Carbon Credit Parameters: Dynamic Carbon Credits

Name: Dynamic Carbon Credits
Hash: 0x2b92e95b401edd06cc5b49983a0fd55c802c6120
Token: T-CC.DCC6891
InsCoverage: None
RatingProvider: N/A
RatingScore: N/A
Auditor/Verifier: Available under NDA
Asset Description:
Dynamic Carbon Credits (DCC) is pioneering large-scale carbon removal through a proprietary Direct Air Capture process t...
Dynamic Carbon Credits (DCC) is pioneering large-scale carbon removal through a proprietary Direct Air Capture process that utilizes nature-based solutions. The company holds land rights to over 1,000,000 acres in the United States, which are dedicated to growing highly efficient, carbon-absorbing crops. These crops capture atmospheric CO₂ at a rate significantly higher than trees—up to eight times more. After harvesting, the biomass is processed to permanently sequester the captured CO₂, enabling the generation of verified carbon credits. These credits are registered and tracked via ISO-certified blockchain technology, ensuring transparency and traceability from capture to credit retirement. The system meets or exceeds EPA standards and qualifies for the IRS 45Q $180/ton incentive, further enhancing economic and environmental value. DCC’s approach addresses climate change by removing CO₂ at scale, offering a net-negative emissions solution that aligns with both corporate sustainability goals and national decarbonization targets.
Minting Day: 09/19/2025 15:32:41
IssuedQ: 2,998,414.0000
BufferQ: 449,762.1000
OpenQ: 2,998,414.0000
RetiredQ: 0.0000
MintPX:
Deal Description:
The Dynamic Carbon Credits Project is designed to generate measurable and verifiable greenhouse gas (GHG) removals by de...
The Dynamic Carbon Credits Project is designed to generate measurable and verifiable greenhouse gas (GHG) removals by deploying a combination of nature-based and engineered carbon removal activities across up to 1,000,000 acres of secured land rights in the United States. The project integrates high-biomass perennial crop cultivation, soil carbon enhancement, phytoremediation of degraded lands.

Primary project activities include:
a) High-Biomass Crop Cultivation for Carbon Sequestration
- Establishment of high-biomass, fast-growing perennial species capable of rapid CO₂ uptake.
- Harvesting of above-ground biomass for processing into long-lived carbon storage products (e.g. biochar, durable composites).
- Retention of root biomass in situ to build soil organic carbon (SOC) levels over time.
b) Phytoremediation and Land Restoration
- Utilization of plant species with deep rooting systems to remediate contaminated soils and restore degraded lands.
- Improvement of soil health, biodiversity, and water retention to enhance long-term sequestration potential.
c) Integration of Direct Air Capture (DAC) Plant and Biochar Technology
- Permanent storage of captured CO₂, CH4, and N2O via geological sequestration or incorporation into durable biochar carbon-containing materials.
d) Advanced Monitoring, Reporting, and Third-Party Verification (MRV)
- Deployment of IoT-enabled sensors to track biomass growth, soil organic carbon (SOC) changes, and DAC performance.
- Blockchain-enabled registry for transparent, immutable tracking of carbon credit issuance.
- Annual verification by accredited VVB (e.g., Enviance Services)
-ISO 14040-14044 LCA updates every 5 years
-Continuous improvement based on monitoring data
-Transparent reporting through project registry

We currently have 2,988,422 tons of credit inventory from 2019-2024. For 2025 forward credits we have capacity for 1,145,736,721.00 tons.
Sustainable Development Goals (SDGs):
Data room:
Triangle Registry Params Value
Instrument Category
Carbon Credit...
Carbon Credit
Instrument Type
Nature-based - Removal...
Nature-based - Removal
Carbon Credit Frequency
Recurring...
Recurring
Source Of This Asset
External registry...
External registry
Contract Type
As Produced...
As Produced
Carbon Credit Registry
Northern Trust - Custodian...
Northern Trust - Custodian
Carbon Credit Protocol / Methodology Name
VM0044 Biochar Utilization in Soil and Non-Soil Applications AND v1.2 and VM0042 Improved Agricultural Land Management, v2.1 ...
VM0044 Biochar Utilization in Soil and Non-Soil Applications AND v1.2 and VM0042 Improved Agricultural Land Management, v2.1
Tag Name
The VM0044 methodology quantifies the carbon dioxide removals resulting from the conversion of waste biomass into biochar at new biochar production facilities. Eligible soil and non-soil applications ...
The VM0044 methodology quantifies the carbon dioxide removals resulting from the conversion of waste biomass into biochar at new biochar production facilities. Eligible soil and non-soil applications include crop and grasslands, and emerging products such as biochar-amended concrete and building materials. This methodology is applicable globally.

The project also applies the Verra VCS VM0042 Improved Agricultural Land Management, v2.1 protocol for additional CO2 reductions. This methodology quantifies the greenhouse gas (GHG) emission reductions and soil organic carbon (SOC) removals resulting from the adoption of improved agricultural land management (ALM) practices. Such practices include, but are not limited to, reduced tillage and improvements in fertilizer application, biomass residue and water management, cash and cover crop planting and harvesting practices, and grazing practices.
Carbon Credit Protocol / Methodology #
VM0044 ...
VM0044
Carbon Credit Protocol / Methodology ID
71B124F2E510862F946EA4039A10662D...
71B124F2E510862F946EA4039A10662D
Carbon Credit Calculation Parameters Description
The Dynamic Carbon Credits (DCC) project deploys a proprietary, multi-pathway biological Direct Air Capture (DAC) system that integrates advanced biotechnology, microbial soil enhancement, and biocha...
The Dynamic Carbon Credits (DCC) project deploys a proprietary, multi-pathway biological Direct Air Capture (DAC) system that integrates advanced biotechnology, microbial soil
enhancement, and biochar-based carbon storage. The base formula is: Total C sequestration = Direct Plant Sequestration + Biochar C + Bacterial Enhancement + GHG Reductions.
Carbon Credit Calculation Parameters (Formula)
DCC uses IPCC international panel of climate change, 2021 AR6 version. This converts CH4 Methane to eCO2 mTonnes at a 29.8:1 ratio and N2O to eCO2 mTonnes at 273:1 ratio as stated in the Life Cycle An...
DCC uses IPCC international panel of climate change, 2021 AR6 version. This converts CH4 Methane to eCO2 mTonnes at a 29.8:1 ratio and N2O to eCO2 mTonnes at 273:1 ratio as stated in the Life Cycle Analysis verified by Dr. Majid Hussain and VVB from Enviance.
Is There Environmental Product Declaration
None...
None
Regulated Asset Registry
Triangle...
Triangle
Regulated Asset Registry ID
EE46393C61465A88BD6AD4765077781C...
EE46393C61465A88BD6AD4765077781C
Scheduled Production/Year - Approved By D-MRV
2,998,414.0000...
2,998,414.0000
Buffer Supply % Or QTY
%...
%
Buffer Supply
15...
15
Asset Name
Dynamic Carbon Credits...
Dynamic Carbon Credits
Carbon Credit Campaign Status
Live...
Live
Asset Financed
None...
None
Baseline Emissions Measurement Cycle
Daily measurements taken using a sample probe during the 16-20 week growing cycle...
Daily measurements taken using a sample probe during the 16-20 week growing cycle
Baseline Emissions Parameters Per Measurement Site
(3) Emission: CO2, CH4, NOx (4) Non-Emissions measured in the soil: Moisture, PH (acidity), Root Activity, Temperature...
(3) Emission: CO2, CH4, NOx (4) Non-Emissions measured in the soil: Moisture, PH (acidity), Root Activity, Temperature
Baseline Emissions Formula Per Measurement Site
Tons CO2, CH4, NOx (then CH4 is converted to equivalent metric tonnes COs aka eCO2 at a 29.8:1 ratio, N2O is converted to equivalent metric tonnes CO2 aka eCO2 at a 273:1 ratio) per IPCC Int'l Panel C...
Tons CO2, CH4, NOx (then CH4 is converted to equivalent metric tonnes COs aka eCO2 at a 29.8:1 ratio, N2O is converted to equivalent metric tonnes CO2 aka eCO2 at a 273:1 ratio) per IPCC Int'l Panel Climate Change ARC in 2021CY
Number Of Measurement Sites
Bannister Township, MI (361 acres)...
Bannister Township, MI (361 acres)
Total Baseline Emissions For Project (Sum Of All Sites)
2,988,442.0000...
2,988,442.0000
Associated Parameter - Efficiency Of The Project Device
The associated measurement parameters in the Dynamic Carbon Credits project are structured to ensure accuracy, transparency, and verifiability of carbon removals across soil, biomass, and atmospheric ...
The associated measurement parameters in the Dynamic Carbon Credits project are structured to ensure accuracy, transparency, and verifiability of carbon removals across soil, biomass, and atmospheric monitoring systems. Parameters include soil organic carbon (SOC) levels measured annually to 60 ft depth via dry combustion; GHG fluxes (CO₂, CH₄, N₂O) monitored weekly during the growing season using Picarro G2508 analyzers; and biomass yield measured per harvest through calibrated scales and laboratory-verified carbon content (47% of dry mass). Biochar application is recorded twice per cycle with weight tickets, while daily soil conditions (temperature, moisture, pH) are captured via IoT sensors. Supporting factors such as biochar carbon content (70–80%), stability (85%), bacterial enhancement rate (90 tCO₂e/acre/lifecycle), and baseline SOC (1.2% ±0.15%) are validated through ISO-accredited laboratories. These parameters collectively underpin the project’s MRV framework, ensuring robust credit issuance and third-party verification
Method Implemented - Kitchen Performance Test (KPT) And Monitoring
The Dynamic Carbon Credits project implements a hybrid carbon removal method that combines nature-based and engineered solutions under ISO 14064 and Verra methodologies. The approach integrates high-b...
The Dynamic Carbon Credits project implements a hybrid carbon removal method that combines nature-based and engineered solutions under ISO 14064 and Verra methodologies. The approach integrates high-biomass perennial crop cultivation to capture atmospheric CO₂, enhanced by a proprietary bacterial soil inoculation that boosts root biomass and stabilizes soil carbon. Harvested biomass is processed into biochar, with an 85% permanence factor, applied twice per growth cycle to lock carbon in soils and improve fertility. Additional removals arise from N₂O and CH₄ emission reductions, quantified through direct flux monitoring. The methodology applies a cradle-to-cradle life cycle boundary covering upstream, midstream, and downstream processes, ensuring leakage prevention, permanence assurance via a 15% buffer pool, and verification through accredited VVB audits. This integrated method enables large-scale, durable carbon sequestration with both immediate and long-term climate benefits
Address1, Address 2, City/Region, State, Zip/Postal Code, Country
United States, MI, St. John, 48616...
United States, MI, St. John, 48616
Longitude - Site Location In Longitude Degrees
43.0011...
43.0011
Latitude - Site Location In Latitude Degrees
84.5592...
84.5592
TimeZone - Refers To The Time Zone In Reference To The GMT Standard
Eastern Standard Time...
Eastern Standard Time
OwnerID / Bank Customer ID
C147C542BC7A97A7A02264A605A1BD24...
C147C542BC7A97A7A02264A605A1BD24
OwnerName / Bank Customer name
Dynamic Carbon Credits LLC...
Dynamic Carbon Credits LLC
Parameter Value Under The Water Boiling Test (WBT) Method - 44%
The Dynamic Carbon Credits project establishes parameter values through validated field trials and accredited laboratory analysis to ensure conservative and reliable crediting. Biochar applied in the ...
The Dynamic Carbon Credits project establishes parameter values through validated field trials and accredited laboratory analysis to ensure conservative and reliable crediting. Biochar applied in the project has a carbon content of 70–80% with a stability factor of 85%, supporting long-term storage. Soil organic carbon (SOC) at baseline is 1.2% ±0.15%, with verified annual increases under project activities. The proprietary bacterial inoculation demonstrates an enhancement rate of 90 tCO₂e per acre per lifecycle, while plant germination rates average 94%. Global Warming Potential (GWP) factors applied include CH₄ at 29.8 and N₂O at 273 (100-year values from IPCC AR6). These parameter values, together with calibrated biomass yields and direct gas flux monitoring, provide the quantifiable basis for calculating net removals and issuing verified carbon units (VCUs)
Project Developer
Dynamic Carbon Credits LLC...
Dynamic Carbon Credits LLC
Project Developer ID
C147C542BC7A97A7A02264A605A1BD24...
C147C542BC7A97A7A02264A605A1BD24
Project Status
Completed...
Completed
Auditor/Verifier Attestations
Following a thorough review of all project information, procedures, calculations based on the results from the LCA report, and supporting documentation, Enviance Services Private Limited verifies that...
Following a thorough review of all project information, procedures, calculations based on the results from the LCA report, and supporting documentation, Enviance Services Private Limited verifies that the Dynamic Carbon Credits quantification procedures asserted by the Project Proponent are precise and align consistently with the ISO requirements. Enviance Services Private Limited further confirms that the carbon sequestration project has been executed in accordance with the submitted project description document submitted for each year for the six-year tenure of 2019 to 2024.
The GHG assertion provided by the Project Proponent and verified by Enviance has resulted in the total carbon sequestration of 2,998,422 tons of Carbon per life cycle during the six-year tenure from 2019 to 2024 as reported below:
Year Area Of Land tons of Carbon per life cycle
2019 355.6 acres 494,728.5
2020 355.6 acres 494,728.5
2021 361 acres 502,241.25
2022 361 acres 502,241.25
2023 361 acres 502,241.25
2024 361 acres 502,241.25
Total 2,998,422.00
An average sequestration rate of 1391.25 tons of carbon per acre per life cycle exists for each year during the six-year tenure of 2019 to 2024.
The DCC proprietary plant demonstrates an innovative carbon sequestration approach, integrating biochar application, soil management, and microbial enhancement.
On behalf of Enviance Services Private Limited
Mr. Pankaj Kumar Mr. Vipul Jain
Project Monitoring
Yes...
Yes
Project Monitor Name
Available under NDA...
Available under NDA
Project Monitor Process Name
Life Cycle Analysis using ISO 14040-14044 Standards...
Life Cycle Analysis using ISO 14040-14044 Standards
Project Monitoring Process ID
7C8C0164A31A248713B060B8720B379A...
7C8C0164A31A248713B060B8720B379A
Project Monitoring Process & Methodology
ISO 14040, 14041, 14042, 14043...
ISO 14040, 14041, 14042, 14043
Monitoring Frequency
Daily...
Daily