Idea Details
Team and Contact Details
SNo | Student Name | School | Degree | Year | |
---|---|---|---|---|---|
1 | USMAN AZIZ | CEME | Undergraduate | Fourth | usmanaziz.me37ceme@gmail.com |
1 | MUHAMMAD JUNAID ELLAHI | CEME | Undergraduate | Fourth | m.junaidellahi@gmail.com |
1 | MIRZA ABDULLAH SAAD ADEEL | CEME | Undergraduate | Fourth | ahmedsaeed97.as@gmail.com |
Inter School Idea ? | No |
Do you need expertises from another area: | No |
If Yes please provide details of expertises you need: |
Idea Details
Idea Name: | Temperature Distribution |
Slogan: | Condi Nozzle Surface Temperature Distribution |
Supervisor Name: | Tariq Talha |
Supervisor Designation: | Asst. Professor |
Supervisor School: | CEME |
Supervisor Department: | Mechanical Engineering |
Contact number: | 03326183900 |
Email ID: | tariqtalha@gmail.com |
Abstract: | |
While testing different specimens in Supersonic wind Tunnel,temperature variations within the nozzle causes abrubt results.Our aim is to study the temperature distribution to give an efficient design. | |
What is the unmet need in society that your idea will fulfill ? | |
Our Companies like NESCOM etc have to send their specimens to abroad for Testing which costs them about Billions of dollars as they lack of such equipment that can test their specimens at such a high speed.With the success of this project,we would be able to test our specimens thereby saving money. | |
Who needs it ? How many would benefit ? | |
Many Campanies like NESCOM needs it as they have to test different models at supersonic speeds at the expense of Billions of dollars.In order to save this money and utilize it for some other welbeing of our country,we will give them an effective design to test their specimen. | |
How will the solution works | |
We have studied refrenced material i.e text book by Alan Pope to have an understanding of supersonic flow characteristics etc.Then we made mesh on ANSIS software to better mathematical picture of temperture distribution.We will then apply Nozzle flow analysis to solve for temperatures on the surface of condi nozzle.Nozzle flow analysis will involve both heat transfer effects and area variaton effects to be covered.After doing this we will go for the design of Nozzle that will satisfy of demands. | |
Who are your competitors ? How is your solution different | |
Our competitors are from two aspects.One is from NESCOM side that is a group from PIAES university that is working on the same project.The other one is from our own university side that are a few groups working on the flow.Our group will (if succeeded) save much more than those of others. | |
Status: | Approved |
Entry Date & Time: | 2019-01-15 (1840) |