Scott Hubley serves as the Principal and Vice-President at Freese and Nichols, where he leads the North Texas Stormwater team with a commitment to addressing the complexities of urban flooding. With a robust background in civil engineering, Scott has honed his expertise in stormwater management,...
Scott Hubley serves as the Principal and Vice-President at Freese and Nichols, where he leads the North Texas Stormwater team with a commitment to addressing the complexities of urban flooding. With a robust background in civil engineering, Scott has honed his expertise in stormwater management, focusing on innovative solutions that help municipalities effectively navigate the challenges posed by increasing urbanization and climate variability. His extensive experience encompasses the planning and design of a wide range of municipal stormwater infrastructure, including open channels, closed systems, and detention facilities.
Under Scott's leadership, the North Texas Stormwater Group has successfully executed key projects that not only enhance flood resilience but also promote sustainable water management practices. His proficiency in hydrology and hydraulics, coupled with advanced 2D modeling techniques, allows him to deliver precise analyses and effective designs tailored to the unique needs of each community. Scott is dedicated to fostering strong relationships with clients, ensuring that their concerns are addressed through exceptional customer service and collaborative problem-solving.
In an era where urban flooding poses significant risks to infrastructure and public safety, Scott's role is vital in shaping the future of stormwater management in North Texas. His strategic vision and technical acumen empower local governments and stakeholders to implement proactive measures that mitigate flooding impacts, safeguard communities, and enhance the overall quality of life. As a thought leader in the industry, Scott continues to advocate for innovative approaches that align with best practices in environmental stewardship and community resilience.
