The Canal lining is usually used to decrease seepage loss and raise water transport efficiency. Traditional unlined irrigation canals often suffer from significant water loss due to leakage and low water levels, negatively impacting hydraulic performance and irrigation efficiency. Despite the widespread use of irrigation canal lining, there have been few studies to evaluate the effect of different lining types in controlling seepage under varying conditions. This paper focuses on assessing the effect of two different types of concrete lining and concrete quilt on improving the hydraulic performance of the Bani Hassan irrigation canal. A one-dimensional steady-state hydraulic model was created using HEC-RAS version 6.6 software to simulate flow distribution in the canal. In this model, the hydraulic calculations are derived from a one-dimensional energy equation between the canal cross-section, relying on the canal geometry and the manning roughness coefficient. Thus, the software iteratively processes the water surface. The Manning’s roughness coefficient for the concrete surface was calibrated using the root mean square error (RMSE) method. Seepage losses through the canal section were then calculated based on Darcy’s law for both pre-lining and post-lining conditions. The results showed that unlined canal sections recorded seepage losses of 4,546 m³/day, whilst concrete quilt lining reduced these losses to 599 m³/day (≈92% reduction) and concrete lining to 588 m³/day (≈95% reduction). The contribution of this study lies in analyzing the hydraulic efficiency of Iraqi irrigation systems represented by the Bani Hassan Canal, lined with concrete versus concrete quilt under identical conditions, using hydraulic modeling and seepage rate estimation to assess changes in efficiency.
The downhole flow profiles of the wells with single production tubes and mixed flow from more than one layer can be complicated, making it challenging to obtain the average pressure of each layer independently. Production log data can be used to monitor the impacts of pressure depletion over time and to determine average pressure with the use of Selective Inflow Performance (SIP). The SIP technique provides a method of determining the steady state of inflow relationship for each individual layer. The well flows at different stabilized surface rates, and for each rate, a production log is run throughout the producing interval to record both downhole flow rates and flowing pressure. PVT data can be used to convert measured in-situ rates
... Show MoreAbstract: This research aims to investigate and analyze the most pressing issues facing the Iraqi economy, namely economic stability and inclusive growth Consequently, the present study investigates the effect of inflation and unemployment, which are significant contributors to economic instability, on inclusive growth dimensions such as GDP, education, health, governance, poverty, income inequality, and environmental performance. From 1991 to 2021, secondary data were collected using World Bank Indicators (WDI) and Organization for Economic Cooperation and Development (OECD) databases. The researchers also employed the autoregressive distributed lag (ARDL) model to determine the relationship between variables. The study revealed that fluct
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