فهرست مطالب masoud pourgholam

Clogging of emitters is one of the problems of trickle irrigation with saline water. This study was carried out with the purpose of investigating emitters clogging in trickle irrigation using magnetized water under different salinity level. In this study two treatments of magnetized water and non-magnetized water considered were as main factors (variables) and three levels of saline water including waters with saline of 0.57, 5 and 10 dS/m and three distance including the first of lateral, middle and the end of lateral were as sub-factors. The experiment was laid out with split-split plot in a complete randomized block design with three replications at Babolsar city in 2016. In order to assess the clogging of emitters, the variations of emitter discharges and chemical analysis of water was measured and analyzed. The results showed that the effect of magnetized water on average discharge of emitters and uniformity coefficient was significant (at P≤0.05). At the end of the irrigation season, the average discharge of emitters used for the magnetized water was 7.3% higher than the non-magnetized water. Also, the uniformity coefficient of emitters used for magnetized water was 7.9% higher than non-magnetized water. For saline water of 10 dS/m, the average discharge of emitters was 4.02 L/hr at the first irrigation period and reached 3.69 L/hr at the final irrigation period, while for magnetized water, it was 4.05 L/hr at the first irrigation period and reached 3.85 L/hr at the final irrigation period. According to this research, the using magnetized water is recommended in order to decrease the emitter clogging and increase the water uniformity in the field.

Due to the limited water resources, the deficit irrigation would be one of the most relevant methods in this situation. The purpose of this study was to optimize the water consumption and nitrogen level simultaneously. In this research, two different irrigation strategies of 75% (I2), 50% (I3) and 25% (I4) of water requirement and full irrigation (I1) and different nitrogen treatments with application of 150 (N1), 112.5 (N2) and 75 (N3) Kg/ha was investigated on yield production. Optimization of water and nitrogen showed that the proper yield function of soybean is the transcendental model among linear, Cobb-Douglas, quadratic and transcendental models. The optimum water and nitrogen levels of soybeans under water-nitrogen stress conditions was estimated 230 and 216.5 mm of water and 150 kg of nitrogen in two years. The results showed that the yield production was increased by 33.28% in N3 with deficit irrigation treatment (I2) as compared with full irrigation method.

Study on effects of changing the oxide thickness, can give us a view of the aspects of MOSFET, in field of design of the transistor elements. Changing the oxide thickness affects on both Cox and Vt. At first, in this paper, the relation between the threshold voltage and oxide thickness will be discussed. Then, the relation between the drain current and oxide thickness will be modeling. The result is a nonlinear and parabolic relationship between the drain current and oxide thickness. To ensure the authenticity of the obtained model, a MOSFET parameters, based on 5 µm CMOS technology was designed. This MOSFET was simulated with COMSOL software and obtained mathematical model analyzed with MATLAB. Finally, the data were compared, which confirmed the authenticity of the mathematical model.