相软土试样的无侧限抗压强度不仅与水泥、碱渣的掺量有关,还受到软土含水率的控制。在无侧限抗压强度研究基础上,推荐优选配比(碱渣、软土、水泥质量比为30∶70∶6),其7 d无侧限抗压强度为682.7 kPa。优选配比固化土的加州承载比(CBR)和回弹模量满足各级公路路基填料的指标要求。通过对高含水率软土中水的影响以及固化土级配和微观结构分析得出,水泥-碱渣固化高含水率软土的力学强度主要来源于碱渣吸水作用、碱渣骨架作用以及各组分材料化学反应的作用。化学作用产生的C-S-H,C-A-H和Aft等凝胶物质共同密实结构,提高固化土强度。研究结果可为固废物固化高含水率软土在路基中的应用提供理论支持。

利用工业固体废弃物制备全固废无熟料水泥的试验研究

采用钢渣、矿渣、三级粉煤灰、脱硫石膏和碱渣为原料制备全固废无熟料水泥,通过调整各个物料之间的比例,研究其凝结时间和抗压强度。研究发现:当钢渣掺入质量为30%时,28 d胶砂强度可达39.2 MPa;用10%的粉煤灰替代矿渣,28 d胶砂强度有少量降低,其值为36.1 MPa。加入Na_(2)SiO_(3)对全固废无熟料水泥凝结时间具有较好的调节效果,当Na_(2)SiO_(3)掺入质量为0.6%时,全固废无熟料水泥的初凝时间为145 min,终凝时间为239 min,与普通硅酸盐水泥相近。同时,Na_(2)SiO_(3)对全固废无熟料水泥的强度具有较好的激发效果,当Na_(2)SiO_(3)掺入质量为0.6%时,其28 d胶砂强度增大到49.5 MPa。