Kilian, Lena and Owen, Anne and Newing, Andy and Ivanova, Diana
(2023).
Achieving Emission Reductions without Furthering Social Inequality: Lessons From the 2007 Economic Crisis and the COVID-19 Pandemic, 2001-2020.
[Data Collection]. Colchester, Essex:
UK Data Service.
10.5255/UKDA-SN-856713
Doctoral Training Partnerships: a range of postgraduate training is funded by the Research Councils. For information on current funding routes, see the common terminology at https://www.ukri.org/apply-for-funding/how-we-fund-studentships/. Training grants may be to one organisation or to a consortia of research organisations. This portal will show the lead organisation only.
Data description (abstract)
These data show consumption-based greenhouse gas (GHG) emissions of UK households from 2001-2020. As demographic variables, income decile and age group are attached. Emissions are shown in two different ways. First, emissions are shown for each year individually. Second, emissions are shown as a 2007 equivalent. These second data show the emissions that consumption from the different years would have caused assuming the economic structure and emission coefficients from 2007. Data are reported as a carbon equivalent, meaning that all GHGs are converted into their carbon equivalent. The GHGs included are carbon dioxide, methane, nitrous oxide, hydrofluorocarbons, perfluorocarbons, sulphur hexafluoride and nitrogen trifluoride.
| Data creators: |
|
| Sponsors: |
ESRC, EPSRC, Marie-Curie International Fellowship
|
| Grant reference: |
ES/S50161X/1
|
| Topic classification: |
Economics
Social stratification and groupings
|
| Keywords: |
CLIMATE CHANGE, CARBON DIOXIDE EMISSIONS, HOUSEHOLDS, GREENHOUSE GASES, POLLUTION
|
| Project title: |
Data Analytics and Society CDT Industrial Strategy 2018
|
| Alternative title: |
Research Data: Achieving Emission Reductions without Furthering Social Inequality
|
| Grant holders: |
Lena Kilian, Diana Ivanova, Diana Ivanova
|
| Project dates: |
| From | To |
|---|
| 30 September 2018 | 31 December 2022 |
|
| Date published: |
05 Oct 2023 12:32
|
| Last modified: |
05 Oct 2023 12:33
|
| Temporal coverage: |
| From | To |
|---|
| 1 January 2001 | 31 December 2020 |
|
| Collection period: |
| Date from: | Date to: |
|---|
| 30 September 2018 | 31 December 2022 |
|
| Geographical area: |
United Kingdom |
| Country: |
United Kingdom |
| Data collection method: |
We use secondary data throughout the analysis. Please see the data_collection_methods document for more details. |
| Observation unit: |
Household |
| Kind of data: |
Numeric, Text |
| Type of data: |
International macrodata, Time series data, UK survey data |
| Resource language: |
English |
|
| Data sourcing, processing and preparation: |
Estimating Consumption-based Emissions
Emissions are estimated using household expenditure data and product-based multipliers (in tCO2e/£). To calculate the multipliers, we first need to estimate the total indirect consumption-based emissions from UK households using environmentally-extended multi-regional input-output (EEMRIO) analysis. For this we use the UK’s multi-regional input-output model (UKMRIO). After indirect emissions are estimated, we add direct household emissions to the products associated with fuel burning. Once total household emissions are calculated at a product-level, we can divide these emissions by the total spend of UK households for each product, to generate conversion factors in tCO2e/£. We multiply the conversion factors by household spends from different households. This data comes from the Living Costs and Food Survey (LCFS).
At the time of writing the detailed, household-level LCFS is not yet published. However, versions of the LCFS expenditures and incomes are available via the Office for National Statistics. To estimate 2020 emissions, we therefore use such aggregated LCFS data.
To compare emissions across household types, we weigh the number of people in a household by their household composition. We calculate emissions per single adult person household (SPH) by using the OECD-modified scale, which accounts for the non-proportional relationship between additional household members and income or expenditure. This assigns a weighting of 1 for the first adult, 0.5 for every other adult, and 0.3 for every child.
Longitudinal comparisons
For the longitudinal comparisons we calculate two sets of emission estimates. First, we calculate emissions using the UKMRIO and LCFS from the same year to estimate emissions for each year. Second, we calculate emission estimates using the 2007 multipliers. Using multipliers from the same year allows for a more direct comparison of consumption behaviours and the emissions these would have caused in 2007. To ensure that inflation and price changes over time do not impact our results, we adjust income and expenditure to 2007 values. We do this at a product level using the Consumer Price Inflation tables from the Office for National Statistics.
|
| Rights owners: |
|
| Contact: |
|
| Notes on access: |
The Data Collection is available to any user without the requirement for registration for download/access.
|
| Publisher: |
UK Data Service
|
| Last modified: |
05 Oct 2023 12:33
|
|
Available Files
Data and documentation bundle
Edit item (login required)
 |
Edit Item |
