E-ISSN 1658-7073 | ISSN 1658-6638
 

Original Research 


Parametric Analysis of Diesel-Brayton Combined Cycle

M.N.Khan.

Abstract
The present study is the comparative parametric energy and exergy analysis of a Proposed Diesel Brayton combined cycle (PCC) and a simple Diesel cycle (DC) by varying the compression ratio (r)and ratio of cut-­off to stroke length (k) of Diesel cycle. Proposed Diesel Brayton combined cycle (PCC) consisting of Diesel cycle as topping cycle and Brayton cycle as bottoming cycle which is operated by the exhaust of topping cycle. The result shows that with increase of the compression ratio (r)and ratio of cut-­off to stroke length (k), the net output in both PCC and DC increases as well as the exergy loss by the exhaust gasses also increases. The maximum enhancement in net output by PCC is observed as 9.8% at r = 25 when k =10%as compared to DC.

Key words: Compression Ratio, Pressure Ratio, Diesel Cycle, Brayton cycle, Exergy loss


 
ARTICLE TOOLS
Abstract
PDF Fulltext
How to cite this articleHow to cite this article
Citation Tools
Related Records
 Articles by M.N.Khan
on Google
on Google Scholar
Article Statistics
 Viewed: 1
Downloaded: 1


How to Cite this Article
Pubmed Style

M.N.Khan. Parametric Analysis of Diesel-Brayton Combined Cycle. JECAS. 2018; 5(1): 12-19. doi:10.5455/jecas.2018050103


Web Style

M.N.Khan. Parametric Analysis of Diesel-Brayton Combined Cycle. http://jecasmu.org//?mno=92612 [Access: March 18, 2020]. doi:10.5455/jecas.2018050103


AMA (American Medical Association) Style

M.N.Khan. Parametric Analysis of Diesel-Brayton Combined Cycle. JECAS. 2018; 5(1): 12-19. doi:10.5455/jecas.2018050103



Vancouver/ICMJE Style

M.N.Khan. Parametric Analysis of Diesel-Brayton Combined Cycle. JECAS. (2018), [cited March 18, 2020]; 5(1): 12-19. doi:10.5455/jecas.2018050103



Harvard Style

M.N.Khan (2018) Parametric Analysis of Diesel-Brayton Combined Cycle. JECAS, 5 (1), 12-19. doi:10.5455/jecas.2018050103



Turabian Style

M.N.Khan. 2018. Parametric Analysis of Diesel-Brayton Combined Cycle. Journal of Engineering, Computing and Applied Sciences, 5 (1), 12-19. doi:10.5455/jecas.2018050103



Chicago Style

M.N.Khan. "Parametric Analysis of Diesel-Brayton Combined Cycle." Journal of Engineering, Computing and Applied Sciences 5 (2018), 12-19. doi:10.5455/jecas.2018050103



MLA (The Modern Language Association) Style

M.N.Khan. "Parametric Analysis of Diesel-Brayton Combined Cycle." Journal of Engineering, Computing and Applied Sciences 5.1 (2018), 12-19. Print. doi:10.5455/jecas.2018050103



APA (American Psychological Association) Style

M.N.Khan (2018) Parametric Analysis of Diesel-Brayton Combined Cycle. Journal of Engineering, Computing and Applied Sciences, 5 (1), 12-19. doi:10.5455/jecas.2018050103