The environmental impact of step-by-step renovation : a single-family dwelling

Meiresonne, Elke; Decorte, Yanaika; Steeman, Marijke

The environmental impact of step-by-step renovation : a single-family dwelling

Elke Meiresonne, Yanaika Decorte (UGent) and Marijke Steeman (UGent)

(2024) ASHRAE International Building Decarbonization Conference 2024. p.272-280

Author

Elke Meiresonne, Yanaika Decorte (UGent) and Marijke Steeman (UGent)

Organization

Department of Architecture and urban planning

Project

Three pathways towards carbon neutrality of existing single-family dwellings: what are the tipping points?

Abstract

To achieve a climate-neutral building stock by 2050, a substantial number of renovations will be necessary in the upcoming years. Because of these large numbers, the Flemish government has proposed a strategic approach that systematically phases out dwellings with the poorest Energy Performance Certificate labels. Whereas existing literature on the environmental impact of renovation projects predominantly addresses renovations as a single-step intervention, the more common step-by-step renovation approach is missing in current state-of-the-art. Therefore, this paper examines the environmental impact of a step-by-step renovation of an uninsulated single-family dwelling by means of life cycle assessment (LCA). Within this study, four distinct sets of renovation measures, hereafter referred to as “renovation packages”, are considered. These packages all include the insulation of the building envelope in line with the current Flemish EPBDregulations combined with two types of heating systems (i.e., a gas condensing boiler and air-water heat pump) and two types of ventilation systems (i.e., an exhaust ventilation system and balanced ventilation system). In addition, three main parameters are distinguished in the context of a stepwise approach: (1) the renovation sequence, (2) the number of renovation steps, and (3) the interval between renovation steps. First, the environmental impact of a stepwise approach under fixed parameter conditions is calculated. Subsequently, the influence of varying these three parameters on the environmental impact is assessed. The findings indicate that, when evaluating identical renovation packages and conducting the one-step renovation at the start of the study period, a step-by-step renovation consistently results in a higher environmental impact than a one-step deep renovation. Nonetheless, a stepwise renovation approach can be preferred over a one-step renovation in case the latter employs a less efficient renovation package or is conducted at a later moment in time

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Citation

Please use this url to cite or link to this publication: http://hdl.handle.net/1854/LU-01J29CW85E118SJRJ1VEXE6AJ9

MLA: Meiresonne, Elke, et al. “The Environmental Impact of Step-by-Step Renovation : A Single-Family Dwelling.” ASHRAE International Building Decarbonization Conference 2024, 2024, pp. 272–80.
APA: Meiresonne, E., Decorte, Y., & Steeman, M. (2024). The environmental impact of step-by-step renovation : a single-family dwelling. ASHRAE International Building Decarbonization Conference 2024, 272–280.
Chicago author-date: Meiresonne, Elke, Yanaika Decorte, and Marijke Steeman. 2024. “The Environmental Impact of Step-by-Step Renovation : A Single-Family Dwelling.” In ASHRAE International Building Decarbonization Conference 2024, 272–80.
Chicago author-date (all authors): Meiresonne, Elke, Yanaika Decorte, and Marijke Steeman. 2024. “The Environmental Impact of Step-by-Step Renovation : A Single-Family Dwelling.” In ASHRAE International Building Decarbonization Conference 2024, 272–280.
Vancouver: 1.
Meiresonne E, Decorte Y, Steeman M. The environmental impact of step-by-step renovation : a single-family dwelling. In: ASHRAE International Building Decarbonization Conference 2024. 2024. p. 272–80.
IEEE: [1]
E. Meiresonne, Y. Decorte, and M. Steeman, “The environmental impact of step-by-step renovation : a single-family dwelling,” in ASHRAE International Building Decarbonization Conference 2024, Madrid, Spain, 2024, pp. 272–280.

@inproceedings{01J29CW85E118SJRJ1VEXE6AJ9,
  abstract     = {{To achieve a climate-neutral building stock by 2050, a substantial number of renovations will be necessary in the upcoming
years. Because of these large numbers, the Flemish government has proposed a strategic approach that systematically
phases out dwellings with the poorest Energy Performance Certificate labels. Whereas existing literature on the
environmental impact of renovation projects predominantly addresses renovations as a single-step intervention, the more
common step-by-step renovation approach is missing in current state-of-the-art. Therefore, this paper examines the
environmental impact of a step-by-step renovation of an uninsulated single-family dwelling by means of life cycle assessment
(LCA). Within this study, four distinct sets of renovation measures, hereafter referred to as “renovation packages”, are
considered. These packages all include the insulation of the building envelope in line with the current Flemish EPBDregulations combined with two types of heating systems (i.e., a gas condensing boiler and air-water heat pump) and two
types of ventilation systems (i.e., an exhaust ventilation system and balanced ventilation system). In addition, three main
parameters are distinguished in the context of a stepwise approach: (1) the renovation sequence, (2) the number of
renovation steps, and (3) the interval between renovation steps. First, the environmental impact of a stepwise approach
under fixed parameter conditions is calculated. Subsequently, the influence of varying these three parameters on the
environmental impact is assessed. The findings indicate that, when evaluating identical renovation packages and conducting
the one-step renovation at the start of the study period, a step-by-step renovation consistently results in a higher
environmental impact than a one-step deep renovation. Nonetheless, a stepwise renovation approach can be preferred over a
one-step renovation in case the latter employs a less efficient renovation package or is conducted at a later moment in time}},
  articleno    = {{C31}},
  author       = {{Meiresonne, Elke and Decorte, Yanaika and Steeman, Marijke}},
  booktitle    = {{ASHRAE International Building Decarbonization Conference 2024}},
  isbn         = {{9781955516853}},
  language     = {{eng}},
  location     = {{Madrid, Spain}},
  pages        = {{C31:272--C31:280}},
  title        = {{The environmental impact of step-by-step renovation : a single-family dwelling}},
  url          = {{https://www.ashrae.org/conferences/topical-conferences/international-building-decarbonization-conference-2024}},
  year         = {{2024}},
}

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The environmental impact of step-by-step renovation : a single-family dwelling

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