دانلود مقاله Canonical Monte Carlo Simulation Study of Hydrogen

دانلود مقاله Canonical Monte Carlo Simulation Study of Hydrogen Storage on Single Walled Silicon Nanotube :Temperature and Pressure Effects با word دارای 7 صفحه می باشد و دارای تنظیمات در microsoft word می باشد و آماده پرینت یا چاپ است

فایل ورد دانلود مقاله Canonical Monte Carlo Simulation Study of Hydrogen Storage on Single Walled Silicon Nanotube :Temperature and Pressure Effects با word کاملا فرمت بندی و تنظیم شده در استاندارد دانشگاه و مراکز دولتی می باشد.

این پروژه توسط مرکز مرکز پروژه های دانشجویی آماده و تنظیم شده است

توجه : در صورت  مشاهده  بهم ریختگی احتمالی در متون زیر ،دلیل ان کپی کردن این مطالب از داخل فایل ورد می باشد و در فایل اصلی دانلود مقاله Canonical Monte Carlo Simulation Study of Hydrogen Storage on Single Walled Silicon Nanotube :Temperature and Pressure Effects با word،به هیچ وجه بهم ریختگی وجود ندارد

بخشی از متن دانلود مقاله Canonical Monte Carlo Simulation Study of Hydrogen Storage on Single Walled Silicon Nanotube :Temperature and Pressure Effects با word :

سال انتشار: 1388

محل انتشار: سومین همایش پیل سوختی ایران

تعداد صفحات: 7

چکیده:

A canonical Monte Carlo (CMC) simulation was employed to predict the adsorption capacity of hydrogen in single-walled silicon nanotube (SWSiNT) of a hypothetical armchair structural model. five temperatures (77,100,200,273 and 313K), and pressure range 1.0 to 10.0 MPa were chosen to investigate the effect of temperature and pressure on the adsorption behaviour. The results showed that the gravimetric adsorption capacity amounts increase when the temperature decreases or the pressure increases and also hydogen adsorption on outer surface of tube is higher compared to the inner surface . All adsorption isotherms for H2 are characterized by type I (Langmuir shape), indicating improved solid-fluid interactions. In addition ,The CMC simulation of nanotube with H2 showed enhancement of H2 adsorptivity of SiNT, as compared with CNT. Concretely, the (14, 14) SWSiNT present distinct improvement in the gravimetric adsorption capacity of H2 at 298 K under pressure range of 1.0 to 10.0 MPa, as compared with isodiameter (22, 22) CNT. This recommends that SiNT is a capable candidate for hydrogen storage.