Notice Board :

Call for Paper
Vol. 7 Issue 10

Submission Start Date:
October 1, 2021

Acceptence Notification Start:
October 20, 2021

Submission End:
October 25, 2021

Final ManuScript Due:
October 28, 2021

Publication Date:
October 31, 2021
                         Notice Board: Call for PaperVol. 7 Issue 10      Submission Start Date: October 1, 2021      Acceptence Notification Start: October 20, 2021      Submission End: October 25, 2021      Final ManuScript Due: October 28, 2021      Publication Date: October 31, 2021



Volume VII Issue II

Author Name
Mohini Yadav, Prof.Balram Yadav, Prof.Anshuj Jain
Year Of Publication
2021
Volume and Issue
Volume 7 Issue 2
Abstract
As multiplier consumes some power and as well as require some area in memory so we must require a low-power, smaller area and higher speed multiplier design. In convention multiplier the process of multiplication is quite slow as it done in several stages like partial product generation and accumulation of these products as it take some time and also consume an amount of power.
PaperID
IJETAS/FEB/2021/09

Author Name
Renu Yadav, Prof.Ashish Raghuwanshi
Year Of Publication
2021
Volume and Issue
Volume 7 Issue 2
Abstract
Full adder is the heart of any central processing unit that is a core component employed in all the processors. This paper presents a design methodology using advanced hybrid logic
PaperID
IJETAS/FEB/2021/13

Author Name
Raghvendra Sahu, Prof. Brijendra Kumar Yadav
Year Of Publication
2021
Volume and Issue
Volume 7 Issue 2
Abstract
The twisted tape inserts have been used as a heat transfer enhancement device in last few decades and particular most widely used in heat exchangers to reduce their size and cost. Twisted tapes (TT) are also one of the well-known swirl generators due to their easy installation and low cost. In this study the effect of varying Reynolds number on the different parameters such as pressure drop(Δp), Heat transfer coefficient(h), Nusselt number(Nu), Friction factor (f) on heat exchanger with twisted pipe inserts is studied.
PaperID
IJETAS/FEB/2021/19

Author Name
Ashutosh Kumar Mishra, Prof.Sujeet Kumar Singh
Year Of Publication
2021
Volume and Issue
Volume 7 Issue 2
Abstract
In present analysis, the CAD model of IC engine fin has been developed by using UNI- GRAPHICS NX-8.0. The model has been simulated using ANSYS software on steady state thermal domain Workbenches in order to observe various parameters affecting the thermal performance of IC engine fins. Six types of configurations of IC engine fin have been used with different profile concave fin, convex fin, convex with perforation.
PaperID
IJETAS/FEB/2021/21