چكيده به لاتين
The configuration of the cross flow in the combustion is simple and controlled and can be modeled with high precision. Therefore, it can be used in parallel for modeling and experimental experiments. On the other hand, the theoretical study of this configuration allows for the initial practical and practical study of it. The combustion profile of the interconnected flow is preformed and non-preformed, which allows for the study of the combustion properties of preformed and non-preformed streams. According to the above-mentioned properties of combustion properties, the cross-flow of cloud particles and the vast applications that can be found in various industries, theoretical models of combustion of the interconnected flow of pre-mixed and non-precipitated particles are presented in this study.
The format of this thesis is that in the first and second chapters, a review of the literature on the topic and the previous work done in the field of combustion of particles and nano particles and combustion of the cross flow is dealt with. In the third and fourth chapters, the multi-regional combustion modeling of the non-preformed cross flow for a thin-walled zone is a d and evaporative region and a non-limited area for these two regions. It is assumed, that the cloud nano particles as a solid fuel and air as an exhaust from two different nozzles co-located on both sides of the plate, move to this page, assuming that The particles are first dried and then evaporated to produce a specific chemical structure and the gas enters the oxidation reaction process.
In the third chapter of the thesis, the result of modeling is validated by reference by Mr. Wang [69]. The change in the new state of Wang's work is about 25% of the change for the flame location.
In the fourth chapter of the dissertation, the result of modeling based on the work of Mr. Wang [69], according to our work, suggests flame location changes of 5.33%.
According to our preliminary expectation, the method used in Chapter 4, which is the same non-limiting method, leads to better closeness and fewer changes.
Finally, the fifth chapter will be titled "Conclusions and suggestions" at the end of this thesis.
Keywords: Combustion, cloud nano particles, cross flow, non-premixed, multi-region
