Open Access
| Issue |
E3S Web Conf.
Volume 111, 2019
CLIMA 2019 Congress
|
|
|---|---|---|
| Article Number | 01064 | |
| Number of page(s) | 7 | |
| Section | Advanced HVAC&R&S Technology | |
| DOI | https://doi.org/10.1051/e3sconf/201911101064 | |
| Published online | 13 August 2019 | |
- International Energy Agency (IEA), Transition to Sustainable Buildings, Strategies and Opportunities to 2050, (2013). [Google Scholar]
- Sustainable Energy Authority of Ireland (SEAI), Energy in Ireland 2016, (2016). https://www.seai.ie/resources/publications/Energy-in-Ireland-1990-2016-Full-report.pdf (accessed Nov, 2018). [Google Scholar]
- Sustainable Energy Authority of Ireland (SEAI), Energy In The Residential Sector 2018 Report, (2018). https://www.seai.ie/resources/publications/Energy-in-the-Residential-Sector-2018-Final.pdf (accessed Sept, 2018). [Google Scholar]
- Integrated Environmental Solutions, (2018). https://www.iesve.com/ (accessed Nov, 2018). [Google Scholar]
- CIBSE, Applications and activities : HVAC strategies for common building types, (2016). [Google Scholar]
- Sustainable Energy Authority Ireland (SEAI), HARP Database, (2018). https://www.seai.ie/energy-in-business/ber-assessor-support/harp-database/ (accessed Dec, 2018). [Google Scholar]
- Ireland Department of the Environment and Local Government, Building Regulations 2002 Technical Guidance Document L Conservation of Fuel and Energy DWELLINGS, Dublin, (2002). [Google Scholar]
- CIBSE, Environmental design : CIBSE guide A, (2015). https://www.cibse.org/knowledge/knowledge-items/detail?id=a0q20000008I79JAAS (accessed Nov, 2018). [Google Scholar]
- Sustainable Energy Authority of Ireland (SEAI), Domestic Fuels Comparison of Energy Costs, (2018). https://www.seai.ie/resources/publications/Domestic-Fuel-Cost-Comparison.pdf (accessed Dec, 2018). [Google Scholar]
- ASHRAE, ASHRAE International Weather for Energy Calculations 2.0, (2018). http://ashrae.whiteboxtechnologies.com/ (accessed Dec, 2018). [Google Scholar]
- ANSI/ASHRAE, Guideline 14-2015 Measurement of Energy and Demand Savings, (2015). [Google Scholar]
- P. Poredoš, T. Čož, A. Kitanovski, A. Poredoš, Thermo-economic and primary-energy-factor assessment based on the field test of an air-to-water heat pump, Int. J. Refrig. 76 (2017) 19–28. doi: 10.1016/J.IJREFRIG.2017.02.003. [Google Scholar]
- B. Vidrih, A. Kitanovski, A. Poredo, Eligibility of a Heat Pump Based on the Primary Energy Factor, (2017) 1–13. [Google Scholar]
- ecoinvent 3.1 – ecoinvent, (2018). https://www.ecoinvent.org/database/older-versions/ecoinvent-31/ecoinvent-31.html (accessed Nov, 2018). [Google Scholar]
- A. Stafford, An exploration of load-shifting potential in real in-situ heat-pump/gas-boiler hybrid systems, (2017). doi: 10.1177/0143624416688727. [Google Scholar]
- A. Esser, F. Sensfuss, Review of the default primary energy factor (PEF) reflecting the estimated average EU generation efficiency referred to in Annex IV of Directive 2012/27/EU and possible extension of the approach to other energy carriers, (2016). www.isi.fraunhofer.de (accessed Nov, 2018). [Google Scholar]
- Sustainable Energy Authority of Ireland (SEAI), Conversion Factors, SEAI Statistics, (2018). https://www.seai.ie/resources/seai-statistics/conversion-factors/ (accessed Nov, 2018). [Google Scholar]
- S. Heinen, D. Burke, M. O’Malley, Electricity, gas, heat integration via residential hybrid heating technologies - An investment model assessment, Energy. 109 (2016) 906–919. doi: 10.1016/j.energy.2016.04.126. [CrossRef] [Google Scholar]
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