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This week we announced that we have been collaborating with Monodraught to release further performance components within the IESVE. The components are for Monodraughts’ Hybrid Thermal Mixing (HTM®) ventilation system, and sit within our VE ApacheHVAC application.
With the previous success of integrating components for Monodraught’s Windcatcher and Cool-phase systems we are very pleased to be adding the HTM system to our components library, providing you with more accurate information for your designs, and in turn leading to more sustainable and better performing buildings.
The IESVE for Engineers suite features a library of predefined 3D component representations of Monodraught systems that can be dragged easily from a catalogue of products onto a building model constructed within the IESVE. The performance and energy savings can then be assessed in an open and transparent process by the client alone, thus building confidence in the application of Natural Ventilation and Cooling systems and demonstrating the true capabilities and potential for this type of scheme.
The analysis tools that are available in the IESVE provide you with a visual insight into the performance of the HTM & HTM FS systems year round, and the authentic textures offer architects and designers a means of understanding the aesthetics of Monodraught systems and how best to integrate them into a building.
For further information visit: http://www.iesve.com/software/ve-for-engineers/manufacturer-tools/monodraught-htm
The following piece is an extract from the January 2017 issue of Impact, a publication that features science reports designed to enable the dissemination of research impact to key stakeholders. This is a report on ENTRUST, a H2020 R&D project that IES is involved in as a project partner.
ENTRUST is a three-year project exploring energy-related human behaviours and attitudes and how these are shaped by numerous factors, including age, gender and socioeconomic status. Through this in-depth analysis, the research team hopes to advance the transition to a low carbon energy society.
Traditionally, energy has been seen primarily as a commodity – a marketable product produced and sold by companies with the principal motivation of financial return. In this perspective, citizens are conceived as consumers whose only legitimate mode of interaction with the energy system is through their purchasing choices and consumption practices. However, consumption only represents one element of the human interaction with the energy system and such a restrictive view has led to poor policy decisions being made, resulting in, for example, bottom-up resistance to energy infrastructure and the design of less than effective initiatives aimed at changing energy behaviour and practices.
In a time when the energy system is undergoing a rapid transformation, understanding the human dimensions of energy is more important than ever. The EU has set targets to reduce greenhouse gas emissions by at least 40 per cent from 1990 levels, and to have a minimum of 27 per cent of energy produced by renewables, as well as a 27 per cent improvement in energy efficiency. In order to achieve this transition to a low carbon energy paradigm efficiently and effectively, the way in which energy is viewed needs to be re-evaluated.
Energy citizenship is a theory that seeks to move beyond the narrow view of energy as a commodity and seeks to integrate the public as active stakeholders in the energy system. While this is an emergent (and to a degree contested) concept, a key feature of energy citizenship is that it should involve not only the responsibility to change behaviours and practices, but also include the right of citizens to be involved in energy-related decision making processes.
ENTRUST (Energy System Transition Through Stakeholder Activation, Education and Skills Development) is a project that has adopted this theory as a conceptual framework for investigating the human factors of the energy system. Commenced in May 2015, and coordinated by University College Cork (UCC), Ireland, this Horizon 2020-funded project seeks to gain an indepth understanding of people’s awareness and perceptions of the energy system, their attitudes towards various energy technologies, and their energy consumption behaviours and practices. This analysis particularly explores how sociodemographic factors (especially gender, age and socioeconomic status) impact and shape these attitudes and practices. Building on this understanding, the project additionally aims to engage the public in the current energy transition and develop effective tools for creating public interest in European energy policy and innovation. It is hoped that researching and understanding this human dimension will both help to build an energy infrastructure that is acceptable to communities, and that supports the successful transition to a low carbon society.
A MULTIDISCIPLINARY APPROACH
What is particularly important about ENTRUST is its multidisciplinary and interdisciplinary approach to its research on the energy system. A wide range of disciplines – including engineering, sociology, political science, psychology, gender theory and human geography – are integral to the effective exploration of the sociodemographic factors at play. To obtain expertise in such a diverse array of fields, a number of organisations – Liverpool John Moores University and Integrated Environmental Solutions Ltd (UK), LGI Consulting (France), Redinn S.r.l. and STAM S.r.l. (Italy), and Enerbyte Smart Energy Solutions SL (Spain) – are partners with UCC on the project.
The ENTRUST team sees the roles of gender, age and socioeconomic status in moulding a person’s identity as crucial to understanding their associated impacts on our energy infrastructures. As Project Coordinator Niall Dunphy explains: ‘We recognise that every person’s identity is complex and multifaceted, and that gender, age and socioeconomic status all play a role in shaping – both positively and negatively – people’s attitudes and practices when it comes to energy. We should also recognise that these indicators also shape people’s experiences of oppression and privilege to varying degrees throughout their lives.’
To gain an enhanced understanding of individuals’ actions and behaviours in relation to energy, ENTRUST has adopted an integrated, mixed-methods approach. It will evaluate the extent to which one’s social environment impacts on behaviour and practices. Furthermore, the role of gender (in particular) will be assessed via intersectional analyses to gain a deep insight on how multiple sociodemographic factors of a person’s identity can influence their energyrelated attitudes and practices. Through this investigation, the ENTRUST team is endeavouring to integrate new knowledge within a practical framework that can help shape future energy innovations, improve stakeholder understanding and, ultimately, overcome the shortcomings of the current energy transition. ‘By helping to give local people a voice in policy making we hope to contribute towards short-circuiting the potential for repeating some of the pitfalls that hindered previous phases of the energy transition,’ states Dunphy.
THE IMPORTANCE OF COMMUNITY ENGAGEMENT
Since energy citizenship lies at the core of ENTRUST’s framework, empowering communities is a crucial focus of the project. The team is collaborating with six different communities across Europe, which will have the opportunity to co-design their own energy transition. ‘We are working with these communities to, firstly, understand both their awareness, perceptions, behaviour and attitudes to energy-relevant technologies, and, secondly, to facilitate them to envision, and to re-imagine their own energy transition,’ Dunphy elaborates.
One interesting approach being adopted by the project to help community empowerment is Participatory Action Research, the emphasis of which is on participation and action among community members. By enabling individuals and communities to work collaboratively and thoughtfully towards making positive change happen, ENTRUST is encouraging the development of bespoke energy systems that involve an efficient, low carbon framework.
The project is engaging the public by conducting in-depth face-to-face interviews, focus groups and mini-publics (the assembling of randomly selected citizens that represent a microcosm of the public to discuss a particular topic). A particular emphasis is on ensuring inclusivity. For example, with regard to gender, timing, location and provision of support services (such as crèches) are considered important to enable both female and male participation.
In terms of wider public engagement, Dunphy and his colleagues are setting up a communication and knowledge platform that will inform and update citizens on the developments of their community’s future bespoke energy system. Not only this, but the platform will encourage discussion and participation among individuals – no matter what their gender, age or socioeconomic status – giving them an active say in the shaping of their energy system.
ENTRUSTING COMMUNITIES WITH THE ENERGY OF THE FUTURE
Just one year into the project good progress has already been achieved, with the completion of numerous analyses on, for example, policy and regulation, energy technologies and market-based policy tools. Now, activities are really ramping up, as the multidisciplinary team gets to work on stakeholder engagement and sociodemographic analyses. ‘The next 12 months are an exciting time for the ENTRUST project,’ Dunphy notes. ‘We will continue our intensive and rich engagement with the six communities of interest, which will result in intersectional analyses of their perceptions and attitudes towards energy, and of their perceptions and attitudes towards energy technologies.’ Once these findings have been obtained, they will, along with the aforementioned analyses, be able to significantly inform the future of our energy system.
Find out more about the ENTRUST Project here: http://www.entrust-h2020.eu/
We’ve been working with Breathing Buildings for several months now, and today we’re excited to announced the result of that collaboration – a brand new performance component within the VE for Breathing Buildings’ NVHR low energy hybrid ventilation system.
The new component uses IES Navigator technology to streamline and automate the integration of the component with the IES 3D building model. The Navigator includes guidance for Part L2 (UK) and provides automated CIBSE TM52 reportage. The Navigators step-by-step feature means that it’s easy to use, even if you are a first time user.
Other features include, in-model checks and model warnings to help users ensure the system is set up correctly. And In-model colour coding is also a useful feature to show that the model is correctly set up in preparation for simulation
Our VE for Engineers suite features a library of predefined 3D component representations of manufacturers systems that can be dragged easily from a catalogue of products onto a building model constructed within the VE. We’re excited to add the Breathing Buildings NVHR low energy hybrid ventilation system to this library, allowing our customers to easily assess performance and energy savings, as well as ease the process for passing UK regulations.
For more information, visit http://www.iesve.com/software/ve-for-engineers/manufacturer-tools/breathing-buildings
Ecobuild 2017 kicks off tomorrow and we’re excited about what the show has in store. Positioned in a prime location right by the main conference stage, our team of experts will be on hand at stand F118 to talk you through and demonstrate all the latest exciting features of our newly launched VE 2017. As you may have already heard, this is our biggest release to date, with 25 major new features as well as many smaller enhancements. Stop by our stand for a more in depth look.
We’ll also be talking about our new services for Health & Wellbeing, helping you to achieve WELL™ Certification. Our global Consulting team can assist you in enabling and embedding good practice Health and Wellbeing concepts in your projects and buildings, helping you achieve WELL Certification in the process.
As well as this, you can come by to find out more about one of our most anticipated features of VE 2017, our new Interoperability Navigator which provides a step-by-step process for importing your model from any drawing tool you are using into the IESVE for analysis. The Navigator is part of our BIM4Analysis end-to-end solution – a single platform that integrates with the BIM workflow to create and capture performance information during design, commissioning and operation of a building.
In addition to what’s going on at our stand, we are excited to have been chosen as one of the 5 finalists for this years’ Ecobuild and M&S Big Innovation Pitch. Our Managing Director, Dr Don McLean, will be taking to the stage tomorrow in the main conference theatre to pitch the IES Simulation Based Control tool to the judging panel. The event will be live on the main stage from 5pm. Get there early to get a seat!
Our team are also available for meetings throughout the week. Email firstname.lastname@example.org to arrange a timeslot that suits you.
P.S If you haven’t already registered for Ecobuild, use this link to register for free.
VE 2017 is our biggest release to date! With 25 major new features, as well as lots of smaller enhancements, we are very excited to be launching this new release. Some of the features include the latest cutting edge technology from our R&D division, whilst many of them are customer requests fed back to us via our email@example.com email. We are always striving to make our software the best we can for our customers so please feel free to drop us an email with any requests.
VE 2017 has been designed to improve productivity and to help you optimise your building design.
Here’s an overview of some of our headline features:
Hone is an optimisations tool to help you find the optimal building design whilst saving time and cost. An outcome of the R&D project UMBRELLA, Hone is a standalone tool that references a VE model with the advantages being that the VE can still be used whilst any optimisation is being performed. It is completely customisable even down to the graphics rendered, making it another ideal tool for expert users.
APACHEHVAC SYSTEM LOADS & SIZING REPORT GENERATOR
This new feature provides streamlined generation and improved user control over a significantly expanded set of reports for buildings, system, zone, and room loads, sizing, and ventilation.
PARALLEL SIMULATION MANAGER
Parallel simulation manager (PSM) is intended to allow you to manage simulations within the Virtual Environment.
Python Scripting (PS) is the new API for the VE replacing the older API approach (APSFILE.DLL). This unique, innovative approach allows users to create their own customised scripts, some automation and reportage, which can be easily shared through your own navigator. The PS API consists of two main features, the Python Console or Integrated Development Environment (IDE) and the Python Navigator. The Console IDE allows users to create their own scripts and promote them to their own Navigator. The Python Navigator allows access to the resultant ‘program’.
Parametric tool, an outcome of the IES R&D project UMBRELLA, is a standalone tool that references a VE model with the advantages being that the VE can still be used whilst any parametric study is being performed. Parametric is completely customisable in every respect, making it a very powerful tool for the expert user.
To learn about all the new VE 2017 features visit www.iesve.com/VE2017
You can also view all of our new VE 2017 feature videos https://www.youtube.com/playlist?list=PLRHRHd8DzhSouhWRdBbGBddHr29qHhDYm
To upgrade to VE 2017 visit http://www.iesve.com/software/download