ZERO SERIES MODULE 06: ZERO CARBON & LIVING BUILDING CHALLEN
The ZERO Carbon Design series has been developed to help accelerate the capacity for meeting the enormous challenges brought about by climate change. To meet the critical challenge for a zero carbon economy, it is increasingly accepted that the target for a zero carbon construction industry must be 2030. Given a great number of buildings can take upward of five years from inception to completion, this means we must all be ready to designing to zero carbon parameters by 2025. This is going to take an unprecedented re-engineering of our profession. The seven lecture seminar series provides practical guidelines and case study insights which will enable practitioners to start the journey now. Some of you are of course already on the journey. The course is presented primarily by engineers and designed to be helpful for small and large practices.
Learning Outcomes
At the end of this presentation you should be able to:
1. Describe what net zero is and articulate a suitable process of achieving net zero practices
2. Identify the fundamental concepts of energy demand optimisation
3. Gain an understanding of how various performance targets can be used to verify good design
4. List ways in which design can contribute to energy efficiency
NSCA 2015 Performance Criteria
This presentation is equivalent to 1 hour/point of formal CPD and will deliver outcomes related to the following Competencies from the National Standard of Competency for Architects:
Design: Project Briefing
1.2 Establishment, analysis and evaluation of client project requirements and objectives.
1.4 Identification of factors that may impact on client project requirements and objectives.
Design: Pre-Design
2.6 Preparation and analysis of project development options in response to project brief.
Design: Conceptual Design
3.3 Design response incorporates assessment of the physical location and relevant wider regional, contextual and environmental issues.
3.4 Design response incorporates assessment of relevant legislation, codes and industry standards.
3.6 Assessment of the economic impact on the project of design strategies and options.
3.7 Assessment and integration of construction systems and materials consistent with project brief.
Design: Schematic Design
4.2 Evaluation of design options against values of physical, environmental and cultural contexts.
4.4 Inclusion of expertise relevant to specialists and consultants in developing the project design.
4.6 Investigation and integration of appropriate material selection for the project design.
4.7 Coordination and integration of appropriate environmental systems, including for thermal comfort, lighting and acoustics.
Documentation: Detailed Design
5.5 Integration of materials and components based upon an understanding of their physical properties.
NSCA 2021 Performance Criteria
This presentation is equivalent to 1 hour/point of formal CPD and will deliver outcomes related to the following Competencies from the National Standard of Competency for Architects:
PROJECT INITIATION AND CONCEPTUAL DESIGN
PC 19 Be able to identify, analyse and evaluate client project requirements and objectives using qualitative and quantitative methods and, where required by the terms of engagement, to assist cost estimators in determining project feasibility/viability.
PC 20 Be able to assess project budget and timeframe against project requirements and objectives, relevant legislation, statutory planning requirements, building codes and standards.
PC 21 Be able to apply project budgets, or work with quantity surveyor to establish project budgets, based upon understanding of cost planning, value management and factors influencing project cost relevant to the project type and scale.
PC 24 Be able to prepare and analyse project development options in response to a project brief – its objectives, budget, user intent and built purpose, risk and timeframes, including environmental sustainability considerations.
PC 29 Be able to develop and evaluate design options in terms of the heritage, cultural and community values embodied in the site, and in relation to project requirements.
PC 31: Be able to identify, analyse and integrate information relevant to environmental sustainability – such as energy and water consumption, resources depletion, waste, embodied carbon and carbon emissions – over the lifecycle of a project.
PC 33 Be able to investigate, coordinate and integrate sustainable environmental systems – including water, thermal, lighting and acoustics – in response to consultants’ advice.
DETAILED DESIGN AND CONSTRUCTION DOCUMENTATION
PC 39 Be able to integrate the material selection, structural and construction systems established in the conceptual design into the detailed design and documentation
PC 41 Be able to coordinate and integrate input from specialists and consultants into the detailed design and documentation
PC 45 Be able to nominate and integrate quality and performance standards with regard to selected materials, finishes, fittings, components and systems, considering the impact on Country and the environment, and the whole life carbon impact of the project. This includes integrating life cycle assessments and other expertise and advice from consultants.
Speaker
OLIVER GRIMALDI
ASSOCIATE
CUNDALLS
Oliver has over thirteen years’ experience in the design and construction industry across the public and private sectors, in the UK and Australia.
As Associate, Oliver enjoys leading Cundall’s successful and productive Perth team. Oliver specialises in energy efficiency in buildings, particularly using thermal dynamic modelling software.
Oliver is passionate about fusing sustainable design with wonderful architectural spaces, where buildings and nature live as one.
Speaker
ROSS DONALDSON
Ross Donaldson was CEO and Chairman of Woods Bagot from 2006-2016, leading the practice to its dramatic growth internationally to become the world’s 6th largest practice in 2014 and in 2016 the 7th “Most Admired” firm (WA100), judged by its international peers.
He is a champion of the imperative for sustainable development and has presented numerous lectures internationally on sustainable models for cities and their liveability. In 2008 he established a partnership with Buro Happold to develop software for designing for zero emissions.
Prior to joining Woods Bagot in 2001 he had his own small practice and taught at UWA.
Price
Members $49
Non members $74
What Do I Do Next?
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