CAJ | 학술논문

针对泥沙数学模型作为预报河床冲淤的研究手段在进一步发展中受到有关物理参数的限制，分析河口泥沙数学模型涉及的若干关键问题。从三维微分方程竖向积分角度分析认为恢复饱和系数理论上应大于1；指出泥沙非均匀系数、相对粒级以及泥沙固结对河口冲淤有一定影响，给出适用于河口非均匀黏性沙的任意 k粒级的黏性力表达式、起动概率公式和临界起动切应力公式，探讨临界淤积切应力表达式在处理细颗粒泥沙絮凝时的作用；认为根据最大或最小含沙量对应的水流泥沙要素来确定河口水流挟沙能力公式比以往按半潮平均来处理在理论上更为合理，提出适合潮汐河口的非恒定水流挟沙能力公式；指出数值计算和验证有待改进之处。
침대니사수학모형작위예보하상충어적연구수단재진일보발전중수도유관물리삼수적한제，분석하구니사수학모형섭급적약간관건문제。종삼유미분방정수향적분각도분석인위회복포화계수이론상응대우1；지출니사비균균계수、상대립급이급니사고결대하구충어유일정영향，급출괄용우하구비균균점성사적임의 k립급적점성력표체식、기동개솔공식화림계기동절응력공식，탐토림계어적절응력표체식재처리세과립니사서응시적작용；인위근거최대혹최소함사량대응적수류니사요소래학정하구수류협사능력공식비이왕안반조평균래처리재이론상경위합리，제출괄합조석하구적비항정수류협사능력공식；지출수치계산화험증유대개진지처。
Mathematical model of sediment has become an essential research approach to predict erosion and deposition in estuaries .However ,the further development of the model was limited by the related physical parameters .According to this limitation ,it analyzed some key problems involved in the mathematical model for estuarine sediment transport . From the perspective of vertical integration of the three dimensional differential equation , the result of the equation analysis show s that the recovery saturation coefficient should be greater than 1 unit theoretically ;it indicated that the sediment non‐uniform coefficient , relative particle size and sediment consolidation all have some effects on erosion/deposition process of estuary ,provide suitable mathematical expressions for cohesive force of arbitrary K gradation , incipient probability and critical incipient shear stress of non‐uniform cohesive sediment in estuary , discussed the role of critical deposition shear stress in dealing with the flocculation of fine sediment .It argued that it will be more reasonable that the formula for sediment transport capacity of flow is determined by the water and sediment parameters corresponding to the maximum or minimum sediment concentration than by the averaged ones in theory .And also ,it presented the formula for carrying capacity of unsteady water ;pointed out the numerical calculation and the problem of imperfect verification .