Electric Lighting Predictions in the Energy Calculation Methods

Francesco De Luca; Raimo Simson; Hendrik Voll; Jarek Kurnitski

doi:10.1007/978-3-030-31459-0_9

Electric Lighting Predictions in the Energy Calculation Methods

Francesco De Luca^*
, Raimo Simson
, Hendrik Voll
, Jarek Kurnitski

^*Corresponding author for this work

Tallinn University of Technology

Research output: Chapter in Book/Report/Conference proceeding › Conference article in proceedings › Scientific › peer-review

1 Citation (Web of Science)

Abstract

Electric lighting is one of the major factors for energy consumption of buildings. The European Directive 2010/31/EU states that from 31 December 2020 all new buildings will have to be nearly-Zero Energy Buildings, thus improving electric lighting energy performance is a key issue. The article presents a study and energy figures of power density and electric lighting annual consumptions for different types of buildings, office, commercial and educational, in the northern European country Estonia with the scope to quantify energy savings when using different types of high-efficiency luminaires, occupancy and dimming controls, lighting groups, and daylight contribution. The study has been conducted in relation to the energy performance regulation for new buildings in Estonia. The scope is to develop methods for electric lighting and daylight calculations to be used in compliance assessment with energy requirements. Using different validated software for electric light and daylight simulations the study analyzes three cases for office buildings, single office, open office and meeting room, and one case for both commercial and educational buildings. Results show that average installed power density can be as low as 3.17 W/m(2) for office rooms, 3.22 W/m(2) for commercial buildings and 2.09 W/m(2) for classrooms. The reduction of energy consumption comparing tabulated values can be up 93.3% for office rooms. Also for commercial and educational buildings energy saving are consistent, up to 72.2% and 87.2% respectively. The article presents as well electric light and daylight model specifications and parameters and the different control settings and relative performance.

Original language	English
Title of host publication	IMPROVING ENERGY EFFICIENCY IN COMMERCIAL BUILDINGS AND SMART COMMUNITIES
Editors	P Bertoldi
Publisher	Springer
Chapter	9
Pages	123-141
Number of pages	19
ISBN (Electronic)	978-3-030-31459-0
ISBN (Print)	978-3-030-31458-3
DOIs	https://doi.org/10.1007/978-3-030-31459-0_9
Publication status	Published - 2020
MoE publication type	A4 Conference publication
Event	International Conference on Improving Energy Efficiency in Commercial Buildings and Smart Communities - Frankfurt, Germany Duration: 21 Mar 2018 → 22 Mar 2018 Conference number: 10

Publication series

Name	Springer Proceedings in Energy
Publisher	SPRINGER INTERNATIONAL PUBLISHING AG
ISSN (Print)	2352-2534

Conference

Conference	International Conference on Improving Energy Efficiency in Commercial Buildings and Smart Communities
Abbreviated title	IEECB and SC
Country/Territory	Germany
City	Frankfurt
Period	21/03/2018 → 22/03/2018

Funding

The research has been supported by the Estonian Centre of Excellence in Zero Energy and Resource Efficient Smart Buildings and Districts, ZEBE, grant 2014-2020.4.01.15-0016 funded by the European Regional Development Fund, under Institutional research funding grant IUT1-15 and by the Estonian Research Council with Personal research funding grant PUT-652.

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 7 Affordable and Clean Energy

Keywords

DAYLIGHT
EVOLUTION
Energy saving
Nearly-zero energy buildings
Electric lighting
Daylight simulations
Energy calculation

Access to Document

10.1007/978-3-030-31459-0_9

Cite this

@inproceedings{01b5a1b3cd2b40cbbc6e7d192996d861,

title = "Electric Lighting Predictions in the Energy Calculation Methods",

abstract = "Electric lighting is one of the major factors for energy consumption of buildings. The European Directive 2010/31/EU states that from 31 December 2020 all new buildings will have to be nearly-Zero Energy Buildings, thus improving electric lighting energy performance is a key issue. The article presents a study and energy figures of power density and electric lighting annual consumptions for different types of buildings, office, commercial and educational, in the northern European country Estonia with the scope to quantify energy savings when using different types of high-efficiency luminaires, occupancy and dimming controls, lighting groups, and daylight contribution. The study has been conducted in relation to the energy performance regulation for new buildings in Estonia. The scope is to develop methods for electric lighting and daylight calculations to be used in compliance assessment with energy requirements. Using different validated software for electric light and daylight simulations the study analyzes three cases for office buildings, single office, open office and meeting room, and one case for both commercial and educational buildings. Results show that average installed power density can be as low as 3.17 W/m(2) for office rooms, 3.22 W/m(2) for commercial buildings and 2.09 W/m(2) for classrooms. The reduction of energy consumption comparing tabulated values can be up 93.3\% for office rooms. Also for commercial and educational buildings energy saving are consistent, up to 72.2\% and 87.2\% respectively. The article presents as well electric light and daylight model specifications and parameters and the different control settings and relative performance.",

keywords = "DAYLIGHT, EVOLUTION, Energy saving, Nearly-zero energy buildings, Electric lighting, Daylight simulations, Energy calculation",

author = "\{De Luca\}, Francesco and Raimo Simson and Hendrik Voll and Jarek Kurnitski",

year = "2020",

doi = "10.1007/978-3-030-31459-0\_9",

language = "English",

isbn = "978-3-030-31458-3",

series = "Springer Proceedings in Energy",

publisher = "Springer",

pages = "123--141",

editor = "P Bertoldi",

booktitle = "IMPROVING ENERGY EFFICIENCY IN COMMERCIAL BUILDINGS AND SMART COMMUNITIES",

address = "Germany",

note = "International Conference on Improving Energy Efficiency in Commercial Buildings and Smart Communities , IEECB and SC ; Conference date: 21-03-2018 Through 22-03-2018",

}

De Luca, F, Simson, R, Voll, H & Kurnitski, J 2020, Electric Lighting Predictions in the Energy Calculation Methods. in P Bertoldi (ed.), IMPROVING ENERGY EFFICIENCY IN COMMERCIAL BUILDINGS AND SMART COMMUNITIES. Springer Proceedings in Energy, Springer, pp. 123-141, International Conference on Improving Energy Efficiency in Commercial Buildings and Smart Communities , Frankfurt, Hesse, Germany, 21/03/2018. https://doi.org/10.1007/978-3-030-31459-0_9

Electric Lighting Predictions in the Energy Calculation Methods. / De Luca, Francesco; Simson, Raimo; Voll, Hendrik et al.
IMPROVING ENERGY EFFICIENCY IN COMMERCIAL BUILDINGS AND SMART COMMUNITIES. ed. / P Bertoldi. Springer, 2020. p. 123-141 (Springer Proceedings in Energy).

Research output: Chapter in Book/Report/Conference proceeding › Conference article in proceedings › Scientific › peer-review

TY - GEN

T1 - Electric Lighting Predictions in the Energy Calculation Methods

AU - De Luca, Francesco

AU - Simson, Raimo

AU - Voll, Hendrik

AU - Kurnitski, Jarek

N1 - Conference code: 10

PY - 2020

Y1 - 2020

N2 - Electric lighting is one of the major factors for energy consumption of buildings. The European Directive 2010/31/EU states that from 31 December 2020 all new buildings will have to be nearly-Zero Energy Buildings, thus improving electric lighting energy performance is a key issue. The article presents a study and energy figures of power density and electric lighting annual consumptions for different types of buildings, office, commercial and educational, in the northern European country Estonia with the scope to quantify energy savings when using different types of high-efficiency luminaires, occupancy and dimming controls, lighting groups, and daylight contribution. The study has been conducted in relation to the energy performance regulation for new buildings in Estonia. The scope is to develop methods for electric lighting and daylight calculations to be used in compliance assessment with energy requirements. Using different validated software for electric light and daylight simulations the study analyzes three cases for office buildings, single office, open office and meeting room, and one case for both commercial and educational buildings. Results show that average installed power density can be as low as 3.17 W/m(2) for office rooms, 3.22 W/m(2) for commercial buildings and 2.09 W/m(2) for classrooms. The reduction of energy consumption comparing tabulated values can be up 93.3% for office rooms. Also for commercial and educational buildings energy saving are consistent, up to 72.2% and 87.2% respectively. The article presents as well electric light and daylight model specifications and parameters and the different control settings and relative performance.

AB - Electric lighting is one of the major factors for energy consumption of buildings. The European Directive 2010/31/EU states that from 31 December 2020 all new buildings will have to be nearly-Zero Energy Buildings, thus improving electric lighting energy performance is a key issue. The article presents a study and energy figures of power density and electric lighting annual consumptions for different types of buildings, office, commercial and educational, in the northern European country Estonia with the scope to quantify energy savings when using different types of high-efficiency luminaires, occupancy and dimming controls, lighting groups, and daylight contribution. The study has been conducted in relation to the energy performance regulation for new buildings in Estonia. The scope is to develop methods for electric lighting and daylight calculations to be used in compliance assessment with energy requirements. Using different validated software for electric light and daylight simulations the study analyzes three cases for office buildings, single office, open office and meeting room, and one case for both commercial and educational buildings. Results show that average installed power density can be as low as 3.17 W/m(2) for office rooms, 3.22 W/m(2) for commercial buildings and 2.09 W/m(2) for classrooms. The reduction of energy consumption comparing tabulated values can be up 93.3% for office rooms. Also for commercial and educational buildings energy saving are consistent, up to 72.2% and 87.2% respectively. The article presents as well electric light and daylight model specifications and parameters and the different control settings and relative performance.

KW - DAYLIGHT

KW - EVOLUTION

KW - Energy saving

KW - Nearly-zero energy buildings

KW - Electric lighting

KW - Daylight simulations

KW - Energy calculation

U2 - 10.1007/978-3-030-31459-0_9

DO - 10.1007/978-3-030-31459-0_9

M3 - Conference article in proceedings

SN - 978-3-030-31458-3

T3 - Springer Proceedings in Energy

SP - 123

EP - 141

BT - IMPROVING ENERGY EFFICIENCY IN COMMERCIAL BUILDINGS AND SMART COMMUNITIES

A2 - Bertoldi, P

PB - Springer

T2 - International Conference on Improving Energy Efficiency in Commercial Buildings and Smart Communities

Y2 - 21 March 2018 through 22 March 2018

ER -

Electric Lighting Predictions in the Energy Calculation Methods

Abstract

Publication series

Conference

Funding

UN SDGs

Keywords

Access to Document

Fingerprint

Cite this