AIRMO

🌍 Exciting News! Our CTO and Co-Founder, Errico Armandillo, is representing AIRMO at the International Conference on Space Optics this week! He’ll be presenting his paper, “In-orbit demonstration of CubeSat mission for GHG quantification using compact micro-LiDAR and Pushbroom spectrometer,” showcasing our innovations in #GHG monitoring technology. This event, held from October 21-25 at the Antipolis Convention Centre in Antibes, France, brings together top industry leaders, and we're thrilled to share our contribution to the future of space optics and environmental sustainability. Will you be attending? Come say hi! 👋

🌍 Why Oil & Gas companies need to prioritize emissions data 📈 The Oil & Gas industry contributes nearly 15% of all energy-related greenhouse gas emissions, facing increasing pressure from regulators. The US Environmental Protection Agency (EPA) has introduced stricter methane reporting requirements through its updated Greenhouse Gas Reporting Program (GHGRP), highlighting the need for high-quality, accurate emissions data. One major challenge? Scope 3 emissions. These account for about 90% of a company’s total emissions, yet less than 10% of companies currently track them. For Oil & Gas companies, improving emissions measurement and transparency is essential, not just for compliance, but for sustainability. To effectively reduce Scope 3 emissions, companies must work with suppliers, invest in new technologies, and commit to transparent reporting. 🛰 That’s where AIRMO comes in. With our soon-to-launch satellites and adaptable drone-based sensors, we’re ready to provide precise emissions data that helps companies navigate these challenges. By ensuring clear, accurate reporting, we’re empowering Oil & Gas companies to meet regulatory requirements and advance their emissions reduction goals. 🛩 Want to learn more about how AIRMO can support your journey? Visit our website or drop us a message! 📨

🚨 Big news in emissions monitoring! 🚨 In September, the Tanager-1 satellite from Carbon Mapper made a breakthrough by detecting greenhouse gas plumes using a NASA-designed imaging spectrometer. This instrument, launched on August 16, successfully pinpointed methane and carbon dioxide hotspots, something that has been challenging to measure until now. This milestone shows that the spectrometer is working as planned, providing accurate data on methane and CO2. The Carbon Mapper team can now analyze this data to estimate emission rates. 🛰 At AIRMO, we’re inspired by these innovations. They align with our mission to use satellite technology for delivering near-real-time, precise emissions data. Monitoring from space is proving to be a game-changer in creating reliable data for emissions tracking! Find sources and more information in the comments 👇

🔴 Methane emissions are still in Record High in 2023 🔴   The International Energy Agency (IEA) estimates that the energy sector emitted 120 million tonnes of methane in 2023. Methane emissions have been steady since 2019 when a record high was reached. The energy sector is responsible for more than a third of total anthropogenic methane emissions. According to IEA calculations, it is crucial to reduce methane emissions by 75% by 2030 to limit the temperature rise to 1.5 °C. To achieve this, emitters need to take measures. As a first step, companies should closely monitor their emissions and then implement reduction measures. So, where do we start? Monitoring is the first crucial step! 🌐 To achieve this, monitoring methane emissions efficiently and accurately is key, and that’s where the combination of satellites and drones makes all the difference. 🔷 Satellites get the big picture with near-real-time global coverage. They help us identify trends, monitor emissions over vast areas, and locate hot spots across the planet. 🔷 Meanwhile, drones zoom in for high-precision data right at the source. Drones allow us to reach even the most remote or challenging areas, offering a close-up view that satellites can’t always provide. Together, this satellite-and-drone combination provides a comprehensive and versatile approach to monitoring methane emissions. It’s all about leveraging the strengths of both tools to make smarter, more informed decisions for the environment. 🛰 Let’s work together to turn this data into meaningful action. 🛩 Find the full report from the IEA in the comments.

Latest research on methane emissions measurement at the UAE Space Research Conference 🛰 🌍 Today, October 8th, our very own Andrew Maximov will be presenting at the Space Research Conference in Abu Dhabi. Andrew will delve into the latest research on point source methane emissions, highlighting the role of compact micro-LiDAR and Push-broom spectrometry, key components of AIRMO’s emissions monitoring technology. We’re excited to share how our innovative approach is advancing methane measurement and to connect with industry experts and leaders at this influential event. For more details about the conference, check out the link: https://lnkd.in/dYW2mUFP

🛰 Join our CEO and Founder, Daria Stepanova, in a Webinar hosted by the EUSPA - EU Agency for the Space Programme on Energy. 🗓 The Webinar will take place on Tuesday, October 8, from 9:15 to 13:00. It is focused on how EO data can support key challenges in a project's lifecycle. The aim of this session is to bridge the gap between EO providers and renewable energy stakeholders. Daria will participate in a roundtable on Methane emissions monitoring from 12:15 to 12:45, discussing this with Anthony Credoz from TotalEnergies and Ernest Koffi from European Centre for Medium-Range Weather Forecasts. Find more information here: https://lnkd.in/d-_6MekM

🛰 How AIRMO's technology powers the precision of Satellites and Drones 🛩 At AIRMO, our emissions tracking is powered by a combination of multi-sensor technology, enabling high-precision monitoring and delivering the accuracy industries need to meet environmental standards. 1️⃣ LiDAR System: The LiDAR system consists of two subsystems: a transmitter and a receiver: The transmitter emits a laser signal directed towards the Earth's surface, precisely controlled by a Precision Timing Mechanism. The receiver captures reflections of laser emissions that originate from the atmosphere and surface. The receiving subsystem is highly precise in detecting photons. 2️⃣  SWIR Spectrometer: Measures the intensity of light across a spectrum of wavelengths. The module is designed to gather measurements in the SWIR region, decoding the composition of the Earth's atmosphere for CH4 and CO2 bands. 3️⃣  RGB Camera: This camera captures high-resolution visuals, provides geolocation, and adds critical context to our data through cloud detection. This technology allows AIRMO to deliver both broad-scale global data and targeted localized insights, empowering industries to comply with environmental regulations and take decisive action. 🌍 The combination of these tools in our CubeSAT satellites and drones enables us to offer a truly comprehensive emissions monitoring solution. 💚 Want to learn more about AIRMO technology? Reach out to us! 👇

🛰 Satellites + 🛩 Drones = High precision The key to improve emissions monitoring lies in the synergy between satellites and drones. 🔹 Satellites provide global, near-real-time coverage, detecting trends and anomalies across vast areas, even in challenging weather conditions. With high revisit rates, they deliver frequent updates to keep emissions data current. 🔹 Drones, meanwhile, offer high-precision, localized data, adapting to specific environments and reaching areas that satellites can’t. This flexibility allows for detailed real-time insights that drive immediate action. Together, they create a powerful solution. By combining broad satellite monitoring with detailed drone analysis, we can provide highly accurate data both on a large scale and at pinpointed locations. At AIRMO, we use this dual approach to help industries stay compliant with regulations and develop effective mitigation strategies. Our CubeSAT satellites cover the big picture, while our drones zoom in for targeted insights. The result? High accuracy in emissions monitoring and better decisions for a cleaner, more sustainable planet. 🌍 Curious to learn more? Let’s chat! 👇

🌍 Let's recap the new EU methane emissions regulation. 🌍 The European Commission introduced a new regulation (EU 2024/1787) in May 2024 to reduce methane emissions in the energy sector. This is a huge leap forward for climate goals, as part of the European Green Deal and the EU Methane Strategy. The aim of the regulation is to reduce methane emissions, improve the air quality and position the EU as a leader in the fight against climate change. Under the new rules, fossil fuel industries must measure, monitor, and reduce methane emissions, with a ban on avoidable flaring. Since Europe imports much of its energy, these regulations extend globally, pushing exporters to meet the same high standards. This regulation underscores the urgency of addressing methane emissions, aiming to achieve reductions soon after its enactment. The EU will also deploy satellite monitoring to track “super-emitting” methane events through a rapid alert system. 🚀 At AIRMO, we’re ready to support companies worldwide with our satellite technology, ensuring compliance and tackling methane emissions. 🌱 Let’s make the planet cleaner—one satellite at a time. More details in the comments. 👇

🌍 The future of methane emissions tracking is here, and it's in the sky!  🚀 🛰 Satellites are revolutionizing how we monitor methane—a potent greenhouse gas. But how exactly does this work? At the heart of our system is an advanced infrared spectrometer that measures light passing through the atmosphere. By detecting the unique wavelengths absorbed by methane, we emission sources can be identified with high precision. The satellites also provide a vast coverage, enabling companies to act quickly and efficiently, even in remote areas. For the Oil & Gas industry, this tech boosts accountability and efficiency by identifying leaks early, saving costs, and reducing environmental impact. At AIRMO, our satellite technology takes this even further with high precision and near-real-time data. With the advances of technology and our knowledge, satellite observations will soon play a crucial role in efforts to combat climate change 🌱 Curious to learn more? Let’s chat!