Proximal Femoral Cortical Thickness and Medullary Canal Diameter in Soft and Hard Water Regions

This study compared proximal femoral morphology in patients living in soft and hard water regions. The proximal femoral morphology of two groups of 70 patients living in hard and soft water regions with a mean age of 72.29 (range: 50 to 87 years) was measured using an antero-posterior radiograph of the non-operated hip with magnification adjusted. The medullary canal diameter at the level of the lesser trochanter (LT) was significantly wider in patients living in the hard water region (mean width: 1.9 mm wider;p = 0.003). No statistical significant difference was found in the medullary canal width at 10 cm below the level of LT, Dorr index, or Canal Bone Ratio (CBR). In conclusion, the proximal femoral morphology does differ in patients living in soft and hard water areas. These results may have an important clinical bearing in patients undergoing total hip replacement surgery. Further research is needed to determine whether implant survivorship is affected in patients living in hard and soft water regions.

Effects of water hardness on selective flocculation of diasporic bauxite

The effect of electrolyte on settling behavior of kaolinite was studied. Effects of hard water on selective flocculation of diasporic bauxite was tested and the measures were taken to eliminate the effects of Ca2＋ and Mg2＋ in hard water. The results indicated that, not only the concentration of electrolyte ions but also the ionic valence of the electrolyte ions affects the settling behavior of kaolinite; hard water significantly affects its selective flocculation owing to Ca2＋ and Mg2＋; general dispersants could not eliminate the effects of Ca2＋ and Mg2＋. Self-made softening agent in our lab could weaken or eliminate the effects of hard water on flocculation processes. The results of molecular dynamics simulation show that softening agent molecules could restrict Ca2＋ and prevent them from playing their roles, so as to eliminate the effects. The continuous pilot experiment results of bauxite flocculation were even better than those obtained in laboratory.

Effect of Water Hardness on the Toxicity of Cobalt and Nickel to a Freshwater Fish,Capoeta fusca

Objective To determine the effects of water hardness on the toxicities of cobalt （Co） and nickel （Ni） to a freshwater fish, Capoetafusca. Methods Toxicity was investigated by static bioassay. Fish were exposed to cobalt （as COCI2） and nickel （as NiCI2） for 96 h in waters with two levels of hardness （＂hard＂ and ＂very hard＂, nominally 130 mg/L and 350 mg/L as CaCO3, respectively）. Results Water hardness had a significant effect on the acute toxicity of both elements. The 96 h LC50 values for Co were 91.7 mg/L and 204.8 mg/L in hard and very hard waters, respectively, and for Ni the 96 h LC50 values were 78.0 mg/L and 127.2 mg/L, respectively. Conclusion The fish were more sensitive to Co and Ni toxicity in hard water than in very hard water; very hard water protects C. fusca against the toxicity of Co and Ni.

The use of graphene oxide membranes for the softening of hard water

Strong chemical interactions between the oxygen-containing functional groups on graphene oxide(GO)sheets and the ions of divalent metals were exploited for the softening of hard water.GO membranes were prepared and evaluated for their ability to absorb Ca2+and Mg2+ions.These GO membranes can effectively absorb Ca2+ions from hard water;a 1 mg GO membrane can remove as much as 0.05 mg Ca2+ions.These GO membranes can be regenerated and used repeatedly.

Development of Water Chestnut Hard Biscuits

[Objectives] This study was conducted to develop a type of hard biscuit using water chestnut flour and thus to expand the application of water chestnut.[Methods]Hard biscuits were made from water chestnut flour and wheat flour.Then,their sensory quality indices were evaluated,and the optimal formulation of the biscuits was determined through single factor test and orthogonal array testing.[Results] The proportion of water chestnut flour was the most important factor that influences the sensory quality of hard biscuits,followed by the proportions of sugar,milk powder and baking powder.The optimal formula of the hard biscuit was adding 9.0 g water chestnut powder,8.0 g sugar,0.5 g baking powder,and 3.6 g milk powder to every 100.0 g wheat flour.The sensory quality score of the water chestnut hard biscuits made according to this formula was 86.0.And these biscuits were complete in shape,uniform in color,crisp and rich in nutrients.[Conclusions]The study enriches the types and improves the nutritional value of hard biscuits,which provides a new idea for the application of water chestnut.

含磨料脉冲射流破岩效果试验研究

为探究脉冲磨料水射流的破岩效果,选用五种不同强度的硬岩,开展了脉冲纯水/磨料水射流破岩试验,并以冲蚀孔尺寸为指标,将脉冲纯水/磨料水射流的破岩效果同连续纯水/磨料水射流进行了对比。结果表明:连续磨料水射流冲蚀岩体过程主要依赖磨料粒子的磨削作用,而脉冲磨料水射流则是连续的水锤效应和磨料粒子磨削作用的叠加;无磨料粒子时,连续水射流破岩主要依赖射流初期的单个水锤效应,而脉冲水射流则是多个连续的水锤压力持续冲击岩石,导致岩体表面出现破碎区。

深水硬质岩嵌入式承台无封底施工关键技术

深水嵌入式承台基础施工中,需将泥面开挖至封底混凝土以下并对基底进行清理,以保证封底混凝土的高度和浇筑质量。对于地质条件良好的硬质岩,存在开挖困难、水下作业工期长、质量控制难、施工成本高等问题。该文依托重庆嘉华轨道专用桥主墩承台施工,采用理论分析、数值计算和工程实施验证相结合的方法,形成一种深水硬质岩嵌入式承台无封底施工技术。该施工技术,采用开挖壁体基槽并浇筑基槽混凝土的方式取代大体积封底混凝土,达到为承台施工提供干作业环境的目的,可将承台范围内基坑开挖由水下作业转为干作业,缩短水下开挖作业工期,节约水下混凝土用量,提高施工质量和施工效率,降低施工成本。

完整极硬岩TBM施工辅助破岩方法研究现状及展望

针对完整极硬岩,隧道掘进机(TBM)施工存在掘进效率低、滚刀磨损快、TBM部件受损以及岩爆等问题,降低了TBM隧道施工的安全性和高效性。对近几十年来国内外的完整硬岩隧道TBM施工情况及遇到的问题进行了统计分析;梳理介绍了一系列辅助破岩方法,包括水射流法、微波法、激光法、等离子体法和干冰粉气动破岩法,并对各种方法的优势和不足进行了论述。当前的辅助破岩方法尚不能完全满足TBM施工配合要求,未来需进行进一步的深入研究。

青浦区出厂水中总硬度和溶解性总固体分析

目的:了解青浦区出厂水中总硬度和溶解性总固体水平,为改善饮用水水质提供科学依据。方法:对2014-2022年青浦区市政水厂出厂水总硬度和溶解性总固体进行统计分析。结果:294份水样中,总硬度中位数为127 mg·L^(-1),溶解性总固体中位数为278 mg·L^(-1),合格率为100%。趋势性检验发现,两指标在2014-2022年均呈下降趋势(Rs=-0.357,P<0.01;Rs=-0.374,P<0.01)。3家水厂出厂水的总硬度均在枯水期、平水期和丰水期依次下降(P<0.05)。比较不同水源,以淀山湖水系为水源的出厂水中溶解性总固体高于以青草沙水库为水源的出厂水(P<0.05)。结论:青浦区出厂水口感好,但总硬度略低,建议居民增加钙镁的摄入。

南京地区饮用水“控垢”需求分析及适用技术探讨

自来水煮沸后饮用是我国居民重要的饮水习惯,而煮沸后的“水垢”问题给供水企业和用户造成困扰。研究结合南京地区水源水质特征、现有处理工艺及“水垢”控制需求,结合“水垢”的生成反应及影响因素,探究适用于低硬度饮用水的有效“水垢”控制方法。结果表明,南京地区水源水质整体较好,且水厂均设置了深度处理工艺,可以较好地保证供水水质安全,目前比较典型的是基于“水垢”的感官水质问题。改良型诱导结晶软化工艺对煮沸后“水垢”具有较好的控制作用,软化药剂投加量宜控制在10~20 mg,投加二氧化碳回调pH,处理出水煮沸后则完全没有“水垢”,沸后水的总硬度也没有降低,且多次煮沸也没有“水垢”生成,工艺总运行费用可控制在0.06元/m^(3)左右。

梁北矿松软大采高工作面高水充填沿空留巷技术研究

以高水材料适应性研究为基础,通过分析梁北煤矿厚硬顶板大采高工作面沿空留巷围岩控制难点,提出“预裂切顶-高水充填-超前加固”沿空留巷技术。通过室内试验确定了高水充填材料最佳水灰比、早强剂掺量和用水温度;采用理论分析和工程类比确定了预裂切顶、超前加固和高水充填支护方案;采用数值模拟分析了沿空留巷方案的可行性。工程实践效果表明,围岩变形滞后工作面100~150 m趋于稳定,变形整体可控,留巷效果较好。

储藏温度对生姜保鲜效果的影响

目的:考察储贮藏藏温度对生姜保鲜的影响,以确定最佳贮储藏藏温度。方法:利用低场核磁共振、质构仪、气相色谱-质谱联用技术对不同储藏温度下生姜保鲜效果进行评价。结果:生姜依据生长周期可分为姜母、子姜、孙姜等部位,不同部位品质具有差异性,姜母、子姜、孙姜各部位水分状态不同,其中孙姜A_(23)最高,姜母A_(22)最高;孙姜硬度最大,姜母硬度最低。随贮藏时间的推移,不同部位生姜的自由水转化为束缚水;生姜硬度呈先增后降的趋势;生姜中烯烃类挥发性成分增加,醇类、醛类成分减少。与储存0 d相比,15℃贮藏温度生姜水分状态基本保持不变,品质变化最小,25℃或4℃储存都会导致自由水和束缚水的快速迁移,结合水基本不受温度影响;储藏温度在255℃℃时时,,生姜易腐败变质硬度下降,,4℃条件下,生姜遭受冷害质地变软;储存温度的变化对生姜挥发油中主要成分(烯烃类)无显著性影响。结论:储藏温度对生姜品质具有显著影响,在相对湿度95%、15℃条件下,生姜短期贮藏保鲜效果最好,但要实现生姜的长期储藏,需要研究新的保鲜技术和方法。

上软下硬地层CSM整体式止水帷幕施工关键技术

上软下硬地层且富水环境中,基坑止水帷幕的施工质量直接影响基坑开挖安全和变形控制。依托青岛市地铁7号线周村站深大基坑工程,从施工机械、施工方法和信息化角度探讨CSM工法,形成整体式止水帷幕施工关键技术。系统研究了CSM刀盘选型与配置,浆液材料配合比,双轮铣头多点喷浆技术及注浆参数,浆液制备、存储方法,跳打搭接循环施工方法,以及CSM钻进全过程数据信息化监测方法。基于现场监测结果,CSM工法水泥土墙深基本超出设计墙深0.5%,基坑开挖过程外围水位最大降深为1.5m,右邻省道最大沉降值为13.1mm,基坑开挖安全,表明CSM整体式止水帷幕适应性强、成墙质量好。

高炉风口水腔结垢原因及防治措施

针对某钢铁厂高炉风口水腔结垢问题,对垢样进行X射线衍射(XRD)检测,检测结果显示垢样的主要成分为CaSO_(4)、CaSO_(4)·2H_(2)O和CaSO_(4)·0.5H_(2)O。分析高炉风口循环冷却水水质和原有阻垢剂性能,提出相应的改善措施,调控循环冷却水硬度在400 mg/L以下,并在原阻垢剂中配加6 mg/L乙二胺四甲叉磷酸钠(EDTMPS),有效避免了风口水垢的形成,提高了高炉风口的寿命。

对硬水不敏感型液压支架用浓缩液的研究

为解决液压液在水质硬度高或配液浓度低时产生的析出问题、保障液压支架跟机自动化的可靠性和稳定性,研究了环氧乙烷聚合物、环氧丙烷聚合物和不同方法改性脂肪酸的润滑性及抗硬水能力,通过腐蚀电位和腐蚀电流的变化,分析了环氧乙烷改性脂肪酸与缓蚀剂间的配伍性,制备了对硬水不敏感的HFAS10-5和HFAS40-5型浓缩液;对自制和市售的浓缩液进行了润滑性、防锈性和稳定性等方面的常规测试,同时评定了产品在2 000 mg/L硬水中不同浓度梯度下的稳定性。实验结果表明,以环氧乙烷改性脂肪酸作为润滑剂的浓缩液体系,采用无机和有机复合缓蚀剂,不但可以降低缓蚀剂的整体用量,还可以提高自腐蚀电位;不同型号浓缩液在高硬度水中不同浓度梯度下均能保持较好的稳定性。

转炉除尘水质优化实践

对马钢长材事业部转炉除尘水硬度高、悬浮物多、粗颗粒分离差导致的除尘水恶化问题进行分析,通过粗颗粒分离机与优化药剂处理的实践运用,优化了转炉除尘水质,提升了运行效果。

水体中硬度去除技术现状与展望

硬度离子(Ca^(2+)、Mg^(2+))等会在锅炉、管道中形成沉淀,造成生产生活中的诸多问题。水的软化处理是将硬水中的硬度离子除去的过程。介绍了离子交换软化法、膜软化法、药剂沉淀法等除硬工艺的基本原理和最新进展,分析了这些技术的优劣势,并对未来除硬技术的可能研究方向进行了展望。

不同催化剂对聚乙二醇改性油酸产物性能的影响

为提高液压液的稳定性,保障液压支架跟机移架的可靠性,采用聚乙二醇对液压液常用润滑原料油酸进行改性,研究了不同催化剂对改性产物性能的影响。以500 mg/L的人工硬水为配液水,将改性产物按相同质量比各配稀释液,考察稀释液的外观、电导率、Zeta电位、表面张力和平均粒径。实验结果表明,无机和有机强酸分别催化后的产物,在人工硬水中分散性较好,外观呈透亮状态,电导率较人工硬水自身略有提高,表面张力均在40 mN/m以上,表现出良好的亲水能力,平均粒径在30 nm以下,在人工硬水中表现出良好的稳定性。

偶联剂对地聚合物涂层性能的影响

为解决地聚合物涂层与材料附着力差、防水膜开裂等问题,本文探讨了硅烷偶联剂的用量对地聚合物涂层性能的影响规律。研究结果表明,偶联剂可以改善地聚合物的吸水率、涂层附着力、硬度,当其用量为3%时,地聚合物涂层性能最佳。