Presentation on theme: "Holistic and Optimized Life-cycle Integrated SupporT for Energy-Efficient building design and Construction Elisabetta Delponte D’Appolonia S.p.A Genova,"— Presentation transcript:
Holistic and Optimized Life-cycle Integrated SupporT for Energy-Efficient building design and Construction Elisabetta Delponte D’Appolonia S.p.A Genova, Italy 1
HOLISTEEC concept The main objective is to design, develop, and demonstrate a BIM-based, on-the-cloud, collaborative building design software platform, featuring advanced design support for multi-criteria building optimization, taking into account external neighbourhood-level influences 3 Sustainable Places 2014, October 1-3, Nice
HOLISTEEC & Sustainable Places 2014 PAPER TITLE PAPER AUTHORS 4 Carolina Ferrando D’A PPOLONIA, GENOVA Elisabetta Delponte D’A PPOLONIA, GENOVA Michele Di Franco D’A PPOLONIA, GENOVA Sylvain Robert CEA, PARIS Catherine Guigou CSTB, MARSEILLE Sustainable Places 2014, October 1-3, Nice Keywords Energy-related KPIs at building and neighborhood scale for optimization of building’s design Multi-criteria decision analysis; Key performance indicators (KPIS); Design for sustainability
FEASIBILITY DESIGN PHASES CONSTRUCTION PHASES OPERATION Simulation tools FEASIBILITY DESIGN PHASES CONSTRUCTION PHASES OPERATION Benchmark toolSimulation tools Simulations vs. Monitored performance KPIs scoreboard + Multi-physical simulation engine BIM-based HOLISTEEC PLATFORM Building design process: AS-IS PROCESS Concept behind HOLISTEEC methodology Building design process: TO-BE PROCESS 6 Sustainable Places 2014, October 1-3, Nice
Methodology features description Collaborative approach Performance-based methodology BIM since early design stages Design tools since early design stages Sustainable Places 2014, October 1-3, Nice 7
Performance-based methodology Performance based design approach emphasizes the setting of project targets as functional targets of end product (building) and evaluation of fulfillment of these targets during design, construction and operation (CIB, 1982) 8 Sustainable Places 2014, October 1-3, Nice DEDICATED CALCULATION ENGINES for building performance SIMULATION MULTI-PHYSICAL SIMULATION ENGINE enabling the combination of the results coming from the different calculation engines by means of a multi-criteria analysis, thus providing the platform end-users with a quantitative measurements of the quality of the implemented design solution HOW BUILDING PERFORMANCE is considered within HOLISTEEC BIM-based software platform
Simulation tools starting from concept design phase Energy calculation engine Acoustic calculation engine Environmental impact engine Lighting calculation engine Dedicate calculation engines 9 Sustainable Places 2014, October 1-3, Nice Currently experience and knowledge of the designers are used as a basis to choose design global optimum the goal for HOLISTEEC is to transfer designers’ knowledge and experience in the software design decision tools, in order to provide recommendations to designers based on empirical, formalized design expertise.
10 Sustainable Places 2014, October 1-3, Nice Assessment of the process performance Comparison among different performances Communication in a concise and understandable way process achievements Key Performance Indicators In the framework of HOLISTEEC BIM based software PLATFORM: Strategic importance of KPI in order to assess the quality of the results coming from the building performance simulations
HOLISTEEC Key Performance Indicators 1 11 Sustainable Places 2014, October 1-3, Nice Considering HOLISTEEC project, definition of strategic Key Performance Indicators at different scale Building scale Neighborhood scale Acoustic comfort Visual comfort Indoor air quality Thermal comfort and energy efficiency The domains included in the project evaluation framework are:
HOLISTEEC- Key Performance Indicators 2 12 Sustainable Places 2014, October 1-3, Nice Environmental impact Solar potentials Urban noise Rooftop solar gain Façade noise Façade lighting Acoustic Energy Building simulation Lighting Urban simulation 4 engines in parallel Boundary conditions
HOLISTEEC- Key Performance Indicators 3 ECOLOGICAL KPISOCIO-CULTURAL KPIECONOMIC KPI BUILDING SCALE Energy consumptions (Heating/Cooling loads- Energy from renewable, Fossil fuels use) Indoor comfort (Air flow rates- Room temperatures and humidity) Maintenance Costs Environmental impact (Greenhouse gas emission, Total primary energy consumption ) Visual comfort (Day Lighting Factor, Annual availability of daylight ) Operational cost (Energy and non-energy related) - Acoustic comfort (Reverberation time, Airborne sound insulation) - NEIGHBORHOOD SCALE Energetic interaction with neighborhood (Exploitation of local resources wind, sun, water..) Social interaction with neighborhood (Accessibility to the building, Pedestrian paths ) Cost development of buildings/neighborhood 13 Sustainable Places 2014, October 1-3, Nice
14 Multi-physical simulation engine completed by a design assistant, providing online recommendations to the designer, enabling a semi-automated approach to design. Multi-physical simulation engine This tool will be based on a multi-criteria analysis enabling the assessment of the building with respect to the identified KPIs for each domain of interest.
15 KPI Scoreboard Sustainable Places 2014, October 1-3, Nice HOLISTEEC SCOREBOARD PROJECT DETAILS 3D VIEW ALTERNATIVES COMPARISON Will provide assistance during design (options, missing data, risk analysis…) Intuitive visualization of performance indicators of the various design options Will offer 2D/3D views