CHANNELS

Aerospace

Automotive

Automated & Autonomous Vehicles

Battery & Electrification Technology

Defense

Drone TV

Electronics

Manufacturing & Prototyping

Materials

Medical

Motion Control

RF & Microwave Technology

Robotics & Automation

Sensors & IoT

Test & Measurement

Aerospace
Automotive
Automated & Autonomous Vehicles
Battery & Electrification Technology
Defense
Drone TV
Electronics
Manufacturing & Prototyping
Materials
Medical
Motion Control
RF & Microwave Technology
Robotics & Automation
Sensors & IoT
Test & Measurement
Aerospace & Defense
Search Results

Competing Hydraulics Work Together in Tractors

Researchers at Purdue University are working to propel the agricultural industry with advances in hydraulic systems optimization.

“Fluid power is everywhere,” said Andrea Vacca, Purdue’s Maha Fluid Power Faculty Chair  . “It’s used in airplanes, in cars, and in all kinds of heavy equipment. A tractor is an example of a vehicle that uses fluid power to actuate everything from the steering and propulsion, to powering the implements it pulls behind it.”

Topics:
Fluid Handling Manufacturing & Prototyping Mechanical Components
Transcript

00:00:09 -Here we have an example of a tractor and a  planter, where all the actuations are essentially   fluid power systems. All the steering, the  propulsion, all the functions that are in   the planter, like the cylinders that  press the planter down, fertilizer and   everything is actuated by a fluid power system. -The current system with the tractor and planter,   as they work together, there's a conflict in  control. The hydraulic controls fight each other.   And it makes the tractor always  run under extremely high power.  -So our solution is to try to find a way to make  these two talk to each other, and have a good   understanding what the planter needs, and then the  tractor can supply just enough. Now in this way we   can bump up efficiency and cut off loss. -A three-phase approach to this. First   there was modeling and system characterization. -Develop a model and validate it, and test out  

00:01:03 the solutions first in a model to show proof of  concept before going to the field to test it out.   If the model is showing promising improvement  of efficiency and power loss savings,   then we see that, let's go to the real  machines and test it out in the field. -This has been really my first time having  to drive the tractor, and especially   run the planter. There's quite a lot going on.  There's a lot of controls to manage. Not to   mention the sheer power of driving a 25,000-pound  tractor with a 10,000-pound planter hooked to it.  -Testing is definitely a two-man job. Because  when we run a test, we have this computer and   we have another computer that runs the planter.  And so one person steers, runs the remote valves   over here that control the planter functions. And  then one person works the laptops. I'm usually the   person with the laptop, so I'm switching between  computers, starting different recording systems.  

00:01:58 From that we can figure out where losses occur,  where inefficiencies are, and track what's   happening in our system with surprising precision. -After seeing that my model was practicing correct   results, and also showing a great  improvement, that was really a happy   moment for me. The highlight of my PhD! -We are very lucky at Purdue because at   Maha we have a lot of lab space where we can  do modifications with these large machines.   And then we can use the farms that the College  of Agriculture has for mainly research purposes,   and we can do this kind of test thanks to them. -I find it's really a very interesting system   to work on. It has so much potential in  these hydraulic systems. Although it's   a well established field, there are still a  lot of unknown areas. We have new projects   every year. We're actually proposing new  architectures, new methods of connecting  

00:02:50 all different components to create new ideas  that's much more efficient, much more powerful.  -For reducing fuel consumptions,  reduce the greenhouse gases and   everything like that. So I really feel like  I'm contributing to an area that is doing good.  -Feeling that your idea can really get to  the field is really an accomplishment. I   feel really great for myself, my students,  and that is really the best part of our work.