Profile
Priyanka Dhopade
Curriculum Vitae
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Education:
Bachelors in Aerospace Engineering from Ryerson University, Canada (2004-2008), Masters in Aerospace Engineering from Monash University, Australia (2009-2010), Doctor of Philosophy in Aerospace Engineering from UNSW Canberra, Australia (2010-2014)
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Qualifications:
BEng (Aerospace), MEng (Aerospace), PhD (Aerospace)
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Work History:
I did internships at aerospace companies back in Canada, where I worked on jet engines and landing gears for aeroplanes. It was pretty fun but I wanted to travel more and also learn more about aerospace engineering in other countries. So I decided to move to Australia to do postgraduate degrees.
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Current Job:
I’ve been working at Oxford University as a researcher in engineering for the last 4.5 years right after finishing my PhD in Australia.
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Employer:
University of Oxford (Osney Thermo-fluids laboratory)
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About Me
Hello, my name is Priyanka and I’m 30 years old. I was born in India and since then I’ve lived and worked all over the world, including Saudi Arabia, Canada, Australia and now the UK.
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My Work
Jet engines get hot; the bits inside can break or melt; I make sure they don’t.
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I work at the Osney thermo-fluids laboratory at Oxford University, where we research aerodynamics and heat transfer, mainly for jet engines. It’s a cool lab with a couple of really big test facilities that are designed to simulate real engine parts. This is what it looks like on the outside:
Jet engines are pretty awesome. They are designed to work at extremely high temperatures, pressures and accelerations, like the one showed here: the RB211 made by Rolls-Royce plc, which flies on quite a few of the Boeing aeroplanes!
For example, when an aeroplane is taking off:
– the pressure inside the engine can be as high as 700 psi (the equivalent of a horse standing on an area the size of your thumb)
– the temperatures can be as high as 2,127 degrees Celsius (in comparison, molten lava is actually cooler at around 1,727 degrees Celsius)
– the air flowing past the rotating blades can accelerate as high as 50,000 times faster than the gravitational acceleration on Earth (in comparison, high-performance cars only accelerate at 2-5 times the gravitational acceleration on Earth)
At some points in the engine, the temperature of the air can be greater than the melting point of some of the parts inside. So how does the inside of a jet engine not melt?
Using engineering, of course!
The front of the engine sucks in a large amount of cold air from outside. That air is then compressed using complicated sets of rotating and stationary blades before entering the combustor.
But before it does that, some (very little) of the air is directed away through an intricate set of ducts that lead to the hot parts in the turbine section (the red area in the picture above) that need cooling. Individual turbine blades often have a network of cooling holes inside them, to stop them from melting. This is a simplified version of what the inside of a turbine blade looks like, where the dotted line shows the flow of cooler air that’s used to keep the blade from melting: (Image Source: Oxford Sparks)
The more efficient the cooling methods are, the less cold air we need to use. And the less cold air we need to use from the front of the engine, the more of it can be used to generate thrust. That makes an engine more efficient, so that it uses less fuel and emits fewer harmful gases (known as emissions) and is better for the environment!
If you want to know more, watch this cool video about what happens at our research lab at Oxford: http://www.oxfordsparks.ox.ac.uk/content/jet-plight-0
When I was a little girl, I always liked watching aeroplanes in the sky during the day and watching the stars at night. Growing up, I really enjoyed Maths and Science subjects at school because they taught me more about how the world around me worked, including the aeroplanes and stars I so admired!
My parents really encouraged me to pursue my interests and my teachers at school also suggested I do something science-related. So when it came time to choose a subject at university, I thought, why not choose something that combined my interest in aeroplanes and maths/science? So I chose to study aerospace engineering, and it’s been a blast!
I’ve learned so much and met so many interesting people. I also love flying on aeroplanes (which can get quite expensive) so instead, I’ve tried skydiving, parasailing, paragliding and bungee jumping!
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My Typical Day: My typical day consists of making computer models of the hot flows inside a jet engine and analysing the heat transfer to the metal parts.
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Since my research is funded by Rolls-Royce who make aircraft engines, they’re pretty interested in what I come up with. So during a typical day, I also talk to engineers from Rolls-Royce who can use my computer models to improve their engine cooling systems (either over the phone or they come visit from Derby).
I usually work on 3-4 projects that are related to different parts of the engine, for example, the compressor, the combustor, or the turbine (all of which need different amounts of cooling) so there’s never a dull day! I also get to work with lots of different people who are experts in some very specific things.
I also get to travel a lot and present my work at international conferences (where engineers from all over the world come to share their knowledge and research on new, exciting stuff). I’ve been to conferences in New Zealand, Sweden, Denmark, Germany and Canada. This year, I’m going to Seoul, South Korea.
This is a photo of me with my colleagues from the Osney lab at a conference in Montreal, Canada last year. We’re a pretty fun bunch!
The reason I work at the Osney lab and not Rolls-Royce directly is so that I can also learn a bit more about the fundamental flow physics that makes jet engines work. This is an important part of doing research in engineering. I have more freedom to come up with creative solutions to difficult problems that could arise in modern engines or propulsion in general.
But at the same time, I can also see the direct application of my research when it gets used on the next big engine that will be flying in a couple of years!
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What I'd do with the money
I would invite students to come visit my lab and see all the cool facilities we have (including a full scale model of the Rolls-Royce Olympus jet engine that flew on the Concorde aircraft)!
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Would you like to see the inside of a jet engine??
My research lab is in Oxford where we mainly research ways to make jet engines more efficient.
We get to do whacky experiments that can get super loud and super hot using state-of-the-art tools and methods!!
I’d also include a tour of Oxford city to show students the historic buildings and colleges. It would be a really fun day out for students interesting in engineering. Lunch will be on me!
If you want to know more, watch this cool video about what happens at our research lab: http://www.oxfordsparks.ox.ac.uk/content/jet-plight-0
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My Interview
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How would you describe yourself in 3 words?
Smart, easy-going, determined
What's the best thing you've done in your career?
I helped design an improvement to the cooling flow of an engine turbine stage that is now going to be part of Rolls-Royce’s newer engine models to make them safer and more efficient! How cool is that?!
What or who inspired you to follow your career?
When I did my Masters in Aerospace Engineering, in Melbourne, I got the chance to work on a small research project in fluid dynamics. I had to simulate a computer model of a cylinder and the airflow over it. Seeing the changing flow patterns, and being able to make out certain trends from something that we assume to be chaotic made me really excited. Since then, I’ve been hooked on to research and the creativity that’s involved with researching new things.
What was your favourite subject at school?
Maths
What did you want to be after you left school?
An astronaut
Were you ever in trouble at school?
Not really! I was always a good kid who got good grades.
If you weren't doing this job, what would you choose instead?
An astronaut, or an artist.
Who is your favourite singer or band?
At the moment, it’s George Ezra.
What's your favourite food?
Sushi
What is the most fun thing you've done?
Skydiving
If you had 3 wishes for yourself what would they be? - be honest!
I wish I could fly (like a bird), I wish I was more confident, and I wish Britain had less cloudy skies so that I could stargaze through my telescope more often!
Tell us a joke.
Who was the first electricity detective? Sherlock Ohms
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