The principles of building physics and energy-efficient strategies When considering the principles of building physics and climate-responsive design, it is important to focus on how these may impact energy demand, carbon emissions, occupant comfort and well-being. This seminar will highlight important environmental design aspects, which are recommended to be considered during early design stages and will introduce tools which can assist during the design process. In details, this seminar will look to enhance your knowledge in the following areas: The energy balance principle and how different building fabric parameters and internal heat gains influence energy demand; including building form, glazing ratios, u-values, g-values and particularly infiltration and ventilation Thermal comfort assessment methods for mechanically ventilated buildings and the application of adaptive comfort models for naturally ventilated spaces Climate analysis to identify the effectiveness and potential of different passive design strategies such as thermal mass and natural ventilation Overheating risk assessments in line with CIBSE TM52 and TM59 methodologies. This is a very important aspect, especially when considering higher summer temperatures and the increase in heat waves frequency Different natural ventilation strategies, including single-sided, cross-ventilation and stack effect. Aspects related to mechanical ventilation Visual comfort and daylighting principles including daylight factors, climate-based daylight modelling and circadian daylighting Outdoor comfort assessments with reference to the Universal Thermal Climate Index and Lawson criteria Wellbeing: the impact of temperature, humidity, daylighting and indoor air quality on wellbeing, highlighting target design criteria and best practice recommendations Speaker: Herman Calleja, chapmanbdspHerman is an associate environmental consultant and head of R&D at chapmanbdsp, where he has collaborated with various design teams on residential and non-domestic schemes of different scales with regards to occupant comfort, façade design and low energy strategies. He completed, with distinction, the AA MArch SED programme in 2012, where he currently teaches. Herman has practiced as an architect, is RIBA chartered and a BREEAM accredited professional. He presented to CIBSE YEPG, at PLEA, NCEUB and other conferences. He was on the CIBSE Building Simulation Group 2018 prize winning team and was recently selected for an EU COST collaboration. Core curriculum Topics Sustainble architecture Design, construction and technology Business, clients and services Terms and Conditions (PAYG) Cancellations are acceptable in writing up to 10 working days of the event, please contact regional office for cancellation requests Substitutes are permitted at any time*, please contact regional office for substitution requests If the RIBA has to postpone or cancel the event the booker is entitled to a full refund of the ticket price only, no compensation will be given for travel costs We may contact you regarding future CPD events The RIBA accepts no responsibility for the views or opinions expressed by speakers or any other person at the event A photographer will cover this event and the images may be used to publicise future RIBA events By accepting an invitation or purchasing a ticket you consent to being photographed, filmed or recorded as a visitor attending the event. On entry to the event you agree to accept and abide by any venue rules The RIBA reserves the right to refuse admission to any ticket holder The details you provide will be processed in line with the RIBA’s GDPR obligations. For information on how we handle your personal data please see our Privacy Policy on architecture.com The personal data you provide is managed via Eventbrite in order to provide a better service. The RIBA staff process the data at all times * Non-members cannot substitute for a member and/or student ticket. Sponsored By: Fievent.com | Contact | Privacy | Terms