Project Development

At Bynamic Group, we help organizations navigate the complexities of carbon credit project development, ensuring compliance with global standards like Verra and Gold Standard while optimizing financial and environmental impact.

This Carbon Credit Project Development Roadmap provides a structured approach to streamline the process for emission reduction, avoidance, and removal projects, from initial feasibility to credit issuance and trading.

Each project typically progresses through the following key phases:

Phase 1

Initial Project Screening & Planning

Conduct an initial high-level review to determine if the project is a potential candidate for carbon crediting.

Phase 2

Feasibility Study & Carbon Standard Selection

Conduct a detailed feasibility study to confirm project viability and select the most suitable carbon standard.

Phase 3

Stakeholder Engagement & Project Documentation

Secure stakeholder buy-in and prepare necessary documentation for project validation.

Phase 4

Project Validation & Registration

Validate the project with third-party auditors, ensure transparency through public listing and commenting, and secure final registration.

Phase 5

Project Implementation

Execute the project as per the validated plan and ensure proper deployment of technologies or conservation efforts.

Phase 6

Monitoring, Verification, and Credit Issuance

Ensure project implementation aligns with the monitoring plan and get carbon credits issued.

Phase 7

Carbon Credit Trading & Compliance Reporting

Ensure proper carbon credit sales and compliance with regulatory requirements.

With deep expertise in carbon markets, regulatory frameworks, and project validation, we help clients successfully register projects, secure verification, and optimize returns in both voluntary and compliance markets.

Project Types

At Bynamic Group, we work with a diverse portfolio of high-quality carbon credit projects across three core areas. Each project type plays a unique role in reducing or removing carbon emissions, and all are carefully selected for their impact, integrity, and alignment with global climate goals.

Natural Based Projects

Engineered Projects

Avoidance Projects

Natural Based Projects

We support nature-based carbon removal through projects like reforestation, afforestation, and soil carbon sequestration. These efforts deliver long-term climate impact alongside co-benefits like biodiversity, water retention, and rural development, and are fully eligible for carbon offsetting.

CDR

Remove CO₂ from the atmosphere using natural climate solutions.

ARR

Planting new forests (afforestation) or restoring existing ones (reforestation).

Soil Carbon Sequestration

Improving land practices (e.g., no-till, cover cropping, rotational grazing) to enhance soil organic carbon. Soil stores more CO2 over time.

Engineered Projects

Technologically driven methods to remove CO₂ from the atmosphere, often involving industrial processes or scientific enhancements to accelerate or improve sequestration. These solutions offer immediate and measurable CO₂ removal, enhance soil fertility and water retention, and can be locally implemented and scaled in agricultural regions.

BECCs (Bioenergy with Carbon Capture and Storage)

Biomass (like wood, switchgrass, or agricultural waste) is burned or fermented to generate energy.
The CO₂ released during this process is captured and stored underground (geological sequestration) instead of being emitted into the atmosphere.
Since biomass absorbs CO₂ while growing, capturing the emissions creates net-negative emissions.

BioChar

Biomass (crop waste, forestry residues, manure) is heated in a low-oxygen environment (pyrolysis), creating biochar.
This carbon-rich solid is stable and can be added to soils to lock carbon away for centuries while also improving soil quality.

Avoidance Projects

Activities that avoid or reduce the release of CO₂ or other greenhouse gases that would otherwise occur. Instead of removing CO₂ from the atmosphere, avoidance projects focus on preventing CO₂ (or other GHGs) from being emitted in the first place.

CCUS (Carbon Capture, Utilization and Storage)

Avoid releasing CO₂ that’s produced by fossil fuel combustion or industrial processes.

CO₂ is captured from industrial or power plant emissions.

It's either:

Stored underground in geological formations (CCS), or
Used in industrial processes (e.g., enhanced oil recovery, making synthetic fuels or concrete).

WtE Plants (Waste to Energy Plants)

Reduces reliance on landfills and fossil fuels and displaces grid electricity from higher-emission sources.

Burns municipal solid waste (MSW) to generate electricity and heat.
Avoids methane emissions from landfill decomposition (methane is 25x more potent than CO₂).
Emissions can be reduced further by adding carbon capture to WtE plants.

(CCS) Carbon Capture & Storage

Prevents large-scale point-source emissions from reaching the atmosphere.

A subset of CCUS focused solely on capture and permanent underground storage (no utilization).
Applied in sectors like steel, cement, and power generation.

Stored in

Depleted oil and gas fields
Deep saline aquifers

Power Generation

Reduces lifecycle emissions from electricity generation and can also include grid decarbonization efforts.

Switching from coal to natural gas (less CO₂ per kWh).
Installing renewable energy systems (e.g., solar, wind, hydro).
Improving energy efficiency in fossil fuel plants.