The change of the motor moment (Mm) and the resistance moment
(Md) in a 2? period machine with a conservative force field are as
follows.
?? = 100? / ?, 0 ≤ ? <? (Nm)
?? = 200 - 100? / ?, ? ≤ ? <2?
?? = 50, 0 ≤ ? <2?
The average speed of the machine is 100 rad / s and the variable
part of the moment of inertia is ?? = (0.003) sin (2?). If the
speed unevenness is 1% and the current flywheel value is 0.4 kgm ^
2, find the flywheel amount that should be added to the
machine.
In: Mechanical Engineering
estimate the aerodynamic drag force of a typical passenger aircraft and a fighter aircraft at design point
In: Mechanical Engineering
a) Sketch and describe in detail a simple single pass
composite boiler.
b) Explain its operation and state two advantages.
c) Sketch a biological sewage treatment plant, label it and explain
its operation.
d) State five conditions under which oily water can be discharged
overboard
In: Mechanical Engineering
develop an efficient approach for heat recovery and cogeneration the system should be unique and the idea is not being used by anybody else it should be free from copyright you are supposed to discuss commercially available waste heat recovery devices and how your system is different than the existing the proposed system should be unique and should not be used earlier draw the schematic explain the features and the proposal of 8 pages
In: Mechanical Engineering
carry out steady state and dynamic simulation of plate heat exchanger for to Facebook share using 41077 your study should deal with the steady state and dynamic simulation of the plate fin heat exchanger its in like it should in light and some aspect of the modelling of such a complex system in a transient and especially the impact of the numerical treatment illustrate application and sketch the importance of dynamic studies in complement with steady state
In: Mechanical Engineering
b Write an outline reliability specification for (i) a domestic TV set, (ii) a fighter aircraft, and (iii) a gearbox bearing.
In: Mechanical Engineering
Mark the following statements as True or False.
1) Substitutional vacancy atoms are present in the region of the dislocation where compressive stresses are present.
2) If the Burgers vector of a screw dislocation is along the y - direction, then displacements surrounding the stationary screw dislocation are also in the same direction.
3) External tensile stresses generates vacancies in the material when edge dislocations are present.
In: Mechanical Engineering
The research is to be carried out to analyse the
performance of evaporative cooler model with simple surfaces and
honeycomb structured using R 290/R410 c with blend mixture. it is
to be tested over the 25% load, 50% load, 75% load and 100% load
conditions....
First propose a unique arrangement for the testing rig. and then
formulate a mathematical model using fortran 77 performe simulation
of the system and validate the results using available standard
results......
coding is to be done in the Fortran 77 only. no other
software will be entertained...
In: Mechanical Engineering
Air undergoes a polytropic process in a piston–cylinder assembly
from p1 = 1 bar, T1 = 295 K
to p2 = 9 bar. The air is modeled as an ideal
gas and kinetic and potential energy effects are negligible.
For a polytropic exponent of 1.2, determine the work and heat
transfer, each in kJ per kg of air,
(1) assuming constant cv evaluated at 300
K.
(2) assuming variable specific heats.
W/m = -187.211 kJ/kg
Q/m= -93.563 kJ/kG
Determine the heat transfer, in kJ per kg of air, assuming
variable specific heats.
In: Mechanical Engineering
Apply systems thinking as a methodology to how you intend investigating and assessing your Power Generator Speed Breaker product, following, and documenting all the 7 steps to Systems Engineering (SE). By taking your product through the stages of systems engineering, Conceptual Design, Preliminary Design, and Detail Design and Development.
In: Mechanical Engineering
discuss the thermodynamic optimisation of cross flow rate fin heat exchanger using a particle Swarm optimisation algorithm in fortran 77 the study should explore the use of particle Swarm optimisation algorithm for thermodynamics optimisation of cross flow heat exchanger minimization of total number of entropy generation units for a specific heat duty requirement under the given space restrictions
In: Mechanical Engineering
write a code in fortran 77 and link with the reference refrigerant properties software and code should be for parametric models and optimisation for rapid thermal design advance solution feature of cinder offline provide thermal analysis to make a preliminary thermal design calculations your code should fulfill the requirement
In: Mechanical Engineering
2.1. Write a report on advancement in wheel and tyre
technology.Also the report should be consest of 10-12
Page,Advantage disadvantage,Future scope.Plagarsim level should be
Zero.
Please don't answer if you don't know and write the report on 10-12
page minimum.
For small answer or for plagrism I will downrate your answer.So if
you know than only answer it
In: Mechanical Engineering
geothermal options for Mount of found
address the eutrophication of the freshwater found of on the
premises as well as assessing the possibility of pond reclamation
tied with the installation of the ghsp of filtration unit
incorporate into the loop system to establish aquacultural food
production
develop of full system using sayla and develop code in the matlab and photon 77 the graph should be plotted with the help of scilab only
In: Mechanical Engineering
0.75 kg of refrigerant-134a at 120 kPa and 20°C initially fills a piston-cylinder device. Heat is now transferred to the refrigerant from a source at 150°C, and the piston which is resting on a set of stops, starts moving when the pressure inside reaches 140 kPa. Heat transfer continues until the temperature reaches 90°C. Assuming the surrounding to be at 25°C and 100 kPa, determine (a) the work done, (b) the heat transfer, (c) the exergy destroyed, and (d) the second law efficiency of this process.
In: Mechanical Engineering