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In March, the annual Autodesk Panorama Student Bootcamp brought together some of the most promising young architects, engineers, and designers from around the globe to Tongji University in Shanghai. This event marked the culmination of a challenging journey for participants hailing from 12 different countries, each having triumphed over hundreds of competitors and thousands of entries in their respective national design contests to earn a spot at this prestigious international gathering.
This year’s participants were tasked with envisioning groundbreaking products and spaces designed to have a positive impact on society. Their innovative concepts were what set them apart and secured their place at Panorama, an initiative that has been expanding in both scope and ambition since its inception five years ago. Previous iterations of the boot camp took place in Hong Kong, Las Vegas, Malaysia, and Singapore.
Don Carlson, representing Autodesk Education, highlighted the rapid evolution in how we create and produce, emphasizing the importance of nurturing the next generation of thinkers to address future challenges with fresh perspectives. “What we design and how we build is evolving quickly,†he stated, “and it’s not just about embracing new technologies; it’s about preparing the next generation to tackle complex issues.â€
During the intensive three-day program, students ventured beyond traditional classroom settings, engaging in hands-on workshops to enhance their design capabilities. They also received guidance from seasoned industry professionals who offered insightful critiques, helping refine their projects while teaching essential skills like teamwork, critical thinking, and efficient time management—qualities vital across any profession.
Lee Miller, VP and Director of Design Technology Implementation at HOK, expressed his admiration for these young innovators. “These students demonstrate remarkable proficiency with advanced 3D modeling tools and industry-standard practices,†he noted. “Not only do they mirror professional environments, but they’re also developing crucial interpersonal and strategic competencies.â€
A first in Panorama’s history saw participants dive into Autodesk Fusion 360, tasked with designing a cutting-edge wearable tech gadget within just ten hours—a true test of creativity under pressure. Each group had to articulate their vision effectively during a mock investor pitch session, honing public speaking abilities alongside technical prowess.
One standout achievement came from a collaborative Russian and Ukrainian team whose creation, Modular Wearable Personal (MWP), took top honors. Their lightweight backpack capable of charging multiple compact yet durable batteries on demand stood out among other inventive designs such as India’s WeJaw system allowing hands-free toothbrushing and diabetes monitoring, Turkey’s auto-SOS calling helmet, and tourist-friendly Smart Gloves offering instant landmark info and language translations via touch.
Autodesk remains committed to fostering talent through initiatives like Panorama, offering free educational software licenses while connecting emerging professionals with influential figures in the field. As Carlson emphasized, “Our goal is to equip students with both the tools and visibility needed to thrive professionally post-graduation.â€
While the official terms apply strictly to educational use only, ensuring compliance aligns with broader ethical standards within digital education platforms today.
High Temperature Thermal Fluid
A High temperature thermal fluid refers to a type of fluid that is capable of transferring heat at medium temperatures.
It is commonly used in various industrial processes and systems where the operating temperature ranges from approximately -60°C to 350°C.This thermal fluid is designed to have good thermal stability, high heat transfer efficiency, and low viscosity, allowing it to effectively transfer heat between different components or systems.
It is typically used in applications such as heat exchangers, boilers, and thermal energy storage systems.These industries include, but are not limited to, oil refining, gas processing, plastic resins, LNG (Liquefied Natural Gas), electrolytic aluminum/prebaked anodes, chemical fibers, solar water heater systems and ect.