Nina Lövehagen scite author profile

SummaryThe positive and negative environmental impacts of information and communication technology (ICT) are widely debated. This study assesses the electricity use and greenhouse gas (GHG) emissions related to the ICT and entertainment & media (E&M) sectors at sector level, including end users, and thus complements information on the product level. GHGs are studied in a life cycle perspective, but for electricity use, only the operational use is considered. The study also considers which product groups or processes are major contributors. Using available data and extrapolating existing figures to the global scale for 2007 reveals that the ICT sector produced 1.3% of global GHG emissions in 2007 and the E&M sector 1.7%. The corresponding figures for global electricity use were 3.9% and 3.2%, respectively. The results indicate that for the ICT sector, operation leads to more GHG emissions than manufacture, although impacts from the manufacture of some products are significant. For the E&M sector, operation of TVs and production of printed media are the main reasons for overall GHG emissions. TVs as well as printed media, with the estimations made here, led to more GHG emissions on a global level in 2007 than PCs (manufacture and operation). A sector study of this type provides information on a macro scale, a perspective easily lost when considering, for example, the product-related results of life cycle assessments. The macro scale is essential to capture changes in total consumption and use. However, the potential of the ICT sector to help decrease environmental impacts from other sectors was not included in the assessment.

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Considerations for macro-level studies of ICT´s enablement potential

Malmodin¹,

Bergmark²,

Lövehagen³

et al. 2014

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Abstract-This paper explores how companies and other stakeholders could assess the macro-level enabling potential of Information and Communication Technologies (ICT), in other words, the ability of ICT to reduce the negative sustainability impact of other industry sectors at a society level, and identifies some important considerations for such assessments including impact trends, addressable emissions, boundary setting and ICT solution categories of particular interest. To illustrate the complexity of performing macro-level estimates of ICT's enabling potential, this paper also discusses the 2020 enabling potential proposed by GeSI in their SMARTer2020 report. In addition, it investigates how organizations present GHG emissions reductions in different sectors where such reductions have already been achieved and finds that the claimed GHG emission reductions and energy savings would often need more details on calculations, methodology and background data.

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Electricity Consumption and Operational Carbon Emissions of European Telecom Network Operators

et al. 2022

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This study presents operational electricity consumption and greenhouse gas emissions for named European telecom network operators during 2015–2018. These results are also compared to data for 2010–2015. The study provides an extensive primary data set, collected from European Telecommunication Network Operators (ETNO) members, covering operations in Europe and beyond, providing data with higher granularity than publicly available sources. The collected data set corresponds to roughly 36 percent of European subscriptions and 8 percent of global subscriptions. This data set was used to calculate the aggregated annual electricity consumption for the assessed operators, as well as associated subscription intensities, in total, for Europe and per network type. Moreover, aggregated electricity-related carbon emissions and emissions from other sources were calculated. Finally, estimates were made for the overall network operation in Europe for 2018 and 2020. The study concludes that the electricity consumption and number of subscriptions for the reporting telecom network operators remained nearly constant (+1 percent and −3 percent, respectively) between 2015 and 2018, while data traffic increased by a factor of three. For the extended period of 2010–2018, the electricity consumption per subscription remained quite stable, slightly below 30 kWh/subscription despite substantial data traffic growth (by a factor of 12).

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Methodology for life cycle based assessments of the CO<inf>2</inf> reduction potential of ICT services

Malmodin

Lundén

Lövehagen

2010

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Nina Lövehagen

Smart sustainable cities – Exploring ICT solutions for reduced energy use in cities

Greenhouse Gas Emissions and Operational Electricity Use in the ICT and Entertainment & Media Sectors

Considerations for macro-level studies of ICT´s enablement potential

Electricity Consumption and Operational Carbon Emissions of European Telecom Network Operators

Methodology for life cycle based assessments of the CO<inf>2</inf> reduction potential of ICT services

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