application of combustion hot spot analysis to process furnace with arbor coils
Authors
abstract
hot spots are among the most serious operational issues in furnaces as they may result in the destruction of tubes. hence, it is essential to locate such hot spots precisely on the tube surfaces inside the industrial furnaces in order to secure a safe design and operation. in the current study, we have extended the model proposed by talmor in order to precisely locate the combustion hot spots on the surface of the tubes inside process furnaces with arbor coils. these furnaces are mostly used in catalytic reforming units. the talmor model is one of the best models for analyzing combustion hot spots on the tube surfaces of industrial furnaces. this model is developed by considering the furnace geometry and arrangement (tube arrangements and burner positions). in the current paper, we have derived and extended the equations formulated by talmor for furnaces with arbor coil. as the second step, a specific furnace already installed in a catalytic conversion unit of a refinery has been selected for the sake of modeling. the modeling of the preceding furnace was completed using the code prepared for this purpose. the results have been used not only for analyzing the hot spots but also to model the heat flux profile inside the furnace. upon modeling the furnace, the location of the hot spot on the 20th coil was predicted which was consistent with the experimental results.
similar resources
Application of Combustion Hot Spot Analysis to Process Furnace with Arbor Coils
Hot spots are among the most serious operational issues in furnaces as they may result in the destruction of tubes. Hence, it is essential to locate such hot spots precisely on the tube surfaces inside the industrial furnaces in order to secure a safe design and operation. In the current study, we have extended the model proposed by Talmor in order to precisely locate the combustion hot spots o...
full textApplication of Combustion Hot Spot Analysis to Process Furnace with Arbor Coils
Hot spots are among the most serious operational issues in furnaces as they may result in the destruction of tubes. Hence, it is essential to locate such hot spots precisely on the tube surfaces inside the industrial furnaces in order to secure a safe design and operation. In the current study, we have extended the model proposed by Talmor in order to precisely locate the combustion hot spots o...
full textconsequence analysis of the leakage, ignition and explosion during high pressure sour gas injection process to the oil reservoir
there is no doubt that human being needs to become integrated with industry and industry needs to be progressed, daily. on the other hand, serious events in industrial units specially in oil industries has been shown that such damages and events are industry related ones. the consequence of such events and damages which resulted in chemical and poisoned explosions and loss of life and property ...
Analysis of Shared Bu er Multistage Networks with Hot Spot
Multistage Interconnection Networks based on shared buuering are known to have better performance and buuer utilization than input or output buuered switches. Shared buuer switches do not suuer from head of line blocking which is a common problem in simple input buuering. Shared buuer switches have previously been studied under uniform and unbalanced traac patterns. However, due to the complexi...
full textHot Spot Analysis in Large ScaleShared Memory
Scalable multiprocessors that support a shared-memory image to application programmers are typically based on physical memory modules that are distributed. Consequently, the access times for a particular processor to various parts of physical memory di er. In this paper, we explore the implications of this non-uniformity in memory access times. In particular, we study the e ect of hot-spots in ...
full textMy Resources
Save resource for easier access later
Journal title:
journal of chemical and petroleum engineeringPublisher: university of tehran
ISSN
volume 48
issue 2 2015
Keywords
Hosted on Doprax cloud platform doprax.com
copyright © 2015-2023