r2dii.analysis

Lifecycle: maturing Codecov test coverage R-CMD-check

These tools help you to assess if a financial portfolio aligns with climate goals. They summarize key metrics attributed to the portfolio (e.g. production, emission factors), and calculate targets based on climate scenarios. They implement in R the last step of the free software ‘PACTA’ (Paris Agreement Capital Transition Assessment; https://www.transitionmonitor.com/). Financial institutions use ‘PACTA’ to study how their capital allocation impacts the climate.

Installation

Install the released version of r2dii.analysis from CRAN with:

install.packages("r2dii.analysis")

Or install the development version of r2dii.analysis from GitHub with:

# install.packages("pak")
pak::pak("RMI-PACTA/r2dii.analysis")

Example

library(r2dii.data)
library(r2dii.match)
library(r2dii.analysis)
matched <- match_name(loanbook_demo, abcd_demo) %>%
  prioritize()

Add Scenario Targets

matched %>%
  target_sda(
    abcd = abcd_demo,
    co2_intensity_scenario = co2_intensity_scenario_demo,
    region_isos = region_isos_demo
  )
#> Warning: Removing rows in abcd where `emission_factor` is NA
#> # A tibble: 220 × 6
#>    sector  year region             scenario_source emission_factor_metric
#>    <chr>  <dbl> <chr>              <chr>           <chr>                 
#>  1 cement  2020 advanced economies demo_2020       projected             
#>  2 cement  2020 developing asia    demo_2020       projected             
#>  3 cement  2020 global             demo_2020       projected             
#>  4 cement  2021 advanced economies demo_2020       projected             
#>  5 cement  2021 developing asia    demo_2020       projected             
#>  6 cement  2021 global             demo_2020       projected             
#>  7 cement  2022 advanced economies demo_2020       projected             
#>  8 cement  2022 developing asia    demo_2020       projected             
#>  9 cement  2022 global             demo_2020       projected             
#> 10 cement  2023 advanced economies demo_2020       projected             
#> # ℹ 210 more rows
#> # ℹ 1 more variable: emission_factor_value <dbl>
matched %>%
  target_market_share(
    abcd = abcd_demo,
    scenario = scenario_demo_2020,
    region_isos = region_isos_demo
  )
#> # A tibble: 1,076 × 10
#>    sector     technology  year region scenario_source metric     production
#>    <chr>      <chr>      <int> <chr>  <chr>           <chr>           <dbl>
#>  1 automotive electric    2020 global demo_2020       projected     145649.
#>  2 automotive electric    2020 global demo_2020       target_cps    145649.
#>  3 automotive electric    2020 global demo_2020       target_sds    145649.
#>  4 automotive electric    2020 global demo_2020       target_sps    145649.
#>  5 automotive electric    2021 global demo_2020       projected     147480.
#>  6 automotive electric    2021 global demo_2020       target_cps    146915.
#>  7 automotive electric    2021 global demo_2020       target_sds    153332.
#>  8 automotive electric    2021 global demo_2020       target_sps    147258.
#>  9 automotive electric    2022 global demo_2020       projected     149310.
#> 10 automotive electric    2022 global demo_2020       target_cps    148155.
#> # ℹ 1,066 more rows
#> # ℹ 3 more variables: technology_share <dbl>, scope <chr>,
#> #   percentage_of_initial_production_by_scope <dbl>
matched %>%
  target_market_share(
    abcd = abcd_demo,
    scenario = scenario_demo_2020,
    region_isos = region_isos_demo,
    by_company = TRUE
  )
#> Warning: You've supplied `by_company = TRUE` and `weight_production = TRUE`.
#> This will result in company-level results, weighted by the portfolio
#> loan size, which is rarely useful. Did you mean to set one of these
#> arguments to `FALSE`?
#> # A tibble: 14,505 × 11
#>    sector    technology  year region scenario_source name_abcd metric production
#>    <chr>     <chr>      <int> <chr>  <chr>           <chr>     <chr>       <dbl>
#>  1 automoti… electric    2020 global demo_2020       Bernardi… proje…     17951.
#>  2 automoti… electric    2020 global demo_2020       Bernardi… targe…     17951.
#>  3 automoti… electric    2020 global demo_2020       Bernardi… targe…     17951.
#>  4 automoti… electric    2020 global demo_2020       Bernardi… targe…     17951.
#>  5 automoti… electric    2020 global demo_2020       Christia… proje…     11471.
#>  6 automoti… electric    2020 global demo_2020       Christia… targe…     11471.
#>  7 automoti… electric    2020 global demo_2020       Christia… targe…     11471.
#>  8 automoti… electric    2020 global demo_2020       Christia… targe…     11471.
#>  9 automoti… electric    2020 global demo_2020       Donati, … proje…      5611.
#> 10 automoti… electric    2020 global demo_2020       Donati, … targe…      5611.
#> # ℹ 14,495 more rows
#> # ℹ 3 more variables: technology_share <dbl>, scope <chr>,
#> #   percentage_of_initial_production_by_scope <dbl>

Utility Functions

The target_*() functions provide shortcuts for common operations. They wrap some utility functions that you may also use directly:

loanbook_joined_to_abcd_scenario <- matched %>%
  join_abcd_scenario(
    abcd = abcd_demo,
    scenario = scenario_demo_2020,
    region_isos = region_isos_demo
  )
# portfolio level
loanbook_joined_to_abcd_scenario %>%
  summarize_weighted_production(scenario, tmsr, smsp, region)
#> # A tibble: 756 × 9
#>    sector_abcd technology  year scenario  tmsr    smsp region
#>    <chr>       <chr>      <int> <chr>    <dbl>   <dbl> <chr> 
#>  1 automotive  electric    2020 cps       1    0       global
#>  2 automotive  electric    2020 sds       1    0       global
#>  3 automotive  electric    2020 sps       1    0       global
#>  4 automotive  electric    2021 cps       1.12 0.00108 global
#>  5 automotive  electric    2021 sds       1.16 0.00653 global
#>  6 automotive  electric    2021 sps       1.14 0.00137 global
#>  7 automotive  electric    2022 cps       1.24 0.00213 global
#>  8 automotive  electric    2022 sds       1.32 0.0131  global
#>  9 automotive  electric    2022 sps       1.29 0.00273 global
#> 10 automotive  electric    2023 cps       1.35 0.00316 global
#> # ℹ 746 more rows
#> # ℹ 2 more variables: weighted_production <dbl>,
#> #   weighted_technology_share <dbl>

# company level
loanbook_joined_to_abcd_scenario %>%
  summarize_weighted_production(scenario, tmsr, smsp, region, name_abcd)
#> # A tibble: 13,023 × 10
#>    sector_abcd technology  year scenario  tmsr  smsp region name_abcd           
#>    <chr>       <chr>      <int> <chr>    <dbl> <dbl> <chr>  <chr>               
#>  1 automotive  electric    2020 cps          1     0 global Bernardi, Bernardi …
#>  2 automotive  electric    2020 cps          1     0 global Christiansen PLC    
#>  3 automotive  electric    2020 cps          1     0 global Donati, Donati e Do…
#>  4 automotive  electric    2020 cps          1     0 global DuBuque-DuBuque     
#>  5 automotive  electric    2020 cps          1     0 global Ferrari-Ferrari SPA 
#>  6 automotive  electric    2020 cps          1     0 global Ferry and Sons      
#>  7 automotive  electric    2020 cps          1     0 global Goyette-Goyette     
#>  8 automotive  electric    2020 cps          1     0 global Guerra, Guerra e Gu…
#>  9 automotive  electric    2020 cps          1     0 global Gutkowski, Gutkowsk…
#> 10 automotive  electric    2020 cps          1     0 global Hilpert, Hilpert an…
#> # ℹ 13,013 more rows
#> # ℹ 2 more variables: weighted_production <dbl>,
#> #   weighted_technology_share <dbl>

Get started.

Funding

This project has received funding from the European Union LIFE program and the International Climate Initiative (IKI). The Federal Ministry for the Environment, Nature Conservation and Nuclear Safety (BMU) supports this initiative on the basis of a decision adopted by the German Bundestag. The views expressed are the sole responsibility of the authors and do not necessarily reflect the views of the funders. The funders are not responsible for any use that may be made of the information it contains.