UCD Bike Library pilot programme launched in November now offered to the full UCD community
The UCD Bike Library pilot programme, which was launched last November and available to UCD staff, is now open to all UCD staff and students.
UCD students can now apply for folding bikes from the Bike Library. The bikes can be accessed on-campus using self-service bike bunkers.
The UCD Bike Library initiative is coordinated by UCD Energy Institute in partnership with UCD Library. This pilot programme is one of three Sustainability Demonstrator research projects supported by Performance Funding through the Higher Education Authority.
Academic lead Professor Francesco Pilla, based in the UCD School of Architecture, Planning and Environmental Policy, said:
“We are delighted that this new scheme makes bike loans available free of charge to all the students and staff in UCD.The aim of the initiative is to encourage all the members of the UCD Community to make a permanent modal shift to sustainable, active travel for their daily commutes and take an active role in achieving the climate neutrality target of Dublin city.”
The UCD Bike Library is an expansion of Prof. Pilla’s Bike Library project which offers free bike leases to parents of pupils in participating schools and members of participating sports clubs.
UCD Students’ Union President Martha Ní Riada said:
“Making cycling accessible for all students is an important part of a sustainable university, particularly at a time when many students are facing longer and more expensive commutes. We in the Students’ Union are pleased to work with the Energy Institute on this pilot Bike Library scheme. It’s a really promising initiative that will demonstrate how accessible cycling options can make getting to and around campus much easier for students. We are encouraging as many students as possible to rally behind and make use of it, and hope that the University will continue to support it into the future.”
UCD Vice President for Sustainability Professor Tasman Crowe said:
“The Bike Library programme is a fantastic example of what can be done when a great idea for sustainability is put into practice through collaboration between diverse members of a university community. I hope that this initiative can be picked up by other libraries and organisations around the country and beyond.”
The Sustainability Demonstrator research projects, based in the UCD Energy Institute, are investigating new approaches to sustainability, focusing on the role libraries and higher education institutions can play in facilitating a modal shift to more sustainable commuting patterns.
The project is intended to demonstrate that bike libraries can function in a self-service format as with other equipment lending services which libraries offer. The project will develop a framework for bike lending libraries as an open resource for other Higher Education institutions, and organisations of similar size, to implement.
UCD students and staff who are interested in a bike loan can fill in the application form at this link..
The Electricity Grid Operation micro-credential addresses the key specifics of electrical power system operation, control, and energy economics. Through online lectures and tutorials, and in-person lab demonstrations using the facilities of UCD Energy Institute’s Integrated Energy Lab, students will gain theoretical and ‘hands-on’ experience and understanding of operating a power system.
The course will be led by Professor Andrew Keane, Director of the Energy Institute and the NexSys research partnership.
Together with the technical aspects, this micro-credential will also explore the broader context of power systems and society. It encourages participants to appreciate the future challenges that power systems are poised to face, underscoring the intricate interplay between energy infrastructure and societal dynamics.
Upon completion, participants will emerge well-versed in the complexities of power systems, equipped with the practical skills and theoretical insights necessary for thriving in the ever-evolving landscape of electrical power.
Funding Options
Green Tech Skillnet Funding
Green Tech Skillnet will fund 40% of the Electricity Grid Operation course fee for eligible learners providing a valuable chance to invest in their future.
Other Funding Options
The university is also pleased to offer UCD graduates a 20% discount on tuition fees for the Electricity Grid Operations micro-credential and to organisations who plan to send three or more employees to partake in the course.
First whole life carbon analysis of Ireland’s residential sector highlights shortcomings of carbon emission reduction targets
A new paper by UCD Energy Institute and NexSys researchers published in the journal Energy and Climate Change finds that Ireland’s current Climate Action Plan for reduction of residential sector carbon emissions falls short of achieving its targets when carbon emissions across the life cycle of a building are taken into account.
Current deep retrofit rates need to be scaled up about 20-fold by the end of the decade to meet a 2030 retrofitting target of 500,000 B2 homes, and, even still, national plans for retrofit are unlikely to be sufficient to meet sectoral climate targets, the authors find.
Almost half of poorest-performing-homes would need to be retrofitted to achieve a 51% reduction by 2030, they report.
The new research was conducted by lead author Dr Richard O’Hegarty and by Assoc. Professor Oliver Kinnane, both researchers in UCD’s Energy institute and leads of the Building in a Climate Emergency Research Lab based in University College Dublin’s School of Architecture, Planning and Environmental Policy. Both researchers are part of the NexSys research partnership.
Study authors Dr Richard O’Hegarty (right) and Assoc. Professor Oliver Kinnane (left).
The “unique challenge” of reducing emissions from the residential sector
Previous research by Assoc. Prof Kinnane and colleagues, which was commissioned by the Irish Green Building Council for its “Building a Zero Carbon Ireland” report, found that the construction and built environment in Ireland is responsible for 37% of our greenhouse gas emissions, the same as agriculture. Dr O’Hegarty and Assoc. Prof Kinnane have since published this landmark research in a peer-reviewed, academic paper titled “Whole Life Carbon in the Irish Built Environment”.
In many countries, the residential sector is targeted in climate action plans for reduction of carbon emissions, but reducing greenhouse gas emissions associated with buildings presents “a unique challenge”, note the authors.
When it comes to buildings, greenhouse gas emissions can be divided into operational and embodied emissions. Operational emissions include all the greenhouse gas emissions associated with the operational energy requirements of a building, such as heating, cooling and lighting. Embodied emissions include all greenhouse gas emissions embodied in the materials and energy used in construction, maintenance and demolition of the building throughout its whole lifecycle.
Ireland’s decarbonisation strategy largely focuses on reducing the heat demand of the poor performing building stock through deep energy retrofit (a way of minimising energy use in a building) and reducing fossil fuel reliance by switching boilers out with electrically powered heat pumps, thereby exploiting the increasingly decarbonised electricity supply.
To date, climate action plans in most countries have almost entirely focused on operational carbon, with little focus on embodied carbon. “This partial focus leads to siloed policy, often focused on retrofit of the existing stock, while high impact construction continues unabated,” write the authors in the paper.
With more housing required to keep pace with rising populations, there will be considerable additional emissions, but these have been poorly quantified until now.
The need for a ‘whole life carbon’ perspective
In this study, the authors adopt a ‘whole life carbon’ perspective, which takes into account operational emissions from space heating, hot water provision and electricity usage in the home, including heat pump operation, as well as embodied emissions across the life cycle of buildings in Ireland.
They use a literature review as well as modelling based on data from several databases and sources to quantify, report and analyse greenhouse gas emissions in the Irish residential sector relating to construction, maintenance and operation of the residential sector’s whole life carbon emissions.
Embodied carbon emissions are to surpass operational carbon emissions if only operational emissions are addressed (and successfully reduced by retrofit!), the researchers warn. Both operational and embodied carbon need to be eliminated in order to fully decarbonise the Irish residential sector, they argue.
“In Ireland we have a number of conflicting policies when it comes to the residential sector. For instance, with one policy we aim to dramatically reduce the energy related to residential buildings. With other policies, we plan to increase the amount of housing , which is necessary to house those currently without homes and our population increases over the next 10 to 20 years. But if we follow through with both of these plans, any gains that will be seen through our retrofits will be cancelled out in a real whole life carbon sense by the emissions related to the buildings that we want to build,” said Assoc. Prof Kinnane.
Findings and recommendations
Through modelled forecasts to 2030, the authors show that national plans that aim to reduce emissions through retrofit and electricity decarbonisation will be offset by increased embodied emissions from planned development, when analysed from a whole life carbon perspective.
The current Climate Action Plan for reduction of residential sector operational carbon falls short of achieving sectoral target reductions, and additional measures will be required if the sector is to meet its proportional share and sectoral emission ceiling.
This is because gains that might accrue from home retrofit and electricity decarbonisation will be negated by the growth in embodied emissions deriving from housing development outlined in government plans, when the sector is considered from a whole life carbon perspective.
The authors present a range of scenarios to achieve emission reduction across the whole of the residential sector in line with the national 51% reduction targets, as well as forecasts for operational emissions including business-as-usual and national sectoral targeted reduction scenarios of 40%.
“Entirely unprecedented changes” are required to achieve a whole life emission reduction target of 51% less than 2018, write the authors in the study. These include: a reduction in the average of a newly constructed home size from 131 m2 (2021) to 80 m2, a reduction in the number of new homes from 363,000 to 203,000, with 160,000 homes instead realised from renovation, and a 62% reduction in the embodied carbon of all materials.
A 28% reduction would result from a targeted number of energy upgrades (500,000 homes retrofitted to B or better) and an 80% renewable energy powered grid by 2030, the authors’ models show.
Based on their findings, the researchers argue that, across the whole residential sector, there needs to be: strategic targeting of the worst performing homes for retrofit first, complete decarbonisation of electricity, reduction in the size of future homes, as well as a major reduction in the embodied carbon of building materials used for residential construction.
They also note that activation, and renovation, of existing and vacant buildings could accelerate the number of homes available while offsetting the need for extensive new construction. New projects for these researchers, funded by the EPA (Trebuchet) and SEAI (Re-Cugi), are focused on the carbon benefits of activating vacant properties and compact urban growth of future development.
“More retrofits targeted toward the worst performing stock is important, and whatever gets built needs to be built to the highest standard from an operational carbon perspective. Primarily we need to get more creative about how we plan and develop our future urban environments. Key to this is focusing on what we have in the first place; stopping demolition and reusing what we have,” said Assoc. Prof Kinnane.
The authors hope that this life cycle perspective will open “a new window for policy makers to look through when addressing climate change mitigation ambitions,” says lead author Dr Richard O’Hegarty. “In particular, this perspective calls for greater policy focus on not just the emissions associated with operating our buildings, but also those emissions embodied in the construction of them. For example, the activation of vacant spaces could offset the need for new construction, saving carbon while accelerating the roll out of new homes,” said Dr O’Hegarty.
“The challenge is unprecedented and requires research initiatives to not only develop new more carbon efficient materials and structures, but also to better understand what we already have. Ireland has the opportunity to showcase itself as an example for other nations with even greater emissions,” he added.
This research was commissioned and supported by the Irish Green Building Council (IGBC) and informs their roadmap to decarbonise Ireland’s construction and built environment sector: “Building a Zero Carbon Ireland”.
Whole life carbon projections of Ireland’s residential sector to 2030, Source: https://doi.org/10.1016/j.egycc.2023.100101
Notes
About UCD Energy Institute
UCD Energy Institute is a collaboration between academia and industry delivering positive impact through research and innovation.
About NexSys
Next Generation Energy Systems (NexSys) is an all-island, multidisciplinary energy research programme. NexSys is hosted by the UCD Energy Institute in partnership with eight other leading research institutions. 46 leading academics work in partnership with industry to tackle the challenges of energy decarbonisation, developing evidence-based pathways for a net zero energy system. NexSys has received €16 million in funding through Science Foundation Ireland’s (SFI) Strategic Partnership Programme (2022-26), with nine industry co-funding partners and one philanthropic donor. For further information, see: https://www.nexsys-energy.ie/
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