cdmAmsIIh implements the Clean Development Mechanism (CDM) small-scale methodology AMS-II.H Energy efficiency via centralization of utility provisions. The package follows tidyverse design principles and exposes equation-level helpers, applicability checks, and simulation tools to reproduce emission reduction estimates for industrial facilities that consolidate steam, hot water, or chilled water production.
# install.packages("devtools")
devtools::install_github("independent-impact/GHG_methodologies/cdmAmsIIh")
library(cdmAmsIIh)
inputs <- simulate_ams_iih_inputs(n_facilities = 2, seed = 123)
applicable <- all(
check_applicability_centralization_scope_iih(
baseline_summary = tibble::tibble(
utility_service = c("steam", "hot_water"),
baseline_unit_count = c(4, 3)
),
project_summary = tibble::tibble(
utility_service = c("steam", "hot_water"),
project_unit_count = c(1, 1)
)
),
check_applicability_monitoring_iih(dplyr::bind_cols(inputs$baseline_data, inputs$project_data)),
check_applicability_efficiency_improvement_iih(
baseline_data = inputs$baseline_data,
project_data = inputs$project_data,
group_cols = "facility",
minimum_improvement = 0.05
)
)
if (applicable) {
reductions <- estimate_emission_reductions_ams_iih(
baseline_data = inputs$baseline_data,
project_data = inputs$project_data,
leakage_data = inputs$leakage_data,
group_cols = "facility"
)
print(reductions)
}For a full walk-through see the vignette in vignettes/cdmAmsIIh-methodology.Rmd.
Projects must satisfy core AMS-II.H requirements before emission reductions can be claimed. Use the package helpers to document each criterion:
check_applicability_centralization_scope_iih() – confirms that decentralized utilities are consolidated into a central plant and that the number of generating units decreases.check_applicability_monitoring_iih() – verifies that the monitoring dataset contains the required baseline and project parameters without missing values.check_applicability_efficiency_improvement_iih() – confirms the centralized system delivers the minimum efficiency gain relative to the baseline.cdmAmsIIh translates the numbered equations from AMS-II.H into composable R functions:
| Equation | Function | Description |
|---|---|---|
| (1) | calculate_baseline_decentralized_emissions_iih() |
Multiplies baseline fuel use by emission factors and reports optional specific energy diagnostics. |
| (2) | calculate_project_central_emissions_iih() |
Computes emissions from the centralized utility plant and optional project specific energy. |
| (3) | calculate_project_auxiliary_electricity_iih() |
Converts auxiliary electricity into emissions using grid emission factors. |
| (4) | calculate_emission_reductions_iih() |
Derives emission reductions after subtracting project and leakage emissions. |
The meta-wrapper estimate_emission_reductions_ams_iih() chains these helpers together for tidyverse-friendly datasets.
simulate_ams_iih_inputs() generates example baseline, project, and leakage datasets to support tests, demos, and onboarding.