Assessment of Retrofit Measures for Industrial Halls: Energy Efficiency and Renovation Budget Estimation

Research output: Chapter in Book/Report/Conference proceedingConference contributionScientificpeer-review

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Assessment of Retrofit Measures for Industrial Halls : Energy Efficiency and Renovation Budget Estimation. / Simson, Raimo; Fadejev, Jevgeni; Kurnitski, Jarek; Kesti, Jyrki; Lautso, Petteri.

Sustainable Built Environment Tallinn and Helsinki Conference SBE16: Build Green and Renovate Deep. Elsevier, 2016. p. 124-133 (Energy Procedia; Vol. 96).

Research output: Chapter in Book/Report/Conference proceedingConference contributionScientificpeer-review

Harvard

Simson, R, Fadejev, J, Kurnitski, J, Kesti, J & Lautso, P 2016, Assessment of Retrofit Measures for Industrial Halls: Energy Efficiency and Renovation Budget Estimation. in Sustainable Built Environment Tallinn and Helsinki Conference SBE16: Build Green and Renovate Deep. Energy Procedia, vol. 96, Elsevier, pp. 124-133, Sustainable Built Environment Tallinn and Helsinki Conference, Tallinn, Estonia, 05/10/2016. https://doi.org/10.1016/j.egypro.2016.09.114

APA

Simson, R., Fadejev, J., Kurnitski, J., Kesti, J., & Lautso, P. (2016). Assessment of Retrofit Measures for Industrial Halls: Energy Efficiency and Renovation Budget Estimation. In Sustainable Built Environment Tallinn and Helsinki Conference SBE16: Build Green and Renovate Deep (pp. 124-133). (Energy Procedia; Vol. 96). Elsevier. https://doi.org/10.1016/j.egypro.2016.09.114

Vancouver

Simson R, Fadejev J, Kurnitski J, Kesti J, Lautso P. Assessment of Retrofit Measures for Industrial Halls: Energy Efficiency and Renovation Budget Estimation. In Sustainable Built Environment Tallinn and Helsinki Conference SBE16: Build Green and Renovate Deep. Elsevier. 2016. p. 124-133. (Energy Procedia). https://doi.org/10.1016/j.egypro.2016.09.114

Author

Simson, Raimo ; Fadejev, Jevgeni ; Kurnitski, Jarek ; Kesti, Jyrki ; Lautso, Petteri. / Assessment of Retrofit Measures for Industrial Halls : Energy Efficiency and Renovation Budget Estimation. Sustainable Built Environment Tallinn and Helsinki Conference SBE16: Build Green and Renovate Deep. Elsevier, 2016. pp. 124-133 (Energy Procedia).

Bibtex - Download

@inproceedings{aed531bf304b4911a3f947765fa3e6d0,
title = "Assessment of Retrofit Measures for Industrial Halls: Energy Efficiency and Renovation Budget Estimation",
abstract = "The need for renovation is driven mostly by high energy prices and by the amortization of building envelope structures and building systems. Industrial buildings built before 1990s are usually poorly insulated and without ventilation heat recovery. When renovation is considered, it raises a question of what and to which extent to renovate, to achieve the optimal result for the investment. The current study focuses on the building envelope insulation and ventilation renovation options for hall-type industrial buildings. We have analyzed the impact of different renovation measures, regarding envelope insulation and ventilation systems, to the energy consumption and renovation budget for three typical buildings built between the 1960s and 1990s in Finland. The energy consumption calculations have been conducted with building energy and indoor climate simulation tool IDA-ICE. For the economic calculations, we have used the current Finnish energy prices and interest rates with moderate trends for the next 20 years to estimate the internal rate of return and net present value of the retrofit measures. The calculations have been done for two building sizes: a large hall, 137m x 66m, and for a smaller hall, 40m x 22m, both with an average height of 8m. The results show, that retrofitting the building envelope only for energy efficiency might not be beneficial when considering a payback period less than 20 years in the case of both large and small hall buildings. In case of smaller halls, some combinations of envelope retrofit can be also economically reasonable. Renovating the ventilation system by applying heat recovery and replacing lighting for energy efficient LEDs would be beneficial for all the initial building cases. Combination of supporting measures as a renovation package would be the most recommendable solution.",
keywords = "energy performance, IDA-ICE, industrial buildings, renovation budget",
author = "Raimo Simson and Jevgeni Fadejev and Jarek Kurnitski and Jyrki Kesti and Petteri Lautso",
year = "2016",
doi = "10.1016/j.egypro.2016.09.114",
language = "English",
series = "Energy Procedia",
publisher = "Elsevier",
pages = "124--133",
booktitle = "Sustainable Built Environment Tallinn and Helsinki Conference SBE16",

}

RIS - Download

TY - GEN

T1 - Assessment of Retrofit Measures for Industrial Halls

T2 - Energy Efficiency and Renovation Budget Estimation

AU - Simson, Raimo

AU - Fadejev, Jevgeni

AU - Kurnitski, Jarek

AU - Kesti, Jyrki

AU - Lautso, Petteri

PY - 2016

Y1 - 2016

N2 - The need for renovation is driven mostly by high energy prices and by the amortization of building envelope structures and building systems. Industrial buildings built before 1990s are usually poorly insulated and without ventilation heat recovery. When renovation is considered, it raises a question of what and to which extent to renovate, to achieve the optimal result for the investment. The current study focuses on the building envelope insulation and ventilation renovation options for hall-type industrial buildings. We have analyzed the impact of different renovation measures, regarding envelope insulation and ventilation systems, to the energy consumption and renovation budget for three typical buildings built between the 1960s and 1990s in Finland. The energy consumption calculations have been conducted with building energy and indoor climate simulation tool IDA-ICE. For the economic calculations, we have used the current Finnish energy prices and interest rates with moderate trends for the next 20 years to estimate the internal rate of return and net present value of the retrofit measures. The calculations have been done for two building sizes: a large hall, 137m x 66m, and for a smaller hall, 40m x 22m, both with an average height of 8m. The results show, that retrofitting the building envelope only for energy efficiency might not be beneficial when considering a payback period less than 20 years in the case of both large and small hall buildings. In case of smaller halls, some combinations of envelope retrofit can be also economically reasonable. Renovating the ventilation system by applying heat recovery and replacing lighting for energy efficient LEDs would be beneficial for all the initial building cases. Combination of supporting measures as a renovation package would be the most recommendable solution.

AB - The need for renovation is driven mostly by high energy prices and by the amortization of building envelope structures and building systems. Industrial buildings built before 1990s are usually poorly insulated and without ventilation heat recovery. When renovation is considered, it raises a question of what and to which extent to renovate, to achieve the optimal result for the investment. The current study focuses on the building envelope insulation and ventilation renovation options for hall-type industrial buildings. We have analyzed the impact of different renovation measures, regarding envelope insulation and ventilation systems, to the energy consumption and renovation budget for three typical buildings built between the 1960s and 1990s in Finland. The energy consumption calculations have been conducted with building energy and indoor climate simulation tool IDA-ICE. For the economic calculations, we have used the current Finnish energy prices and interest rates with moderate trends for the next 20 years to estimate the internal rate of return and net present value of the retrofit measures. The calculations have been done for two building sizes: a large hall, 137m x 66m, and for a smaller hall, 40m x 22m, both with an average height of 8m. The results show, that retrofitting the building envelope only for energy efficiency might not be beneficial when considering a payback period less than 20 years in the case of both large and small hall buildings. In case of smaller halls, some combinations of envelope retrofit can be also economically reasonable. Renovating the ventilation system by applying heat recovery and replacing lighting for energy efficient LEDs would be beneficial for all the initial building cases. Combination of supporting measures as a renovation package would be the most recommendable solution.

KW - energy performance

KW - IDA-ICE

KW - industrial buildings

KW - renovation budget

UR - http://www.scopus.com/inward/record.url?scp=85006412462&partnerID=8YFLogxK

U2 - 10.1016/j.egypro.2016.09.114

DO - 10.1016/j.egypro.2016.09.114

M3 - Conference contribution

T3 - Energy Procedia

SP - 124

EP - 133

BT - Sustainable Built Environment Tallinn and Helsinki Conference SBE16

PB - Elsevier

ER -

ID: 10593415