Last Friday, I was given the opportunity to take a trip to Centennial College alongside a colleague of mine to help a group of professors with the assembly of the TecQuipment AE1005V Wind Turbine Dynamics Apparatus. The apparatus is comprised of a bell shaped mouth and honeycomb to reduce turbulent airflow, a silencer to reduce excessive noise, an anemometer to record wind speed, and a digital display for pitch, yaw, fan speed, and turbine speed, all of which are adjustable. We arrived at the campus early in the morning, where we met with our contact at the school. He led us through the college into the machine shop and we began to assemble the AE1005V.

The assembly process was very simple and easy to follow from the provided instructions. Once the silencer is removed from its stowed position and fastened to the back of the apparatus, we connected the Control Cabinet to a power supply and opened the sliding door to attach the fins to the turbine. We then connected the apparatus to a laptop which was running the Versatile Data Acquisition System, or VDAS, which automatically collects data, calculates experiment parameters, and allows the user to create graphs and tables for the collected data. Once the fins were secured and the security door was closed and locked, we began to experiment with the fan speed, pitch, turbine speed, and anemometer. This data was also digitally displayed on the Control Cabinet.

Now that the apparatus was fully set up, we began to work through the first experiment to determine the influence of pitch angles and turbine speed on the coefficient of performance and power generated. As a future environmental engineer hoping to specialize in air hydrology, I was really grateful to be able to have a hands on experience with this kind of equipment. The option to switch out the included turbine fins for ones that have been 3D printed by students made the AE1005V even more interesting to use, with students being able to create and test different fin designs to determine optimal performance, and this really piqued my interest.

Eventually, I would like to spend more time using and learning about the AE1005V Wind Turbine Dynamics Apparatus, and other technology like it, and I am grateful that I had the opportunity to speak with the professors about what they plan to use theirs for throughout the upcoming fall semester.

KUKA.Sim is a 3D educational smart simulation software program which provides a risk free entry into robotics and automation.

This comprehensive software package allows students to optimize the operation of manufacturingsystems and robots outside of a production environment. Creating a digital ‘twin’ of a production process in just a few minutes, without a deep programming knowledge.

KUKA.Sim is available for a 30 day free trial with all functionality to allow you to experience and understand the program before making any decisions. Starting your trial is no risk and no investment, and will allow you to explore 3D modelling of production processes and create new processes in a realistic virtual environment.

The data are 100 percent consistent, which means that the virtual controller and the real controller work with exactly the same data. The reachability check and collision detection features allow you to test the viability of your robot programs and cell layouts.

Learn more about KUKA.Sim and sign up for the free trial here. 

“KUKA.Sim is the intelligent simulation software package for saving time, increasing sales and improving competitiveness in a fast-moving market.”

– Patrik Buch Lund, Senior Vice President Digital Services at KUKA

Reach out to us at 1 877-967-2726 and our product support team would be happy to help you or answer any questions you may have.

Key Features

• Integrated CAD Imports
• 3D & 2D Export Functions
• Extensive Library of Robot Models
• Configurable Collision & Reachability Check
• Video & 3D PDF Export
• Accurate Cycle Time Determination
• Mobile Viewer App
• Advanced I/O Signal Editor
• Robot Stopping Distance Simulation
• 3D Safety Zone Configuration
• Modeling Wizards for Custom Components

Did you hear about Relativity Space launching a rocket earlier this month? It was out of this world!

Pictures of the Rocket Launch that occurred on March 22, 2023 (Taken from Relativity Space’s Twitter)

Using KUKA’s robotic arms, Relativity Space 3D printed a rocket that is 85% 3D printed by mass. This rocket nicknamed, “Good Luck, Have Fun”, is the first-ever rocket that was 3D printed and launched into space! This is one of the biggest advancements in aerospace technology in the last 60 years!

Before this extraordinary event took place, 3D printing on this scale had never been done before, and never with this goal of making it to space. Thanks to KUKA’s technology, Relativity Space was able to melt layers upon layers of a custom aluminum alloy together – making a rocket that stands at 33.5 meters tall and weighing approximately 9,280 kilograms!

Traditionally, rockets can take anywhere from 2 to 5 years to manufacture. Using 3D printing, manufacturing rockets takes as little as 60 days! 

Here is a video of the rocket launch that occurred on March 22 2023!

As illustrated in the video, the 3D printed rocket reached a peak velocity of 7,448 kilometers per hour. It made it past the 100km Karman Line before crashing down in the Atlantic Ocean.

It is the first methane fueled rocket to successfully complete stage 1 flight and reach space. Demonstrating that this is the beginning of a new endeavor for aerospace technology! Relativity Space will learn from this experience with the collected data from “Good Luck, Have Fun” and improve their operations to strive for the goal of 3D printing a rocket 95% by mass.

We hope you had a blast reading about this story! We are looking forward to seeing Relativity and KUKA reach their new goal!

A Leap Forward for Heritage Conservation: Carleton’s Robots are Carving History

An Excerpt of the Story from the Carleton Newsroom

Although the tools they use have evolved over the years, architects have always designed and built physical structures and objects.

A pair of jointed-arm industrial robots recently acquired by the Carleton Immersive Media Studio (CIMS) represent the latest leap forward.

Roughly three metres high when fully extended, the Kuka KR 360 and a desk-sized KR 6 are housed in a customized room in Carleton’s Architecture Building. Kuka is the manufacturer and the numbers refer to the payload (in kilograms) each machine is capable of handling.

Purchased with support from Public Services and Procurement Canada (PSPC) and the Social Sciences and Humanities Research Council (SSHRC), the robots will help CIMS and its collaborators in the federal government continue their cutting-edge work in the rapidly advancing world of digitally-assisted fabrication.

“We’re the only university in Canada with a setup of this kind,” says James Hayes, the Architecture PhD candidate helming the robot project, currently focused on the heritage conservation components of the major rehabilitation of Parliament Hill.

“The ability to actually craft and make artifacts is fundamental to an architectural education.”

The CIMS team will use the robots to assist in creating sculptures and other architectural ornaments in a variety of materials — including stone and wood — from digital models obtained by laser scanning and photogrammetry, the science of using photographs to make precise measurements.

This technology has already been of use on Parliament Hill, where centuries-old sculptures are being replaced or restored as part of the renovations, and new decorative features are being crafted for the Government Conference Centre, which will serve as a temporary home for the Senate when the decade-long Centre Block restoration begins next year.

And because human hands will continue to play a role in this process, from operating the robots to the fine-detail finishing work on a sculpture before installation, some people in traditional fields such as stone masonry don’t see the robots as a threat to their employment.

Read More on the Carleton Newsroom Website

Learn More About KUKA.Sim, an Easy Way to Get Started with KUKA

TecQuipment Smart Worksheets enhance teaching capabilities and complement students’ learning with the use of ready-made, online and auto-graded assessments that are compatible with

selected experimental kits in the Engineering Science range.

Benefit for students

• Enabling development and independent thinking with ready-made exercises
• Gain confidence in learning with instant, personalised feedback
• Master key engineering principles with tailored practice before submission, with immediate and clear scoring
• Practice assessments anywhere, anytime with online access and auto-save functionality

Benefit for Educators

• Enhance and improve teaching capabilities with a full ready-made dashboard and worksheet
• Save hundreds of hours of time with ready made exercises and student reports
• Effectively communicate with students through notifications and reminders on the online management system
• Gain detailed insight into student learning progress with the timeline mode feature
• Tailor work with the option of ready-made quizzes and assessments

Worksheets currently available for the following Engineering Science kits:

• Forces and moments (ES2 and ES3):
  • Centre of Gravity
  • Triangle of Forces
  • Principle of Moments
  • Levers
• Deflection of Beams (ES4):
  • Beam Load
  • Beam Dimensions
  • Beam Length
• Torsion (ES5):
  • Torque and Diameter
• Strength of Materials (ES6):
  • Tensile Testing
• Drive Systems (ES11 and ES13):
  • Chain Drive
  • Belt Drive
  • Spur Gears
• Simple mechanisms (ES14):
  • Crank and Slider

Register

To register your interest or purchase this product access the form here.

Request a quote for TQ Smart Worksheets.

All TQ products are made to order and can sometimes take up to 20 weeks to be delivered. TQ currently has some great products in-stock that can be delivered within 4-6 weeks!

AYVA has partnered with TecQuipment (TQ) to provide a wide range of engineering training equipment for colleges and universities across Canada. TQ products are robust and designed to withstand long term, heavy laboratory & classroom use and come with a 5 year warranty. This ensures reliable operation over many years & a high standard of teaching & learning.

Chemvue is an intuitively designed software for chemistry investigations, programmed with input from faculty for college lab student success. It enables convenient data collection and analysis, elegant college lab report design, and easy export options. Coming soon to your local device.

Our new chemistry application is built with your needs in mind. Measurements begin instantaneously upon pairing sensors to give students immediate digital readouts of the phenomenon they are measuring. The reported units communicate significant figures correctly, and units can be easily converted by a menu drop-down option.

PASCO is looking for University/College chemistry instructors and lab managers to try Chemvue and provide feedback.

Your expertise can shape the future of Chemvue! Follow this link to sign up and join our Chemvue preview group, and feel free to provide feedback using the link within the software.

Register to Preview Chemvue

Already have Chemvue? Interact with a free sample data set!

Download free sample data sets (descriptions below) to analyze and edit on your own! We collected the data here at PASCO, so all you have to do is open the file in Chemvue and begin investigating.

Why Chemvue?

Informed UI/UX & Feature Design:

          Designed in collaboration with college chemistry professors.

Innovative Technology Integration:

          Engineered with state-of-the-art data collection and lab reporting.

Improved Investigation & Analysis:

          Envisioned to improve lab efficiencies and student learning.

Chemvue has three methods of data input:

• Capture real-time measurements from sensors
• User-entered data
• Calculations on column data. Analysis calculations allow for finding slope, best fit, area under the curve, and count of events measured in the selection. Communicate your measurements clearly with labels, annotations, and customizable column titles.

Chemvue is compatible with PASCO’s award-winning line of chemistry sensing equipment.

Students can:

• Measure ion concentrations in solution
• Determine reaction kinetics by color changes
• Monitor gas pressure concurrently with volume or temperature changes
• Log solution volumes to find acid-base strengths
• Determine solution potentials from their electric potentials
• Track battery capacity following current levels
• Investigate nuclear probabilities measuring rates of decay from unstable isotopes
• And much more

Immediately choose from dozens of sensed properties based on which instrument is connected: Temperature, pressure, mass, conductivity, light absorption, gas concentrations (O₂, CO₂, and ethanol), voltage, current, pH, ion selective electrodes, radiation, sound, humidity and atmospheric conditions. The list of possibilities grows as tools are added to the PASCO line! Easily connect to Chemvue and start capturing values to record on your device for further analysis.

Select regions on your graph to compare values, interpolate data, and explore formulas that best describe the relationship between the variables. Use tools like tangent lines to determine reaction rates, and calculate the area under the curve to determine how much has reacted.

Easily stretch axes scale your graph, drag your graph to areas of interest, or select and zoom in to magnify data points. In-context tools make it simple to find what you’re looking for, which means that students spend their time learning the science, not the software.

Data Sharing and Export

When it’s time for students to submit their work, students can easily export an image of their graph, export the data to a .csv file to work in a spreadsheet, or save it in our Chemvue format. This file can be shared by email or sent via bluetooth (whatever your device supports) back to themselves to design their lab write-ups.