Roman Titov, P.E., CCM, LEED AP
Roman Titov is a seasoned construction professional with expertise in project management, civil engineering, and urban planning. He holds a Master of Science in Civil Engineering from the University of Calgary and a Master of City and Regional Planning from Rutgers University. With leadership roles at Amazon Web Services, Jacobs, and Perfetto Contracting Co. Inc., Roman has managed complex construction projects, overseen budgets, and ensured high-quality project execution. As a Certified Construction Manager (CCM) and LEED Accredited Professional (LEED AP), he brings a strong focus on sustainability and industry best practices.
Beyond his professional experience, Roman has a passion for education, having taught project management courses at the Schulich School of Engineering, University of Calgary. His ability to simplify complex engineering concepts and engage students effectively makes him a valuable instructor. As part of our continuing education program for professional engineers, Roman provides practical knowledge and insights to help engineers advance their careers in construction and project management.
Courses Provided by Roman Titov
CE-02-800 Assessment of Design Criteria and Best Practices for a Resilient Tomorrow – 15 PDH
This course provides a comprehensive exploration of the design criteria and best practices essential for improving community resilience in the face of natural hazards.
CE-02-801 Bioretention Design: Performance, Longevity, and Sustainability – 10 PDH
Bioretention systems play a crucial role in sustainable stormwater management, reducing runoff, improving water quality, and enhancing urban resilience. This course provides a comprehensive guide to designing, implementing, and maintaining bioretention facilities for long-term performance.
EE-02-802 Understanding High Energy Arcing Faults – 10 PDH
This course delves into the critical phenomena of High Energy Arcing Faults (HEAF) within industrial and power plant environments, where the catastrophic potential of arcing events can lead to significant safety hazards.
EN-02-803 Construction & Demolition Landfills: Regulations and Best Practices – 7 PDH
Construction and demolition (C&D) landfills play a crucial role in waste management, but they must be designed, operated, and closed in compliance with environmental regulations to prevent hazards. This course provides an in-depth overview of federal and tribal regulations governing C&D landfills in Indian Country, along with best practices for waste reduction, site selection, operations, and closure.
EN-02-804 Designing Disaster Resilient Buildings to Minimize Debris – 5 PDH
Natural disasters are increasing in frequency and intensity, causing billions in damages to infrastructure and the environment. This course offers a transformative approach to disaster resilience, exploring innovative design strategies to strengthen buildings and minimize disaster debris.
ME-02-805 Pressure Loss in Plumbing Systems – 4 PDH
This course provides a detailed understanding of pressure loss in plumbing systems. It covers the principles of pressure loss in pipes and fittings, the factors affecting it, and the measurement techniques used to quantify pressure losses.
ST-02-806 America Burning: Design Strategies for Fire Prevention – 15 PDH
Explore the legacy and lessons from “America Burning,” a groundbreaking report addressing fire safety challenges in the United States. This course empowers professionals to integrate prevention design strategies, enhance public awareness, and adopt innovative practices for reducing fire incidents and losses.
ST-02-807 Collapse Resistance in Federal Buildings – 10 PDH
Learn how to fortify federal structures against progressive collapse with design methodologies. This course explores federal guidelines, focusing on creating resilient and secure buildings through redundancy, structural reinforcement, and advanced analysis techniques.
ST-02-808 Computational Wind Engineering: Tools and Techniques – 10 PDH
Step into the future of wind engineering with this innovative course that explores the cutting-edge advancements in Computational Wind Engineering (CWE). This comprehensive course will equip you with the knowledge to integrate CWE into real-world projects, pushing the boundaries of what’s possible in wind engineering.
ST-02-809 Design Standards for Federal Public Buildings – 20 PDH
This comprehensive course explores the facilities standards for the Public Buildings Service, the cornerstone of designing, constructing, and maintaining federal buildings. You will uncover strategies to meet mandatory performance standards, enhance sustainability, and ensure resilience in diverse project types.
ST-02-810 Designing Fire & EMS Stations: A Comprehensive Guide – 10 PDH
Fire and Emergency Medical Services (EMS) stations are the heart of community safety, yet they face unique design challenges to ensure the safety and health of responders and the public. This course dives into the critical aspects of designing fire and EMS stations that prioritize safety, health, and operational efficiency.
ST-02-811 Earthquake Resilience: Benefit-Cost Analysis for Building Design and Retrofit – 3 PDH
This course dives into the essential role of benefit-cost analysis (BCA) in improving the resilience of buildings in earthquake-prone areas. Students will explore the state-of-the-art methods and tools used to assess the economic and safety benefits of adopting modern building codes, retrofitting existing structures, and exceeding code requirements.
ST-02-812 Effects of Weathering on the Properties of Vinyl Siding – 4 PDH
Delve into the transformative impact of weathering on vinyl siding with this comprehensive course based on NIST’s groundbreaking study. Explore how environmental factors such as UV exposure, temperature, and humidity affect the durability, mechanical performance, and fire safety of residential cladding materials.
ST-02-813 Fire Resilience in Steel-Concrete Structures Part I: Insights from Full-Scale Testing – 10 PDH
This course summarizes practical information regarding the application of basic MUTCD safety treatments (signs, pavement markings, and delineators) for roadway horizontal curves or winding sections.
ST-02-814 Fire Resilience in Steel-Concrete Structures Part II: Advanced Solutions – 5 PDH
Steel-concrete composite floors are integral to modern buildings, but their resilience under fire conditions demands deeper understanding and innovative approaches. This course examines groundbreaking full-scale experimental evaluations, exploring the influence of slab reinforcement and other critical factors on fire-induced performance.
ST-02-815 Retrofit and Repair of Reinforced Concrete Walls with Fiber-Reinforced Polymers – 2 PDH
This course explores how FRP can improve structural resilience, increase safety in seismic zones, and reduce long-term maintenance costs. Gain valuable insights into the materials, configurations, and best practices for FRP application in real-world scenarios.
SU-02-816 Embodied Carbon and Resilient Building Design – 7 PDH
This course explores the critical role of embodied carbon in the building life cycle, addressing the environmental impacts of material extraction, construction, maintenance, and eventual disposal. It introduces key methodologies for assessing embodied carbon, discusses current strategies for minimizing carbon emissions, and highlights the importance of resilient building design in reducing the need for future repairs.
SU-02-817 Innovative Rainwater Management and Green Design – 3 PDH
Urban spaces are facing increasing challenges with rainwater management, pollution control, and sustainability. This course explores an innovative approach to integrating rainwater management with green infrastructure.
SU-02-818 Integrating Climate Change Data into Codes and Standards – 5 PDH
Climate change is reshaping the built environment, and the need to adapt is urgent. This course offers essential insights and actionable strategies to help participants integrate the latest climate science into building design and policy, ensuring safe, resilient, and sustainable communities for future generations.
SU-02-819 Stormwater Calculator: Guide and Application – 6 PDH
This course provides a step-by-step guide to using the SWC, participants will learn how to assess hydrological conditions, incorporate climate projections, and apply LID controls to enhance site resilience. Whether you are an engineer, planner, or property developer, this course will empower you to make data-driven decisions in stormwater management.