Struvite (MgNH_4PO_4·6H_2O) was dissolved and precipitated in closed-system reactors at 25°C and 7.76H<10.65. Reactive fluid Mg and P concentrations attained a stationary-state after ~10h in all experiments. The temporal variation of these concentrations was evaluated to retrieve struvite solubilities, and dissolution and precipitation rates. Resulting struvite solubilities are consistent with an equilibrium constant for the reaction: of 10~(-13.24±0.5), which is similar to values previously reported in the literature. Measured struvite dissolution and precipitation rates (r) are found to be consistent with, where r_+ symbolizes the forward dissolution rate, A refers to the chemical affinity of the dissolution reaction, R designates the gas constant, and T represents absolute temperature. Values of r_+ are found to be independent of pH and equal to 10~(-12.85±0.15) mol/cm~2/s in initially NH_4-free reactive fluids. The presence of 0.06mol/kg NH_4 in the initial reactive fluid led to non-stoichiometric element release interpreted to stem from the precipitation of a NH_4-rich phosphate phase. Use of measured rates in geochemical modeling calculations indicate that both undersaturated and supersaturated aqueous fluids will rapidly equilibrate with struvite, supporting its potential use as a renewable fertilizer.
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机译:鸟粪石(MgNH_4PO_4·6H_2O)在25°C和7.76 H <10.65的密闭系统反应器中溶解并沉淀。在所有实验中,反应液中Mg和P的浓度均在约10h后达到稳态。对这些浓度的时间变化进行了评估,以恢复鸟粪石的溶解度,溶解度和沉淀速度。生成的鸟粪石溶解度与反应的平衡常数一致:为10〜(-13.24±0.5),与先前文献中报道的值相似。测得的鸟粪石溶解和沉淀速率(r)与一致,其中r_ +表示正向溶解速率,A表示溶解反应的化学亲和力,R表示气体常数,T表示绝对温度。发现r_ +的值与pH无关,并且在最初不含NH_4的反应液中等于10〜(-12.85±0.15)mol / cm〜2 / s。初始反应液中0.06mol / kg NH_4的存在导致非化学计量元素释放,这解释为源自富含NH_4的磷酸盐相的沉淀。在地球化学模型计算中使用测得的速率表明,饱和和过饱和的含水流体都将与鸟粪石快速平衡,从而支持其作为可再生肥料的潜在用途。
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