This paper is published in Volume-2, Issue-6, 2016
Area
Process Piping
Author
Mohammad Taseem Rafique Kadagaonkar, Milind S Yadav
Org/Univ
Finolex Academy of Management and Technology, Ratnagiri, India
Pub. Date
23 December, 2016
Paper ID
V2I6-1238
Publisher
Keywords
Process piping, Stress Analysis, CAESER II, Piping Layouts, Piping Design.

Citationsacebook

IEEE
Mohammad Taseem Rafique Kadagaonkar, Milind S Yadav. Design of Steam Piping System for Dryers in Paper Machine and Checking its Sustainability through Finite Element Analysis using Caesar II, International Journal of Advance Research, Ideas and Innovations in Technology, www.IJARIIT.com.

APA
Mohammad Taseem Rafique Kadagaonkar, Milind S Yadav (2016). Design of Steam Piping System for Dryers in Paper Machine and Checking its Sustainability through Finite Element Analysis using Caesar II. International Journal of Advance Research, Ideas and Innovations in Technology, 2(6) www.IJARIIT.com.

MLA
Mohammad Taseem Rafique Kadagaonkar, Milind S Yadav. "Design of Steam Piping System for Dryers in Paper Machine and Checking its Sustainability through Finite Element Analysis using Caesar II." International Journal of Advance Research, Ideas and Innovations in Technology 2.6 (2016). www.IJARIIT.com.

Abstract

Process piping is a form of pipe work used to transport materials used in industrial processes and manufacturing. It is specially designed for particular applications to ensure that it will meet health and safety standards, in addition to suiting the needs of a given manufacturing process. The designer of the piping also has to consider issues like the amount of pressure the piping will be subjected to and the width of the piping, when selecting an appropriate construction material for longer life of system. In this project study, by using data like P & ID, 2-D and 3-D piping system is designed by following codes and standards. Finite element analysis is performed with the application of various loading cases to check sustainability of piping system in design service condition. The results of the study show that the primary and secondary stresses are within code allowable limits. Hence system is safe for stresses. Also nodal movements are shown in displacement summary report.