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Swansboro, United States
1-10 Employees
2016
Our unique 3D reflection seismic data acquired seamlessly in urban environments, coupled with our advanced processing and interpretation techniques, are critical in identifying fault location and movement, frequently undetected through traditional means. Our team has over 80 years of combined seismic and geologic experience including over 35 years’ experience in key California areas. We support several federal and state agencies in meeting their goal of earthquake hazard mitigation and planning. We have formal, technical partnerships/essential agreements with both the USGS & Caltech to share our data and provide technical insight and expertise to assist with data processing and analysis to achieve the most accurate results.
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Carbon Sequestration
... Carbon Sequestration – 3D Seismic ...
Aurora, United States
1-10 Employees
2022
At NanoCrete, we are dedicated to revolutionizing concrete construction through advanced carbon nanotechnology, offering solutions that not only boost efficiency but also drive profits for our customers. NanoCrete, with its innovative product NanoGel, is at the forefront of advancing carbon nanotechnology in concrete. Graphene, a material renowned for its remarkable strength and conductivity, is reshaping how we think about building materials. Our flagship product, NanoGel, a graphene-enhanced gel admixture, showcases this innovation. The science behind our technology aligns with the American Concrete Institute’s emphasis on innovative concrete solutions. By reducing material and maintenance costs while enhancing durability, we offer long-term financial and sustainability benefits. NanoCrete's groundbreaking NanoGel is revolutionizing the construction industry, offering contractors an unparalleled tool to enhance both the fresh and hardened properties of shotcrete. This graphene-enhanced gel formula is a nod to practical.
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Concrete, Graphene, Carbon Credits, Carbon Sequestration - NanoCrete
... Helping corporations meet their emissions targets at scale via permanent carbon sequestration in concrete using our proprietary process & NanoCrete Cement ...
San Juan, United States
1-10 Employees
2021
We developed a model for achieving rapid carbon footprint reduction through permanent sequestration while providing environmentally and socially conscious revenue sources.
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Carbon Sequestration - Bio-Restorative Ideas
... Carbon Sequestration - Bio-Restorative ...
Longmont, United States
1-10 Employees
2017
Our mission is to restore the Earth and our communities through Regenerative Design. Cutting edge strategies that effectively distribute water - balancing moisture conditions and moving water to where it is most needed. Strategies that increase water storage in the soil, build vegetation and carbon capture potential. These terra-forming and earth moving strategies rapidly develop the landscape and accelerate the succession of ecosystems. Contour earthworks, ponds and water storage, roads and access, etc.
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Featured
Carbon Sequestration
... Carbon Sequestration ...
Bedford, United States
1-10 Employees
Mikro-Tek is a carbon project developer and supplier of carbon offset creditsOffsets are the mechanism by which the impact of emitting a tonne of CO2 can be negated or diminished by avoiding the release of a tonne elsewhere, or by absorbing a tonne of CO2 from the air (domestically or internationally) that otherwise would have remained in the atmosphere. Since 2003, Mikro-Tek has planted new forests on more than 7,500 hectares of unproductive land in Chile, and has applied their technology in reforestationThe conversion of non-forested land to forested land through planting, seeding and/or the human induced promotion of natural seed sources, on land that was forested, but that was converted to non-forested land (e.g. In 2010 Mikro-Tek registered their Chilean project with the United Nations under the Clean Development Mechanism (CDM)A market mechanism defined in Article 12 of the Kyoto Protocol as a project between a developed country and a developing country that provides the developing country with the financing and technology for sustainable development and assists the developed country in achieving compliance under the regulatory system in which they normally operate. In 2013, Mikro-Tek‘s forestry projects in Chile were registered under the Verified Carbon Standard (VCS). Together these forest carbon sequestrationReduction of net emissions of carbon dioxide (CO2) can be accomplished in two ways: either by reducing the rate at which CO2 is added to the atmosphere (e.g.
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Forest Carbon Sequestration
... Forest carbon sequestration helps offset carbon emissions from large industries. Micro-Tek has considerable experience developing forestry carbon projects to help industries meet their emission reduction targets. ...
Rotterdam, Netherlands
1-10 Employees
2017
We provide risk and opportunity maps and perform value assessments on initiatives around the globe. We are experts in developing, presenting and commercialising spatial data products and services for new markets. At 52impact we connect the dots of geo & space technologies and are able to structure and present information in a clear and concise way. However, we are more than open for candidates who want to explore commercial opportunities for 52impact in other industries as well. At 52impact we offer you an extraordinary working environment. Since we are still small, you can really make a difference in reaching our goals. Every step towards sustainability is a step in the right direction. But where to start and how to measure your impact?We help corporates, production facilities and financial organisations to accelerate their transition towards sustainability by providing powerful spatial insights for corporate strategy, business tactics, planning, investigations, trading and policy making.
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52impact | Corporate strategy & business analytics from space
... Carbon sequestration ...
Dallas, United States
11-50 Employees
2020
At Enerflex, we are proud to bring our four decades of capture expertise to our partnership with the Lapis team contributing to the successful delivery of their strategy.". We provide single-point responsibility from industry partner to sink. Experts specialized in providing custom solutions for the capture, storage, transportation and sequestration of CO2 from industry partners. The Lapis team is comprised of leading industry experts with multiple decades of relevant technical, commercial and project experience with the biggest companies in the world. We combine the rigor of traditional capital project delivery with the innovation and entrepreneurial thinking necessary to create industrial-scale low-carbon solutions. Lapis is the partner of choice for energy-intensive industries seeking to achieve their carbon goals through the delivery of carbon capture and sequestration (CCS) projects. Founded in 2016 and based in Dallas, Texas, Cresta’s team has a robust operational history, with decades of combined development, engineering, commercial, trading, legal and financial experience in the infrastructure industry, and its founding partners have worked together as a team since 2007. The Partner of Choice for energy-intensive industries seeking to achieve their carbon goals through delivery of carbon capture and sequestration projects.
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Carbon Capture & Sequestration (CCS) Project Management, Subsurface & Commercial Expertise
... Carbon Capture & Sequestration (CCS) Project Management, Subsurface & Commercial ...
Oslo, Norway
1-10 Employees
2021
Fossagrim applies well recognised models for forest carbon pools to valuate the CO2 benefits. We are always interested in a non-committing chat on forests, climate, biodiversity, business and sustainability mitigation solutions. On the other hand, harvesting a production forest turns the carbon sink into a net carbon source, even in the long run. Considering the positive climate effect of carbon stored in long-lived wood products and the substitution effect does not make up for the carbon lost during and after clear-cutting.
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Skog | Karbonfangst | Biomangfold | Fossagrim | Oslo
... Carbon Sequestration ...
Grand Junction, United States
1-10 Employees
1988
© 2023 Colorado Web Design by Thin Air Web, All Rights Reserved.
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Featured
Carbon Sequestration
... Raven Ridge Resources Incorporated | Carbon Sequestration ...
Amsterdam, Netherlands
1-10 Employees
2020
Beyond carbon – Spatialise has developed the most accurate remote sensing AI powered carbon model on the market. Spatialise wants to enable farmers to take real steps towards regenerating their soils and the natural capital of their land- like biodiversity and water. The mission of Spatialise is to regenerate 1 Bn hectare of soils worldwide, essential for nature conservation, sustainable farming and future food security. That is why we are leveraging the precision of our technology and creating automated tools to enable farmers to use fewer chemical fertilisers, save money, and increase biodiversity without jeopardising their yields. With frequent and scalable soil health monitoring we are addressing the critical challenge of over 30% of global agricultural soil degradation.
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Featured
Spatialise – Enabling the regeneration of soils through geospatial intelligence
... Remote monitoring of carbon sequestration ...
Technologies which have been searched by others and may be interesting for you:
Some interesting numbers and facts about the results you have just received for Carbon Sequestration
| Country with most fitting companies | United States |
| Amount of fitting manufacturers | 105 |
| Amount of suitable service providers | 96 |
| Average amount of employees | 1-10 |
| Oldest suiting company | 1988 |
| Youngest suiting company | 2022 |
Carbon sequestration refers to the process of capturing and storing atmospheric carbon dioxide (CO2), a principal greenhouse gas implicated in global warming and climate change. This method is critical in mitigating the adverse effects of carbon emissions, serving as a pivotal strategy in global efforts to combat climate change. It encompasses a range of techniques, both biological and technological, aimed at removing CO2 from the atmosphere. Biological methods include reforestation and soil management practices that enhance the absorption of CO2 by plants and soils. Technological approaches, known as carbon capture and storage (CCS), involve the capture of CO2 from industrial and energy-related sources, followed by its transport and storage in underground geological formations. The significance of carbon sequestration lies in its potential to significantly reduce the net amount of human-made CO2 emissions, thereby contributing to the stabilization of atmospheric greenhouse gas levels. This, in turn, supports the objectives of international climate agreements like the Paris Agreement, aimed at limiting global warming. Effective implementation of carbon sequestration strategies is essential for transitioning towards a more sustainable, low-carbon future, highlighting its indispensable role in contemporary environmental science and policy.
1. Reduces Atmospheric CO2
Carbon sequestration effectively captures and stores carbon dioxide (CO2) from the atmosphere, significantly reducing the amount of this greenhouse gas that contributes to global warming. This process can help mitigate climate change by lowering overall atmospheric CO2 levels.
2. Enhances Soil Quality
In agricultural practices, carbon sequestration improves soil fertility and structure. By increasing the amount of organic carbon in the soil, it enhances water retention, nutrient availability, and microbial activity, leading to more productive and sustainable farming systems.
3. Supports Biodiversity
Areas utilized for carbon sequestration, like forests and oceans, are vital habitats for numerous species. Protecting and expanding these environments can increase biodiversity, supporting ecosystems that are crucial for ecological balance and the health of the planet.
4. Economic Benefits
Carbon sequestration projects can stimulate local economies by creating jobs in new technologies and conservation efforts. Moreover, they offer potential revenue streams through carbon credits, incentivizing businesses and governments to invest in carbon capture and storage solutions.
While evaluating the different suppliers make sure to check the following criteria:
1. Technological Expertise
Ensure the supplier has advanced and proven technologies for carbon capture and storage, demonstrating successful projects in carbon sequestration.
2. Regulatory Compliance
Check that the supplier adheres to all local and international environmental regulations related to carbon sequestration.
3. Financial Stability
Assess the financial health of the supplier to ensure they can sustain long-term projects.
4. Project Portfolio
Review the supplier's previous projects to evaluate their experience and success in carbon sequestration.
5. Sustainability Commitment
Determine the supplier's commitment to sustainability practices beyond carbon sequestration.
6. Customization Capabilities
The supplier should offer solutions that can be tailored to fit your specific needs and scale.
7. After-Sales Support
Ensure there is a robust support system in place for post-implementation queries and maintenance.
Carbon sequestration, a critical component in the battle against climate change, finds its relevance across a multitude of industries, serving various B2B use-cases. In the energy sector, companies integrate carbon sequestration techniques to reduce emissions from fossil fuel use, offering a pathway to more sustainable operations while meeting global carbon reduction targets. This approach not only aids in compliance with environmental regulations but also opens doors for partnerships with eco-conscious businesses. In the construction and manufacturing industries, carbon sequestration is utilized in the production of carbon-neutral or carbon-negative materials. Businesses specializing in these materials are increasingly sought after for B2B collaborations, as companies strive to lower their carbon footprint and enhance their sustainability credentials. This trend is particularly noticeable in the development of green buildings and eco-friendly products, where the use of such materials can significantly reduce overall carbon emissions. Agriculture presents another compelling use-case, where carbon sequestration practices are employed to improve soil health and productivity. By adopting these methods, agribusinesses can offer carbon offset credits to other industries, creating a new revenue stream while promoting sustainable agricultural practices. This synergy between agriculture and other sectors exemplifies how carbon sequestration can facilitate cross-industry collaborations aimed at achieving broader environmental goals.
Carbon sequestration, a pivotal technology in the fight against climate change, is currently at varying Technology Readiness Levels (TRLs) depending on the specific method employed. Broadly, biological carbon sequestration methods, such as reforestation and soil management, are at a higher TRL, typically between 8 and 9, indicating they are proven and deployed at scale. These methods leverage natural processes, and their high TRL reflects extensive research validating their effectiveness and the existence of established protocols for their implementation. On the other hand, technological methods like direct air capture (DAC) and mineral carbonation are generally between TRLs 4 to 6, signifying they are in the developmental to demonstration phases. The lower TRL for these methods is primarily due to the significant technical challenges they face, including high energy requirements for DAC and the slow rate of natural mineral carbonation. Moreover, the scalability of these technologies is still under investigation, with ongoing research aimed at improving efficiency and reducing costs. This disparity in TRLs highlights the complexity of carbon sequestration as a field, encompassing a range of techniques each with its own set of technical hurdles and development paths.
In the Short-Term, advancements in carbon sequestration are expected to focus on improving the efficiency and scalability of existing technologies. Immediate efforts will concentrate on enhancing direct air capture methods, where CO2 is chemically removed from the atmosphere and stored. Innovations in materials science, specifically in the development of more effective and cheaper sorbents, are anticipated to lower costs and increase the feasibility of deployment at a larger scale. Additionally, there will be a push towards integrating carbon capture systems into existing industrial and power plants to mitigate emissions more effectively. Moving into the Mid-Term, the focus will shift towards the development of new sequestration sites and the expansion of carbon storage capacity. This phase will likely see the emergence of advanced geological storage techniques, including the utilization of basalt formations for mineral carbonation processes. These processes not only securely store CO2 but also convert it into a stable mineral state, providing a more permanent solution to carbon storage. Furthermore, bioenergy with carbon capture and storage (BECCS) technologies will mature, offering dual benefits of renewable energy production and carbon sequestration, thereby contributing significantly to negative emissions. In the Long-Term, the horizon looks towards revolutionary technologies and approaches that could redefine carbon sequestration. Research may yield breakthroughs in artificial photosynthesis, where synthetic materials mimic plants in converting CO2 to oxygen and energy, offering a novel way of reducing atmospheric carbon. Additionally, there's potential for the development of ocean-based sequestration methods, leveraging the natural carbon absorption capabilities of marine ecosystems while enhancing them through technological interventions. These innovations, coupled with global policy shifts and increased funding, could significantly accelerate the pace at which carbon is removed from the atmosphere, marking a new era in the fight against climate change.
