Empowering Net-Zero Emissions Tracking with Precision Sensors
Achieving Net-Zero Goals with Advanced Greenhouse Gas (GHG) Monitoring Technology
Our unique sensor technology supports the global initiative to achieve net-zero emissions through precise and robust validation of GHG exchange processes, both in the lab and for on-site assessment.
We offer advanced instruments and related tools that enable controlled laboratory studies, and in-situ monitoring.
Accurate Data for Climate Action
Versatile Applications
Reliable and Robust Performance
Net-Zero Emissions
Net-Zero Emissions
Climate Change Mitigation
High-Tech Research
By equipping researchers, environmental monitoring agencies, and water management companies with these advanced tools, EnviroSus Sensors supports a broad range of climate change mitigation strategies and supports the transition to net-zero.
Understanding Carbon Flow: A Key to a Sustainable Future
At the Lyle Centre, Heriot-Watt University, our research explores how carbon compounds move through water, land, and the atmosphere. By studying these processes, we can better understand their impact on the environment and work towards a more sustainable future for generations to come.
EnviroSus Sensors provides advanced, cost-effective technology to help researchers and organizations measure and mitigate greenhouse gas emissions. Our tools support climate change efforts and the transition to net-zero emissions.
Explore our solutions to see how we can support your environmental impact.
EnviroSus Solutions
Accurate measurement of gas exchange between water and the atmosphere is crucial.
EnviroSus Sensors provides the tools for you to achieve your goals using our high-performance, low-cost technology.
Our technology can add value to your operations in the following ways:
Global GHG Budget
Our technology helps you establish reliable inventories of GHG emissions, which are essential for creating effective climate policies.
Evaluating Remediation Strategies
By monitoring the effectiveness of methods aimed at capturing and storing GHG in ocean waters we enable you to assess their impact on reducing atmospheric carbon.
GHG Exchange
Inland waters are significant sources of GHG emissions, while marine environments act as vital sinks. Understanding the dynamics of GHG exchange between these reservoirs is key to assess the global carbon budget and develop strategies to mitigate climate change.
Efficient, Reliable, Data Collection
Utilising EnviroSus Sensors flexible and robust technology provides the capabilities you need to simply and reliably collect critical data using high-performance, low-cost state-of-the-art sensor technology.
Products
EnviroSus Sensors has developed three advanced systems that address key aspects of CO2 monitoring and gas exchange evaluation or analysis.
Insi-K
A fully functional system designed for cost-effective measurement of CO2 concentration in both water and air. It also enables in-situ monitoring of gas transfer velocity with minimal disruption to the water body, ensuring accurate data collection.
GETCO2 (Gas Exchange Tank)
A specialized tool that has been developed to simulate controlled environments, using CO2 as a trace gas. It allows for detailed studies of gas exchange between water and the atmosphere in a user-friendly setup, enhancing the precision of research in this area.
WAS (Responsive/Smart Water Auto-Sampler)
Designed for automated water sampling. It is compatible with the Insi-K instrument and supports further geochemical analysis, providing an integrated solution for comprehensive water body monitoring.
Who Will Benefit
EnviroSus Sensor technology can provide high value for you:
Environmental Monitoring Companies
GETCO2 enables lab-scale studies, while Insi-K and WAS are ideal for field-scale applications. We facilitate long-term monitoring of water-atmosphere gas exchange processes and the collection of high-quality data for environmental assessments and reporting over extended periods in various water bodies.
Consulting Firms on GHG Mitigation Strategies
By measuring the effects of various mitigation strategies on CO2 flux in a lab scale-controlled environment (GETCO2), firms can develop more accurate, data-driven recommendations for reducing emissions in both aquatic and terrestrial settings.
Research Collaborations
Researchers studying coastal ecosystems could use Insi-K to monitor in-situ gas transfer velocity with minimal disruption to the water body, while GETCO2 enables detailed, controlled studies of gas exchange. This combination of instruments enhances the precision and accuracy of research across marine, freshwater, and estuarine environments.
Technology Providers in the Enviroment Sector
GETCO2, Insi-K, and WAS form a comprehensive monitoring package for environmental solutions. These instruments can be used to demonstrate the performance and reliability of the technology across a wide range of applications, from research to fieldwork.
Water Management Solutions Providers
Insi-K and WAS can be integrated into water management operations to monitor CO2 levels and water quality in real-time, enabling the assessment of water treatment strategies and improving their effectiveness.
Carbon Credit Trading Entities
By providing precise measurements of CO2 capture and release, our instruments help verify carbon credit claims, ensuring transparency and accuracy in the verification process.
Non-Governmental Organisations (NGO's)
Reliable data on CO2 concentrations and gas transfer velocities can support data-driven policy advocacy, shape environmental protection strategies, and aid in informed decision-making for ecosystem conservation efforts.
EnviroSus Sensors equips key stakeholders with the technology needed to track environmental impact, optimize resource management, and reduce carbon footprints—ensuring progress towards a sustainable, net-zero economy.
Scientists Discover Ocean Scum Reducing CO2 Absorption
British scientists have found a layer of scum on the surface of the Atlantic Ocean that could reduce the ocean’s ability to absorb carbon dioxide by up to 50%.
Dr. Ryan Pereira from the Lyell Centre at Heriot-Watt University explains how this scum, produced by naturally occurring surfactants, creates a barrier between the atmosphere and ocean, hindering vital CO2 exchange. Rising temperatures may increase this effect, highlighting the urgent need to understand how climate change influences these processes.
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