Effect of calcium on adsorption capacity of powdered activated carbon

We investigated the effect of calcium ion on the adsorption of humic acid (HA) (as a target pollutant) by powered activated carbon. The HA adsorption isotherms at different pH and kinetics of two different solutions including HA alone and HA doped Ca²⁺, were performed. It was showed that the adsorption capacity of powdered activated carbon (PAC) for HA was markedly enhanced when Ca²⁺ was doped into HA. Also, HA and Ca²⁺ taken as nitrate were tested on the uptake of each other respectively and it was showed that the adsorbed amounts of both of them were significantly promoted when HA and calcium co-existed. Furthermore, the adsorbed amount of HA slightly decreased with the increasing of Ca²⁺ concentration, whereas the amount of calcium increased with the increasing of HA concentration, but all above the amounts without addition. Finally, the change of pH before and after adsorption process is studied. In the two different solutions including HA alone and HA doped Ca²⁺, pH had a small rise, but the extent of pH of later solution was bigger.     

天然腐殖酸对黄土吸附敌草隆的影响

为研究添加天然腐殖酸条件下黄土对有机农药的吸附过程及影响机制,以敌草隆为目标污染物,采用批量平衡试验法,分析黄土与黄土+HA（在黄土中添加腐殖酸）处理对敌草隆的吸附动力学、吸附热力学、解吸动力学过程及其主要影响因素（如pH、离子强度等）.结果表明:①与黄土相比,黄土+HA对敌草隆的吸附时间较短,且二者均符合颗粒内部扩散模型.②Freundlich等温吸附模型能够较好地拟合黄土及黄土+HA对敌草隆的吸附热力学过程.黄土和黄土+HA对敌草隆的吸附自由能（ΔGθ）、熵变（ΔSθ）均小于0,表明反应是一个自发进行且混乱度逐渐减小的过程;添加HA使黄土对敌草隆的焓变（ΔHθ）由负值变为正值,即由放热过程转化为吸热过程,表明温度升高使HA表面的微孔数量增多,为敌草隆提供了更多的吸附位点.③随着pH的升高,黄土和黄土+HA对敌草隆的吸附量均缓慢减小,当pH>7时吸附趋于平衡.④不同离子（Ca2+、Na+、Mg2+）及离子强度下,黄土和黄土+HA对敌草隆的吸附量随着c（Ca2+）的减小而增大,与同浓度的Mg2+和Ca2+相比,Mg2+存在下黄土对敌草隆的吸附量较大;与同浓度的Ca2+和Na+相比,Na+存在下黄土对敌草隆的吸附量较大.⑤由解吸动力学过程可以看出,添加天然HA可延长敌草隆在黄土中的滞留时间.研究显示,HA的存在提高了敌草隆在黄土中的迁移能力,并使其吸附机制发生了改变.      

活性炭/高分子复合水凝胶对水中亚甲基蓝和Cu(Ⅱ)的去除性能

采用活性炭/海藻酸钠-聚乙烯醇复合水凝胶(CAP)为吸附剂,以水溶液中的亚甲基蓝(MB)和Cu~(2+)为目标污染物,考察了固液比、p H、温度、反应时间、MB和Cu~(2+)的初始浓度等因素对吸附过程的影响.通过SEM、FTIR、BET等手段对CAP物化性质进行了表征.结果表明,CAP内部呈现互穿的三维网络多孔结构,成功复合了活性炭,具有丰富的—COOH和—OH官能团,比表面积可达112.7 m~2·g~(-1).CAP对MB和Cu~(2+)的吸附量随着固液比、温度的增大而降低,随着溶液初始p H的升高而增大;吸附属于Langmuir单层吸附,对MB和Cu~(2+)的最大吸附量分别为1 940.75 mg·g~(-1)和190.48 mg·g~(-1);反应时间在5 h内吸附量可达最大吸附量的90%,吸附动力学过程符合准二级动力学方程;活性炭/高分子复合水凝胶经过5次吸附-脱附循环再生后,仍能保持优异的吸附性能.     

腐殖酸负载羟基磷灰石对废水中Cd2+吸附性能的影响

以硝酸钙、磷酸氢二铵和腐殖酸为原料,制备了腐殖酸负载羟基磷灰石(HA/HAP)复合吸附剂.同时,利用SEM、BET、FT-IR、XRD对复合吸附剂结构和形貌进行表征,研究了HA/HAP对废水中Cd~(2+)的吸附工艺.结果表明,腐殖酸使羟基磷灰石孔容和孔径增大、比表面积减小,从而提高了羟基磷灰石的吸附性能.在pH=6、吸附剂投加量为800 mg、接触时间为180 min时吸附率最佳,为98.3%.HA/HAP对废水中Cd~(2+)的吸附是自发的、吸热的、可持续的化学吸附,反应前120 min适合采用准一级动力学伴随着内扩散模型描述,后120 min适合采用准二级动力学伴随着内扩散模型描述,Dubinin-Radushkevich(D-R)等温线模型拟合的吸附数据在不同温度下效果最好(R~20.98),吸附量分别为259.15、266.05和264.66 mg·g~(-1).研究表明,静电吸附到腐殖酸活性位点后Cd~(2+)主要以络合反应被吸附到羟基磷灰石的表面和两个羟基中间.     

土壤胡敏素对铜离子的吸附作用及其机理研究

以暗棕壤为供试土壤,研究了不同溶液pH值、离子强度、接触时间、反应温度和初始铜离子(Cu~(2+))浓度条件下,胡敏素对Cu~(2+)的吸附作用;利用扫描电子显微镜(SEM)、X-射线能量色散谱(EDS)、傅立叶变换红外光谱(FTIR)和X-射线光电子能谱(XPS),对胡敏素/胡敏素-Cu~(2+)复合物的表面形貌、元素分布和官能团组成进行了分析;应用延展X-射线吸收精细结构谱(EXAFS),对吸附态Cu~(2+)的局域配位结构进行了表征.结果表明:胡敏素对Cu~(2+)的吸附量随pH值、接触时间、反应温度和Cu~(2+)浓度的增加而增加,但随离子强度的增加而下降;吸附动力学符合准二级动力学方程,而吸附等温线用Langmuir方程的拟合效果较好;吸附过程需要能量,是自发、吸热和自由度增加的缔合反应;吸附Cu~(2+)之后,胡敏素表面产生了团聚现象,表面羧基、羟基、吡啶氮和N—O基团参与了Cu~(2+)的吸附作用,同时吸附态Cu~(2+)是以内层配位形式与胡敏素表面的O/N和C原子结合.     

缺钙型羟基磷灰石对溶液中氟离子的吸附作用研究

利用一种含磷废水处理副产物--缺钙型羟基磷灰石(d-HAp)作为吸附剂,研究了其对氟离子的去除分离性能,探讨了溶液pH值、d-HAp投加量、共存钙镁离子及氯离子等因素对吸附作用的影响.结果表明,该缺钙型羟基磷灰石能够在较宽的pH范围(4～7)内有效吸附氟离子,并保持85%以上的去除率.高达200倍的Ca2+、Mg2+离子及Cl-离子的存在并未对氟离子的吸附产生明显影响,可适用于广大高氟水地区.该缺钙型羟基磷灰石对氟离子的吸附动力学符合Lagergren拟二级反应动力学方程,吸附速率快.吸附氟离子的过程可用Langmuir吸附等温模型描述,静态吸附容量可达26.11 mg·g-1.在实验条件下的吸附体系中,吸附机制主要为离子交换作用.     

地浸井场外围含水层砂岩对铀的吸附行为

天然含水层介质对铀的吸附是地下水铀天然衰减的决定因素.然而,人们对天然含水层砂岩吸附铀行为的认识相当有限.因此,本文采用静态实验及数值模拟相结合的方法研究了地浸井场外围砂岩对铀的吸附行为,探究了天然砂岩对溶液中铀的吸附动力学和等温吸附特征,研究了铀初始浓度、pH、其他离子种类与浓度对铀吸附的影响.结果表明,准二级动力学方程与Freundlich等温吸附模型可以更好地表征砂岩对铀的吸附行为;随着溶液中铀初始浓度的增大,砂岩对水溶液中铀的吸附量增大,吸附率减小;在初始pH=3时,铀的吸附率达到最大,为77%;砂岩对溶液中铀的吸附率会随反应体系中Ca²⁺、Mg²⁺、SO₄^2-、HCO^-₃等离子浓度的升高而下降,4种共存离子对该吸附过程抑制能力的顺序为:SO₄^2-2+2+-₃.这些研究结果可为地浸...     

腐殖酸对针铁矿吸附磷的影响机理

通过添加HA(Humic acid,腐殖酸),研究不同环境条件下HA对针铁矿吸附磷的影响. 结果显示,加入HA能显著降低磷吸附量,pH为4.5时分别加入100和40 mg/L HA,磷的最大吸附量分别降低了26.6%和25.6%;pH为7.0时分别加入100和40 mg/L HA,磷的最大吸附量分别降低了26.8%和23.1%. 不同添加顺序试验结果表明:针铁矿对磷的吸附量大小顺序为后添加HA>同时添加HA和磷>先添加HA;无论是否添加HA,针铁矿对磷的吸附量都随着pH的升高而降低,相应的吸附等温线也都符合Langmuir吸附等温方程;总有机碳和红外光谱特征表明,HA和磷在针铁矿表面吸附点位形成竞争吸附,并且针铁矿表面的羟基在吸附磷和HA的过程中起到了一定的作用.      

Adsorption of humic acid from aqueous solution on bilayer hexadecyltrimethyl ammonium bromide-modified zeolite

Surfactant-modified natural zeolites (SMNZ) with different coverage types were prepared by loading hexadecyltrimethyl ammonium bromide (HTAB) onto the surface of a natural zeolite. The adsorption behavior of humic acid (HA) on SMNZ was investigated. Results indicate that the adsorbent SMNZ exhibited a higher affinity toward HA than the natural zeolite. HA removal efficiency by SMNZ increased with HTAB loading. Coexisting Ca²⁺ in solution favored HA adsorption onto SMNZ. Adsorption capacity decreased with an increasing solution pH. For typical SMNZ with bilayer HTAB coverage, HA adsorption process is well described by a pseudo-second-order kinetic model. The experimental isotherm data fitted well with the Langmuir model. Calculated maximum HA adsorption capacities for SMNZ with bilayer HTAB coverage at pH 5.5 and 7.5 were 63 and 41 mg·g⁻¹, respectively. E2/E3 (absorbance at 250 nm to that at 365 nm) and E4/E6 (absorbance at 465 nm to that at 665 nm) ratios of the residual HA in solution were lower than that of the original HA solution. This indicates that the HA fractions with high polar functional groups, low molecular weight (MW), and aromaticity had a stronger tendency for adsorption onto SMNZ with bilayer HTAB coverage. Results show that HTAB-modified natural zeolite is a promising adsorbent for removal of HA from aqueous solution.     

Effects of bile salts and divalent cations on the adsorption of norfloxacin by agricultural soils

The effects of bile salts （sodium cholate and sodium deoxycholate, 0-20 mmol/L）, divalent cations （Ca^2＋, Mg^2＋, Cu^2＋ and Zn^2＋, 0-20 mmol/L） or pH （3.0-10.0） on the adsorption of norfloxacin by three selected soils （Paddy_H, Paddy_G and Red_J） were systematically studied. Soil adsorption of norfloxacin follows a pseudo second-order kinetics model, and the maximum adsorption capacity has been determined from the nonlinear fit of the Langmuir isotherm model to be 88.8, 88.1 and 63.0 μmol/g for the adsorption onto Paddy_H, Paddy_G and Red_J, respectively. The results indicate that norfloxacin has a high adsorption affinity for the agricultural soils tested and that the organic content of these soils have at least a slight influence on this adsorption. The adsorption of norfloxacin to soils was strongly dependent on pH and exhibited a maximum at approximately pH 6. The presence of divalent cations prominently suppressed the adsorption of norfloxacin by paddy soils, which followed an order of Cu^2＋ 〉 Mg^2＋ 〉 Ca^2＋ 〉 Zn^2＋, and by red soil, which followed an order of Cu^2＋ 〉 Zn^2＋ 〉 Ca^2＋ 〉 Mg^2＋. The adsorption of norfloxacin （by the soils studied） sharply decreased as the amount of bile salts was increased. For uncharged norfloxacin at environmentally relevant pH values, such factors as soil type, exogenous divalent cations and macromolecules significantly altered the environmental fate and transport of norfloxacin between aquatic and soil interfaces.     

发酵稻壳对亚铁离子和硫离子的吸附-解吸附特性

为了解发酵稻壳对Fe2+和S2-离子的固定潜力,采用静态批式法研究了发酵稻壳对Fe2+和S2-离子的吸附行为,探讨了反应时间、溶液中Fe2+和S2-浓度、溶液p H、吸附反应环境温度及溶液离子强度对发酵稻壳吸附Fe2+和S2-特性的影响,并进一步通过解吸附试验了解发酵稻壳吸附态Fe2+和S2-的稳定性.结果表明,发酵稻壳吸附Fe2+(r=0.912 1)和S2-(r=0.901 1)的动力学过程均符合Elovich动力学模型,且Fe2+(R2=0.965 1)和S2-(R2=0.936 6)的等温吸附特征可较好地用Freundlich等温吸附模型描述.发酵稻壳对Fe2+和S2-的吸附为非优惠型吸附,其中对Fe2+的吸附为非自发反应,对S2-的吸附为自发反应.发酵稻壳对Fe2+和S2-的吸附过程是一吸热过程,升温有利于吸附作用的进行,发酵稻壳对Fe2+的吸附主要为配位吸附,而对S2-的吸附主要为阴离子交换吸附.一定p H范围内(1.50~11.50)发酵稻壳吸附Fe2+和S2-具有较强的适应性.同时随着离子强度的增加发酵稻壳对Fe2+的吸附量有所增加,而对S2-的吸附量略有减少,进一步证明发酵稻壳对Fe2+的吸附以内层配位为主,对S2-的吸附以外层络合为主.此外,不同p H条件及离子强度下发酵稻壳吸附的Fe2+和S2-解吸率很低,解吸率均小于10.00%.上述结果说明,发酵稻壳对Fe2+和S2-具有较好的吸附能力和环境适应性,吸附态Fe2+和S2-稳定性好,不易再释放.     

Mo-TiO2/AC光催化剂的制备及可见光降解L-酸的研究

采用溶胶-凝胶法制备了Mo⁶⁺掺杂TiO₂光催化剂,并将其负载于粒状活性炭上,以1-萘酚-5-磺酸(L-酸)为模型反应物,研究了对L-酸的光催化作用并讨论了不同光源以及负载次数对L-酸的去除率和溶液的总有机碳去除率的影响.结果表明, Mo⁶⁺掺杂扩大了TiO₂催化剂的光谱响应范围.负载于活性炭上的掺杂二氧化钛为锐钛矿相,粒径约为17.8　nm.负载次数增多,催化剂的活性下降.Mo⁶⁺的掺杂不影响负载催化剂的紫外光活性及对L-酸的吸附能力.100　mg·L^-1的L-酸溶液加0.4 g催化剂,在可见光下反应4 h,掺杂催化剂对L-酸和溶液总有机碳的去除率分别为57%和53%,而未掺杂的催化剂去除率分别为13%和10%.催化剂反复使用4次,催化活性没有变化.     

不同沉淀pH值条件下制备的水合氧化锆对水中磷酸盐的吸附作用

研究了沉淀pH值分别为4.8、8.0和10.6条件下制备的水合氧化锆对水中磷酸盐的吸附作用,结果表明,共存的Na~+仅仅略微促进了沉淀pH值为4.8和8.0时所得水合氧化锆对水中磷酸盐的吸附,却明显促进了沉淀pH值为10.6时所得水合氧化锆对磷酸盐的吸附.共存的Ca~(2+)仅仅略微促进了沉淀pH值为4.8时水合氧化锆对磷酸盐的吸附,却极大地促进了沉淀pH值为8.0和10.6时水合氧化锆对磷酸盐的吸附.共存的HCO_3~-和SO_4~(2-)抑制了水合氧化锆对磷酸盐的吸附,且它们对沉淀pH值为4.8时水合氧化锆吸磷的抑制作用明显大于对沉淀pH值为8.0和10.6时水合氧化锆的抑制作用.不同沉淀pH值条件下制备的水合氧化锆对水中磷酸盐的吸附能力均随着溶液pH值的增加而降低.不同沉淀pH值条件下所得水合氧化锆对水中磷酸盐的吸附平衡数据可以采用Langmuir、Freundlich和Dubinin-Redushckevich(D-R)等温吸附模型加以描述.存在Na+而不存在Ca~(2+)情况下,3种不同沉淀pH值条件下所得水合氧化锆对中性溶液中磷酸盐的最大单层吸附容量差别不大;存在Ca~(2+)情况下,沉淀pH值为8.0和10.6时所得水合氧化锆对中性溶液中磷酸盐的最大单层吸附容量远远高于沉淀pH值为4.8时制备的水合氧化锆.沉淀pH值为4.8和8.0时所得水合氧化锆的吸磷机制主要是表面氯和羟基基团与磷酸盐之间的配位体交换作用,而沉淀pH值为10.6时所得水合氧化锆的吸磷机制主要是表面羟基基团与磷酸盐之间的配位体交换作用.以上研究结果显示,与沉淀pH值为4.8时制备的水合氧化锆相比,沉淀pH值为8.0和10.6时制备的水合氧化锆更加适合作为吸附剂去除废水中的磷酸盐.     

非均相催化臭氧处理高浓度制药废水的研究

非均相催化臭氧是一种对高浓度制药废水进行预处理的有效方法.本研究采用单一活性炭吸附、单一臭氧氧化和臭氧/活性炭联用3种体系对实际制药废水进行预处理,并对处理过程中的工艺参数进行优化.结果表明,相比单一活性炭吸附和单一臭氧降解体系,臭氧/活性炭联用体系能显著提高COD、TOC的去除率及BOD5/COD值,并显示出良好的协...     

Use of zeolitized coal fly ash in the simultaneous removal of ammonium and phosphate from aqueous solution

Discharge of wastewater containing nitrogen and phosphate can cause eutrophication. Therefore, the development of an efficient material for the immobilization of the nutrients is important. In this study, a low calcium fly ash and high calcium fly ash were converted into zeolite using the hydrothermal method. The removal of ammonium and phosphate that coexist in aqueous solution by the synthesized zeolites were studied. The results showed that zeolitized fly ash could efficiently eliminate ammonium and phosphate at the same time. Saturation of zeolite with Ca²⁺ rather than Na⁺ favored the removal of both ammonium and phosphate because the cation exchange reaction by the NH₄ ⁺ resulted in the release of Ca²⁺ into the solution and precipitation of Ca²⁺ with PO₄ ³⁻ followed. An increase in the temperature elevated the immobilization of phosphate whereas it abated the removal of ammonium. Nearly 60% removal efficiency for ammonium was achieved in the neutral pH range from 5.5 to 10.5, while the increase or decrease in pH out of the neutral range lowered the adsorption. In contrast, the removal of phosphate approached 100% at a pH lower than 5.0 or higher than 9.0, and less phosphate was immobilized at neutral pH. However, there was still a narrow pH range from 9.0 to 10.5 favoring the removal of both ammonium and phosphate. It was concluded that the removal of ammonium was caused by cation exchange; the contribution of NH₃ volatilization to immobilization at alkaline conditions (up to pH level of 11.4) was limited. With respect to phosphate immobilization, the mechanism was mainly the formation of precipitate as Ca₃(PO₄)₂ within the basic pH range or as FePO₄ and AlPO₄ within acidic pH range.     

钙预处理对磁性锆铁改性膨润土吸附水中磷酸盐的影响

本研究制备了2种不同Ca2+含量的磁性锆铁改性膨润土(ZrFeBTs),即磁性锆铁改性原始膨润土(ZrFeRBT)和磁性锆铁改性钙预处理膨润土(ZrFeCaBT),并通过吸附实验考察了ZrFeRBT和ZrFeCaBT对水中磷酸盐的吸附特征,以确定Ca2+预处理对ZrFeBTs吸附水中磷酸盐的影响。结果发现,本研究所制备的ZrFeBTs包含Fe3O4和Zr,并且ZrFeCaBT中可交换Ca2+的含量明显高于ZrFeRBT。ZrFeBTs对水中磷酸盐吸附平衡实验数据可以很好地采用Langmuir等温吸附模型加以描述,动力学实验数据可以很好地采用准二级动力学模型和颗粒内扩散模型进行描述。根据Langmuir模型确定的ZrFeRBT和ZrFeCaBT对水中磷酸盐的最大单位吸附量(以磷计)分别为8.70mg·g-1和11.5mg·g-1。ZrFeBTs吸附水中磷酸盐的过程属于化学吸附。随着pH值的增加,ZrFeBTs对水中磷酸盐的吸附效果逐渐降低。当溶液共存Cl-、HCO3-、SO42-、NO3-、Na+、K+、Mg2+和Ca2+等阴阳离子时,ZrFeBTs对水中磷酸盐的吸附具有很好的选择性,并且溶液共存的Ca2+会极大地促进了ZrFeBTs对水中磷酸盐的吸附。采用Ca2+对膨润土进行预处理,极大地提高了ZrFeBTs对水中磷酸盐的吸附能力。     

电场辅助活性炭吸附法去除水中的Cu2+

通过电场辅助活性炭吸附水中的Cu²⁺,分析吸附机理,pH值对Cu²⁺吸附的影响以及活性炭电极的再生性.结果表明,活性炭电极添加电场后,Cu²⁺的去除率明显提高,当活性炭电极间施加1.0V电压时,Cu²⁺的去除率提高了223.5%.通过Langmuir和Freundlich吸附等温线模型分析,添加电场后,活性炭电吸附Cu²⁺主要是带电活性炭表面形成的双电层作用,而不仅仅是活性炭表面化学吸附点位.pH值对电场辅助活性炭吸附水中Cu²⁺的影响极大,pH值太低时,水中H⁺会与Cu²⁺竞争活性炭表面化学吸附点位以及双电层点位.研究发现采用电极短接方式可提高Cu²⁺后的脱附率及脱附速率,脱附率达到79.1%.通过FTIR图谱可知,表面官能团-COOH和-C=O吸附的Cu²⁺难以脱附出来,但得益于此,再循环吸附-脱附2~4次时,主要以双电层静电吸附为主,脱附效率提高,电极的再生性良好.     

酸碱复合改性海泡石亚结构特征及其对Cd(Ⅱ)吸附性能

为强化海泡石(Sep)对溶液中Cd²⁺的吸附性能,采用酸碱复合改性处理获得改性海泡石(ABsep),借助氮气吸脱附等温线、SEM-EDS、TEM、FTIR和XRD等技术分析了改性前后海泡石的结构特征,采用静态吸附实验研究了时间、ABsep/Cd²⁺质量比、温度、吸附剂用量、pH及共存离子等因素对ABsep吸附Cd²⁺的影响.结果表明,ABsep孔隙结构发达,比表面积、平均孔径和孔容分别较改性前增加66.1%、15.7%和34.8%,可交换性离子含量有所增加,主要成分为SiO₂和Mg(OH)₂.改性前后海泡石对Cd²⁺吸附过程能较好地以准二级动力学方程和Langmuir模型进行拟合,且均为自发吸热反应,以化学吸附为主并伴有物理性吸附;最佳ABsep/Cd²⁺质量比为3:1;298 K时Sips拟合ABsep对Cd²⁺最大饱和吸附量为142.43 mg·g^-1,为改性前海泡石的3.55倍;随着吸...     

外源Ca2+对SBR启动期活性污泥胞外多聚物的动态影响

利用无机物如Ca~(2+),加快活性污泥反应器启动,强化活性污泥絮体性能和结构稳定性,受到越来越多的重视.采用序批式反应器,研究进水中添加Ca~(2+)对反应器启动期活性污泥沉降性能和胞外多聚物的影响.结果表明运行至28 d,与进水中不添加Ca~(2+)的反应器(对照反应器)相比,进水中添加150 mg·L~(-1)外源Ca~(2+)的反应器中活性污泥MLSS和MLVSS值分别高出了89.6%和75.6%,SVI值则降低了47.9%;活性污泥胞外多聚物总量增加了76.4%,多糖增加了28.8%,蛋白质减少了31.6%,添加150 mg·L~(-1)外源Ca~(2+)的反应器中污泥胞外多聚物中多糖/蛋白质值为68.8,对照反应器的活性污泥胞外多聚物多糖/蛋白质值仅为36.6.三维荧光光谱和红外光谱分析表明外源Ca~(2+)导致活性污泥胞外多聚物组分发生了变化.实验结果为进水中添加外源Ca~(2+)改善活性污泥沉降性能提供了基础数据.     

岩溶地下水补给的地表河流溶解无机碳昼夜变化与钙沉降

溶解无机碳昼夜动态变化对河流水体碳通量的估算有重要影响。本文选择由地下水补给且富含水生植物的典型河流,开展高分辨率水文地球化学监测和高频率水样取样工作,分析了水化学的昼夜动态变化特征,钙与无机碳昼夜循环产生的生物地球化学控制机理,估算了钙与无机碳昼夜通量。结果表明,白天pH、SIC上升,产生钙沉降和水体无机碳(主要为HCO-3)含量的下降,夜间得到地下水的补给,Ca2+和HCO-3浓度回升。监测期间,官村地下河出口地表河流钙与溶解有机碳的流失或沉降量分别为69.04kg/d和168.68kg/d,即51.14g/(m·d)和124.95g/(m·d),分别占输入量的6.2%和4.7%。受水生植物光合作用和钙化作用控制,沿流程发生无机碳向有机碳转化,是真正意义上的自然碳汇。