Credits: 1 AIA LU/HSW; 1 AIBD P-CE; 0.1 IACET CEU
May qualify for learning hours through most Canadian architectural associations.
Evolving codes and standards, market-based incentives, sustainability concerns and a global movement toward better building design are driving the adoption of specialized mechanical ventilation systems. In this presentation, speakers Kevin Miskewicz and Joe Cefaly overview both Energy Recovery Ventilators (ERV) and Dedicated Outdoor Air Systems (DOAS) and how these specialized ventilation systems work in concert with Variable Refrigerant Flow (VRF) systems to provide a complete high-performance HVAC solution.
Kevin Miskewicz: Kevin leads the development and execution of commercial product strategies for Mitsubishi Electric Trane HVAC US. Most recently, he served as director of commercial marketing, leading the marketing strategies, programs, and initiatives for the division’s commercial product line. Kevin is a certified LEED Green Associate. Before joining Mitsubishi Electric in 2014, he was the product manager for condensing units and controls at Heatcraft Worldwide Refrigeration in Stone Mountain, Georgia, and previously held global marketing and product management roles in the Consumables division at NCR Corporation in Atlanta. Kevin earned a bachelor’s degree in business administration from the University of Dayton.
Joe Cefaly: Joe provides engineering and applications support for products developed with third-party manufacturers. He assists in the development of new and existing products, including dedicated outdoor air systems (DOAS), CITY MULTI®, and other OEM products. Joe has worked at Mitsubishi Electric for eight years, previously serving as a mechanical engineer. He is a LEED Accredited Professional and Certified Energy Manager. Joe earned a bachelor’s degree in physics from Union College and his MBA from Northeastern University.
- Identify current industry trends driving specialized ventilation adoption.
- Understand the benefits and applications of ERVs and DOAS.
- Examine the efficiencies of VRF technology.
- Understand how highly-efficient ventilation complements VRF for high-performance design.