“…In addition to the phenomenological constants, the model includes technological parameters, for example, mass flow rate of gas which is constant at stationary flow, that can also be determined from these measurements. This inverse problem of determining the coefficients of differential equations via some additional information about behavior of the solution is the subject of this paper, where upon the algorithms of determining the parameters of ordinary differential equations created in [8,10,11] are generalized for the hydrate formation model proposed in [1][2][3][4][5][6][7][8]. An essential feature of this model is the determination of pipe cross-section that changes with time along with the calculation of gas temperature and pressure distribution via solving the Cauchy problem for equation which describes how dimensionless cross-section S changes over time:…”