Mikael M Salonvaara Senior R&D Staff Member Contact salonvaaramh@ornl.gov | 865.341.0022 All Publications Empirical validation of building energy simulation model input parameter for multizone commercial building during the cooling season Performance assessment of active insulation systems in residential buildings for energy savings and peak demand reduction Application of Machine Learning to Assist a Moisture Durability Tool Developing a Composite Vacuum Insulated Panel (VIP) Insulation/Vinyl Siding Composite Technology for Retrofitting Residential... Impact of Mass Wood Walls on Building Energy Use, Peak Demand, and Thermal Comfort... Peak cooling load shift capability of a thermal energy storage system integrated with an active insulation system in US clima... Empirical Validation of Building Envelope in a Commercial Test Building... User Friendly Web-Based Tool to Assess the Energy Efficiency and Durability of Residential Wall Retrofits Long-term Hygrothermal Performance of Sealed and Vented Attics in a Southern Climate... Development and Performance Evaluation of of Active Insulation Systems using Solid-State Thermal Switches... Model predictive control for active insulation in building envelopes... Model predictive control for active insulation in building envelopes... Empower Wall: Active insulation system leveraging additive manufacturing and model predictive control... Impact of Mass Wood Walls on Building Energy Use, Peak Demand, and Thermal Comfort... Sustainable Low-Carbon Building Materials Workshop Report... Long term performance of vacuum insulation panels integrated into building components... Performance evaluation of a dynamic wall integrated with active insulation and thermal energy storage systems... Energy performance analysis of smart wall system with switchable insulation and thermal storage capacity... Selecting durable building envelope systems with machine learning assisted hygrothermal simulations database... The Building Science Advisor: A Web-Based Tool to Assess the Durability of Building Envelope Components... Comparing Retrofit Wall Performance Predicted from Hygrothermal Simulations to Measurements... Smart and Efficient Building Envelopes: Thermal Switches and Thermal Storage for Energy Savings and Load Flexibility... Cost Assessment of Building Envelope Retrofits... Validation of Hygrothermal Simulations with Wall Performance Experiments in an Environmental Chamber... Attic innovations for high thermal performance and durability... Pagination Current page 1 Page 2 Next page ›› Last page Last » Key Links ORCID Organizations Energy Science and Technology Directorate Buildings and Transportation Science Division Building Technologies Research Section Building Envelope Materials Research Group Building Technologies Program User Facilities Building Technologies Research and Integration Center
