The novel carbon emissions based alternative offered a whole building approach to achieving targets compared to the prescriptive elemental approach which until then had been the only route. It occurred to many building design practitioners that traditional manual design calculation methods would not allow these opportunities to be fully explored.
Strathclyde University and Associates: Scottish Energy Systems Group: Dynamic computer modelling and simulation tools obviously could have a part to play, but where to start? What computational tool to use? What about hardware requirements, recruitment, training? Thus the Scottish Energy Systems Group was established, with funding from The Scottish Executive and Strathclyde European Partnership, to provide guidance and support to the industry. The objective was to give the Scottish building design community a head start in producing a better quality of building design, incorporating more innovation and new ideas.
Strathclyde University and Associates: Scottish Energy Systems Group: Four years on, and a whole new set of regulations are being introduced, with target carbon emissions the only route to compliance. Now computer modelling is an almost indispensable tool for design evaluation, and indeed is becoming an integral part of the route to compliance (see article on New Building Regulations). Most of our members are using one of the various packages available.
Strathclyde University and Associates: Scottish Energy Systems Group: Some members could now be described as pioneers; real leaders in the use of dynamic modelling tools applied to building systems design. Others have had a go, but things have fallen by the wayside, because in adopting the technology they did not adopt an integrated process to go with it. The focus was all on the tool, rather than on how modelling would fit into the overall design process. Starting up an airline is more than just deciding which aircraft to fly.
That is why, in this issue of HotNews, we are focussing on Quality Assurance (see article “Quality Assurance process for building modelling”). We want members to take a step back and look at how they are using their modelling tools. A good starting point would be to conduct an audit. And where to turn to for help with that? SESG of course! Even if you think you don’t have a problem, a half day of free, on-site consultancy could give you the reassurance you need. If you want to use modelling tools to develop Part L compliant designs, your modelling capabilities will be mission critical (in Scotland it will be Section 6, and a different route to compliance is being developed). We will continue to support this core service (we call it Supported Technology Deployment) with seminars on topical subjects (see the events section) which are often followed up by a technology introduction workshop that allows members to try out various computational approaches for themselves, and even to explore solutions to real live projects, with on-hand support from SESG staff.
We will always seek to involve the “pioneers” in such events; they can relate the practicalities of reconciling business-as-usual with new ways of doing things. The usual pattern is that after attending a seminar, say on renewable technologies, a member sees benefits in being able to model, for example, building integrated renewables, and so attends a technology introduction workshop, led by an expert in the field. The next step is for the member to invite SESG staff to come to their office, help with installation of the software, ensure that quality assurance issues are dealt with, and leave the member up and running with a new capability, with occasional follow up sessions as required.
0 comments:
Post a Comment