Provincial Engineering & Geoscience Week

6 SATURDAY, MARCH 5, 2022 PROVINCIAL ENGINEERING & GEOSCIENCE MONTH MARCH 2022 SPECIAL SECTION Power system innovators have something in common. They use the RTDS ® Simulator to test their systems. A Manitoba-made technology leveraged by leaders across the globe The RTDS Simulator is the world standard for real-time digital simulation, developed by Winnipeg's RTDS Technologies and used globally to de-risk power system equipment in a safe laboratory environment. Pioneered over 25 years ago at Manitoba Hydro's own HVDC Research Centre, today the technology is a critical piece of grid modernization projects at leading electric utilities, power system equipment manufacturers, research and learning institutions, and consulting firms worldwide. In 2022, RTDS Technologies opened a major expansion to their headquarters in the Smartpark Research and Technology Park at the University of Manitoba, facilitating a higher production capacity and even more collaboration-fueled innovation for the power industry. Access to homegrown, world-class power systems expertise is key to the continued success of the RTDS Simulator. YOUR WORLD IN REAL TIME. R T D S . C O M Engineering Week 2022 - Ad - RTDS Technologies.indd 1 2022-02-24 10:47:09 AM Continued from Page 5 "The survey provided a good benchmark of where they were at in adapting to changing weather patterns, and how much they were embedding it into their day- to-day work," says Probe's Mary Agnes Welch, lead researcher on the survey. "It showed they were already doing it but needed to do it a bit more." As it turned out, the timing of the survey couldn't have been better. "Because it was done about a year ago, it was done even before we went through the drought in the summer of 2021, and the hard winter we're now going through," she adds. Not surprisingly, the survey also indicated that while Manitoba's engineers and geoscientists were largely familiar with the effects of climate change in the province, they were interested in getting more training. "More than one-half were especially interested in learning more about new codes and standards and sustainability infrastructure," Welch notes. "They said they needed to know more so they could fill in the gaps." BRACE in Manitoba is called Manitoba's Climate Resilience Training (MCRT). Curt Hull, a professional engineer, is project manager for the infrastructure section of that project. He says the survey was very useful. "We got just over 1,000 responses out of 8,500 survey recipients," he says. "Respondents said they wanted to learn more about how climate change affects their practice. That information was used to identify training provided in the MCRT." Hull says that this phase of training delivery focused primarily on climate risk assessment and adaptation strategies. "We're looking at the potential impacts of climate change on projects with respect to aspects such as rainfall, temperatures and wind," he says. "How will those factors affect the design of a bridge or sewer? We're looking to develop tools to anticipate those effects." Or, in this case, update practices so they can be better applied to modern design challenges. "For example, we used to rely on historical records to try and anticipate the effect of climate on different infrastructure projects," Hull explains. "However, we now realize that what happened in 1950 doesn't apply any more. We need to use predictive climate modeling as well as historical data. And those numbers will need to be continually adjusted as we move forward." Those adjustments will be critical as the impact of climate change increases in the coming years. "Take the Coquihalla Highway failure in B.C. as an example. The climate events there were more severe than anticipated with the atmospheric river that dumped all the rain on the area," Hull says. "It's important that we consider ways to control flows that exceed design limits, or even to design safe failure mechanisms." In a nutshell, that's what BRACE is all about. "This phase of BRACE is all about adaptation," he says. "But our practitioners are also asking us about ways to mitigate greenhouse gas emissions. That's largely an energy problem. We need to find ways to heat buildings and move cars without using fossil fuels." Fortunately, there's good news on that front. "Some practitioners have been quantifying if this can be done, and the results of studies I've seen have been promising," he says. "We'll need to prepare the infrastructure (to be) more electric, particularly more vehicle charging stations and more geothermal. To meet the challenge, Hydro estimates it will need to double the amount of power that's currently available. On that front, we're looking to Manitoba Hydro to plan for new generation and enhance the distribution network." Meanwhile, other initiatives such as enhanced insulation of structures (from buildings to homes), passive heating (using solar walls to capture heat from sunlight) and geothermal heating and cooling are also viable options. "At some point in the future, we likely need to have district heating systems with geothermal wells under laneways, roadways, and athletic fields," Hull says. "Geothermal will be huge, as will wind and solar power. They're all clean, local, and cheap." Increasing our ability to adapt to climate change and use new technologies to reduce our impact on the climate is critical, he adds. "Climate change is a huge challenge. It's essential for us to show people a plan so we can have a better future." Curt Hull

• Cover