Simulation of Sulfur Cycle in Estuarine Sediments

Journal of the Environmental Engineering Division Pub Date : 1980-02-01 DOI:10.1061/JEEGAV.0000996
D. A. Bella, K. Williamson
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引用次数: 2

Abstract

A mathematical model of estuarine sediment is developed using rate coefficients and field measurements. The model has a particular emphasis on the sulfur cycle and includes specific chemical components of dissolved oxygen, soluble organic carbon, sulfates, free sulfides, total sulfides, sulfide capacity, sulfur, and pyrite. Different levels of sediment organics (OCS) and turnover rates (RST) are mathematically imposed and the subsequent levels of chemical components are determined after a 210-day period. General chemical properties are identified for a RST-OCS plane.
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河口沉积物中硫循环的模拟
利用速率系数和实测资料,建立了河口泥沙的数学模型。该模型特别强调硫循环,包括溶解氧、可溶性有机碳、硫酸盐、游离硫化物、总硫化物、硫化物容量、硫和黄铁矿的特定化学成分。不同水平的沉积物有机物(OCS)和周转率(RST)被数学施加,随后的化学成分水平在210天的周期后被确定。确定了RST-OCS平面的一般化学性质。
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Journal of the Environmental Engineering Division
Journal of the Environmental Engineering Division
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