19SEPTEMBER 2024Alagesan Thasari is a versatile business management expert with 25+ years of global leadership. His proficiency spans P&L management, sales, product strategy, and supply chain. He adept at optimizing costs, enhancing profit, and expanding market presence through strategic processes and innovation.INDUSTRY INSIGHTSROLE OF ENERGY EFFICIENCY IN SHAPING THE FUTURE OF THE AUTOMOTIVE SECTOREnergy efficiency is going to play a pivotal role in shaping the future of the automotive sector. By focusing on friction reduction, one can enhance fuel economy, reduce emissions, and drive sustainable transportation practices. How do you see the importance of energy efficiency in shaping the future of the automotive sector?Energy efficiency will play a pivotal role in shaping the future of the automotive sector as it has far-reaching impacts. Currently, approximately 20 percent of all energy is used to overcome friction. SKF, a leading company in the automotive industry, aims to minimize this wastage. Emphasizing friction reduction is critical because it directly affects fuel economy and emissions. By optimizing automotive components and systems to minimize friction, significant enhancements in energy efficiency can be achieved. This leads to vehicles traveling longer distances on less fuel, resulting in reduced operating costs for vehicle owners and lower greenhouse gas emissions.Addressing environmental concerns is a crucial aspect of this approach, which also aligns with stringent regulatory standards and meets the growing consumer demand for eco-friendly vehicles. As the world increasingly emphasizes sustainability and climate-conscious practices, friction reduction and energy efficiency emerge as vital solutions for a more promising future in the automotive industry. By focusing on these aspects, the automotive sector can contribute significantly to a greener and more sustainable world.How are computational modelling, simulation techniques, and advanced testing methodologies being utilized to optimize automotive components and systems for improved energy efficiency through friction reduction?Delving into each aspect step by step, the first powerful tool in the pursuit of friction reduction and energy efficiency is computational modelling. This process involves the creation of virtual representations of automotive components and systems using advanced software. Through these digital models, engineers can accurately simulate various operating conditions and interactions within the vehicle. By exploring different materials, shapes, and lubrication methods, computational modelling provides valuable insights into how they affect frictional losses.Simulation techniques complement computational modelling seamlessly. Once the virtual models are constructed, engineers employ simulation software to run complex scenarios and test hypotheses without the need for physical prototypes. This approach not only saves precious time and resources but also yields crucial data for analysis. Simulations play a pivotal role in evaluating how various design changes and innovations impact the overall system efficiency.Despite the power of computational modelling and simulation, real-world testing remains an indispensable step Alagesan Thasari Director & Head - Automotive Business & CTO Alagesan Thasari, Director & Head - Automotive Business & CTO
<
Page 9 |
Page 11 >