1 Water Technology Centre for Eastern Region (Indian Council of Agricultural Research), Bhubaneswar - 751023, Orissa, India. (
2 Department of Agricultural and Food Engineering, Indian Institute of Technology, Kharagpur - 721302, West Bengal, India.
null
Realizing the need for improving the performance of the existing irrigation systems within their physical constraints, an integrated optimization-simulation (IOS) model is developed and applied to the Right Bank Main Canal (RBMC) system of Kangsabati Irrigation Project, West Bengal, India. The model decides the time series optimal canal releases at the system source and selected inline structures. The integrated model consists of a non linear optimization routine, a canal hydraulic module (MIKE 11) and a command hydrological module (MIKE SHE). An improved rotational delivery schedule developed earlier is used in conjunction with the integrated model. To evaluate effectiveness of integrated model in improving the performance of a main canal system, three-simulation scenarios such as (i) MIKE 11 and MIKE SHE simulation (MMS), (ii) Integrated Optimization-Simulation (IOS), and (iii) Integrated Optimization-Simulation with Improved Schedule (IOS_IS) are considered. Simulation results using the integrated model and improved delivery schedule recorded a significant improvement in the values of three performance indicators i.e., adequacy, equity and dependability. Three-year average of weighted adequacy improved from 0.65 to 0.71 (IOS and IOS_IS); whereas three-year average equity improved from 0.32 to 0.22 (IOS) and 0.18 (IOS_IS). Similarly, three-year average of weighted dependability improved from 0.62 to 0.49 (IOS and IOS_IS). Encouraging results demonstrated the capability of integrated modeling approach as a cost-effective solution for improved system performance within the existing infrastructure.
