Questions
Detail design a gear reducer that would meet (at a minimum) the following design specification: Power...

Detail design a gear reducer that would meet (at a minimum) the following design specification:

  • Power to be delivered: 40 hp
  • Input speed: 1750 rpm
  • Output speed: 40–44 rev/min
  • Usually low shock levels, occasional moderate shock
  • Input and output shafts extend 4 in outside gearbox
  • Maximum gearbox size: 18-in x 18-in base, 36-in height
  • Output shaft and input shaft in-line
  • Connection to a roller and conveyor via a chain drive

Other than the reducer design, design the intermediate and main shafts, including complete specification of the gears, bearings, keys, retaining rings, and shaft.

In: Mechanical Engineering

Briefly describe how a Photovoltaic cell (PVC) operate and generate electrical power. Support your answers with...

Briefly describe how a Photovoltaic cell (PVC) operate and generate electrical power. Support your answers with schematic sketches if necessary

In: Mechanical Engineering

Describe briefly what are the basic planning and design factors when applying “Escalator”? Sketch the general...

Describe briefly what are the basic planning and design factors when applying “Escalator”?
Sketch the general layout and the main dimensions of an escalator inclined at an angle of 30o

In: Mechanical Engineering

The following details refer to a centrifugal pump. Outer diameter: 36 cm. Eye diameter: 18 cm....

The following details refer to a centrifugal pump. Outer diameter: 36 cm. Eye diameter: 18 cm. Blade angle at inlet: 28°. Blade angle at outlet: 20°. The flow velocity remains constant at 10 m/s. The whirl at inlet is zero. the manometric efficiency is 95%. If width at outlet is 3 cm, determine the power in W (η0 = 83%).

In: Mechanical Engineering

A Rankine power cycle with reheat uses water as the working fluid. The inlet conditions of...

A Rankine power cycle with reheat uses water as the working fluid. The inlet conditions of the
first stage turbine are 14MPa and 600C. All the turbines are known to have isentropic
efficiency of 85%, however the pump is assumed as an isentropic pump. If the maximum
temperature is kept at 600C and the condenser pressure is 6 kPa, by constructing a suitable
plot, show that having more than 2 reheat stages is not practical. (Hint: Take at least three
reheat pressures between 2 to 12 MPa)
Note: You may construct the plot on Microsoft Excel or manually on a graph paper. However,
all the calculations involved must be performed manually, in details and must be shown clearly.

In: Mechanical Engineering

please read the article 'Exley Chemical Company' and write what was the type of organization in...

please read the article 'Exley Chemical Company' and write what was the type of organization in the company? do you think the company should be organized in other ways ?

In: Mechanical Engineering

explain in the Fortran 77 code performance evaluation of evaporative cooler with corrugated fins and spherical...

explain in the Fortran 77 code performance evaluation of evaporative cooler with corrugated fins and spherical fins...

mention it's parameter in Fortran 77 and plot graph using fortran 77

skip it.....if u can't answer it.....

In: Mechanical Engineering

A high carbon steel shaft is used in an engine and subjected to different loads. In...

A high carbon steel shaft is used in an engine and subjected to different loads. In order to
analyse the stress in the shaft, consider a rectangular element within the material. This
element is subjected to compressive stress of 135 MPa and shear stress of 166MPa in the
vertical direction. The compressive stress in the horizontal direction is 176MPa with a shear
stress of 115MPa.
a. Sketch the state of stress on this element.
b. Determine the maximum and minimum normal and shear stresses and their plane of
orientation.
c. If the yield strength of the material is 350MPa, Poison’s ratio is 0.32, and factor of
safety is 5, determine the diameter of the shaft to avoid failure.
d. What will be the difference in the analysis above if there is an additional torsional
load (T) and bending moment (M).
e. Show how you can use any theory of failure to design this shaft.
f. What are the challenges of applying the theories of failure in actual engineering
practice and as a design engineer, how would you deal with these challenges.

In: Mechanical Engineering

Discuss briefly the following topic: ( Mathematical modeling of hydraulic systems ) (Hint: you can use...

Discuss briefly the following topic:

( Mathematical modeling of hydraulic systems )


(Hint: you can use the text book and/or any other references; use illustrations as much as you can. Please expect a call for discussion). If noticed, all similar (copied) reports will be punished!

Please Using ( Microsoft Word ) Software

In: Mechanical Engineering

Case study Description Faisal is a successful architect who is trying to use the extra time...

Case study Description Faisal is a successful architect who is trying to use the extra time that he has during the coronavirus crisis in a simple way. He decides to focus on an ambitious new project. In this project, he and his team of architects, engineers, and developers will build a house specifically for living on the sea. It will be stable and safe in waves up to five meters high. A family of five will be comfortable living in it. Faisal and his team decide to make the house simple but beautiful. Since real estate can be expensive, Faisal decides to make the house cost less than USD 400,000. There will be a dock that will be attached to it which can lift boats out of the water and automatically wash them, in order to keep them from rusting. To make it so that it could float in areas close to cities in the Arabian Gulf, the house is designed so that it does not need water any deeper than two meters deep in order to be stable and floating. To help the family to be able to travel back and forth comfortably to their floating home in any type of weather, Faisal offers a special boat that can handle high waves.

Explain which methods of simplicity have been applied in this case study. Mention at least 3 different methods and provide clear reasons for choosing these methods.

In: Mechanical Engineering

Please refer on the article titled as “Improving Occupational Safety and Health in Construction”, published in...

Please refer on the article titled as “Improving Occupational Safety and Health in Construction”, published in The Ingenieur, Vol. 69 January – March 2017 by the Board of Engineers Malaysia. simplify and create a summary of the article. (150words)

In: Mechanical Engineering

Q-7 Refer to Previous Exercise. (a) Based on this initial experience, determine the control limits for...

Q-7 Refer to Previous Exercise. (a) Based on this initial experience, determine the control limits for the range. Plot the experience on a chart. (b) Does there seem to be a time when there is too much variation in the temperature?
Q-8 A bicycle manufacturer randomly selects 10 frames each day and tests for defects. The number of defective frames found over the last 14 days is 3, 2, 1, 3, 2, 2, 8, 2, 0, 3, 5, 2, 0, 4. Construct a control chart for this process and comment on whether the process is “in control.”
Q-9 Scott Paper tests its toilet paper by subjecting 15 rolls to a wet stress test to see whether and how often the paper tears during the test. Following are the number of defectives found over the last 15 days: 2, 3, 1, 2, 2, 1, 3, 2, 2, 1, 2, 2, 1, 0, and 0. Construct a control chart for the process and comment on whether the process is “in control.”

In: Mechanical Engineering

COVID-19 is a global pandemic and as a result requires a global response. What aspects of...

  1. COVID-19 is a global pandemic and as a result requires a global response. What aspects of engineers’ response to this global crisis inspire you to persevere through your engineering classes? What big questions does is pandemic bring forth for you as engineering continue to respond to this pandemic

In: Mechanical Engineering

Discuss the differences between the quality analysis methods to reduce product defects (FMEA, FTA) and the...

Discuss the differences between the quality analysis methods to reduce
product defects (FMEA, FTA) and the project risk analysis equivalents.

Please try not to upload hand-written images, thank you!

In: Mechanical Engineering

At atmospheric pressure, moist air at T1 = 35°C and 40% relative humidity enters a heat...

At atmospheric pressure, moist air at T1 = 35°C and 40% relative humidity enters a heat exchanger operating at steady state and is cooled at constant pressure to 24°C with a m with dot on top of 11 kg/min. Ignoring kinetic and potential energy effects, determine: (a) Properties at state 1: (10 points) Mixture enthalpy, Humidity ratio (b) Properties at state 2: (15 points) Mixture enthalpy, relative humidity, humidity ratio (c) the dew point temperature at the inlet, in °C (5 points) (d) the rate water is condensed (5 points)

In: Mechanical Engineering