Feedstock characterization

Project Developers shall submit a Feedstock Characterization Report for each spreading event, that includes the applicable information outlined in the following sections: a qualitative , , , and the .

Feedstock description

Project Developers shall provide a comprehensive qualitative description of the feedstock once for each (in addition to the quantitative described below). This description shall include:

source of the feedstock (GPS coordinates, name of the quarry/mine/site)
partner companies extracting the feedstock
additional processing steps undertaken by the project
general mineralogic composition and heterogeneity (see section for detailed composition)
any jurisdictional regulations around rock spreading frequency, amount and mineral content (e.g. fertilizer guidelines)
waste status
- if it is waste, describe its alternative use. This informs the creation of the , to determine whether to include baseline CDR from feedstock storage.

Feedstock measurements

Project Developers shall measure the following characteristics of feedstock described in Tables 1 and 2 on a composite representative sample once for each. The exception is moisture content, which must be measured just before each spreading event.

It is assumed that all feedstock within one feedstock batch has the same characteristics, and does not need to be sampled for each spreading event, as long as feedstock is stored in covered areas protected from moisture.

If exposed to moisture, weathering may occur, altering its previously measured characteristics. In this case, the feedstock stored uncovered shall be considered a new feedstock batch.

Table 1 List of measurements to perform on feedstock to determine CDR potential.

Characteristic

Description

Chemical composition

Concentration of calcium (Ca), magnesium (Mg), potassium (K), sodium (Na), sulfur (S), phosphorus (P), aluminum (Al), silicon (Si), and iron (Fe)

Mineralogical composition

proportion of the different crystalline minerals and (assumed) amorphous phases
for silicate feedstocks: amount of carbonate minerals

Particle size distribution and morphology

measure particles with a diameter of greater than 2.0 mm to those with a diameter of 2.5 µm or less

Moisture content

gravimetric water content*

*to be measured from samples taken immediately prior to spreading feedstock

CDR Estimates

Using the CDR measurements described above, and site-specific considerations, Project Developers shall provide the following for ex-ante project validation and for each spreading event:

Maximum potential CDR of applied feedstock shall be calculated based on the modified Steinor equation, shown below ().

Feedstock Sampling Protocol

In the Feedstock Characterization Report, Project Developers shall describe and justify the following, considering feedstock heterogeneity and site-specific factors:

sampling frequency
how to ensure representative sampling
number of subsamples to combine into a composite sample
sample collection and handling methods

For example, if a Project Developer receives one feedstock batch of 1,000 tonnes of waste mine tailing rock from a single feedstock source, and spreads 400 tonnes at at Farm A and 400 tonnes at Farm B in Year 1, they shall submit one Feedstock Characterization Report with:

one comprehensive qualitative description
one set of feedstock measurements
one calculation of CDR estimates
one description of the feedstock sampling protocol

If they receive another 500 tonnes of rock from the same source 2 months later, it is considered a new feedstock batch. If it is spread at Farm A, then all components listed above must be updated and a separate Feedstock Characterization Report submitted.

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Feedstock description

Project Developers shall provide a comprehensive qualitative description of the feedstock once for each (in addition to the quantitative described below). This description shall include:

source of the feedstock (GPS coordinates, name of the quarry/mine/site)

partner companies extracting the feedstock

additional processing steps undertaken by the project

general mineralogic composition and heterogeneity (see section for detailed composition)

any jurisdictional regulations around rock spreading frequency, amount and mineral content (e.g. fertilizer guidelines)

waste status

if it is waste, describe its alternative use. This informs the creation of the , to determine whether to include baseline CDR from feedstock storage.

Feedstock measurements

If exposed to moisture, weathering may occur, altering its previously measured characteristics. In this case, the feedstock stored uncovered shall be considered a new feedstock batch.

Table 1 List of measurements to perform on feedstock to determine CDR potential.

Characteristic

Description

Chemical composition

Concentration of calcium (Ca), magnesium (Mg), potassium (K), sodium (Na), sulfur (S), phosphorus (P), aluminum (Al), silicon (Si), and iron (Fe)

Mineralogical composition

proportion of the different crystalline minerals and (assumed) amorphous phases
for silicate feedstocks: amount of carbonate minerals

Particle size distribution and morphology

measure particles with a diameter of greater than 2.0 mm to those with a diameter of 2.5 µm or less

Moisture content

gravimetric water content*

*to be measured from samples taken immediately prior to spreading feedstock

CDR Estimates

Using the CDR measurements described above, and site-specific considerations, Project Developers shall provide the following for ex-ante project validation and for each spreading event:

Maximum potential CDR of applied feedstock shall be calculated based on the modified Steinor equation, shown below ().

$\textbf{(Eq.1)}\ E_{pot} = \frac{M_{CO_2}}{100} \times \left( \alpha \frac{CaO}{M_{CaO}} + \beta \frac{MgO}{M_{MgO}} + \varepsilon \frac{Na_2O}{M_{Na_2O}} + \theta \frac{K_2O}{M_{K_2O}} + \gamma \frac{SO_3}{M_{SO_3}} + \delta \frac{P_2O_5}{M_{P_2O_5}} \right) \times 10^3 \times \eta$

$E_{pot}$ represents the maximum CDR potential of a feedstock
$CaO, MgO, SO_3, P_2O_5, Na_2O$ and $K_2O$ represent the elemental concentrations in the form of oxides
$M_x$ denotes the molecular mass of each respective oxide $x$
$\alpha, \beta, \gamma, \delta, \varepsilon, \text{ and } \theta$ represent the relative contributions of each oxide. According to , $\alpha, \beta, \varepsilon, \text{ and } \theta$ are equal to -1; $\gamma$ equals -1; and $\delta$ equals -2.
$\eta$ represents the molar ratio of CO $_2$ sequestered per divalent cation present in the feedstock. As a default, this may be assumed to be 0.85. See the section for more details.

Feedstock Sampling Protocol

In the Feedstock Characterization Report, Project Developers shall describe and justify the following, considering feedstock heterogeneity and site-specific factors:

sampling frequency

how to ensure representative sampling

number of subsamples to combine into a composite sample

total amount of sampled material needed to conduct all and obtain precise results

sample collection and handling methods

one comprehensive qualitative description
one set of feedstock measurements
one calculation of CDR estimates
one description of the feedstock sampling protocol

If they store the remaining 200 tonnes of rock from the first delivery for one year, in a covered protected area, and in Year 2 spread the additional 200 tonnes at Farm A, then they only need to update the CDR estimate calculations. The other components remain valid for the new spreading event. See the section.