How Technology Contributes to Climate Solutions

𝗕𝗲𝗵𝗶𝗻𝗱-𝘁𝗵𝗲-𝗠𝗲𝘁𝗲𝗿 𝗜𝗻𝗻𝗼𝘃𝗮𝘁𝗶𝗼𝗻𝘀: 𝗧𝗵𝗲 𝗙𝘂𝘁𝘂𝗿𝗲 𝗼𝗳 𝗘𝗻𝗲𝗿𝗴𝘆 𝗶𝘀 𝗣𝗲𝗿𝘀𝗼𝗻𝗮𝗹 The energy industry is undergoing a transformation—one that’s moving us closer to a future where energy is smarter, more sustainable, and consumer-centric. At the heart of this transformation lies a quiet revolution: behind-the-meter (BTM) innovations. For years, energy management was a top-down process. But BTM solutions are flipping the script, empowering businesses and individuals to take control of their energy usage, unlock savings, and contribute to a greener planet. These innovations are reshaping how we produce, store, and consume energy—directly at the point of use. Here are a few areas where BTM technologies are making waves: 1️⃣ Energy Storage: Advanced battery systems are enabling users to store energy during off-peak hours and deploy it when demand (and costs) is highest. It’s not just about resilience; it’s about optimization. 2️⃣ Smart Energy Management Systems: IoT-driven platforms now provide real-time data insights, allowing users to make informed decisions about consumption patterns and improve efficiency. 3️⃣ Distributed Energy Resources (DERs): Rooftop solar panels, microgrids, and other on-site energy generation tools are decentralizing energy production, reducing reliance on the grid. 4️⃣ Demand Response Solutions: Automated systems can adjust energy usage based on peak demand signals, helping reduce strain on the grid while saving money. But the real game-changer isn’t just the technology—it’s the mindset shift. Businesses and consumers alike are beginning to recognize the value of energy independence, sustainability, and adaptability. With the rise of BTM innovations, organizations are no longer just energy consumers; they’re active participants in shaping the energy ecosystem. So, what does this mean for the future? 🔸 For businesses: Opportunities to reduce operational costs, enhance sustainability goals, and build resilience against grid disruptions. 🔸 For individuals: A pathway to lower utility bills and a tangible way to contribute to combating climate change. 🔸 For the grid: A more balanced, decentralized, and flexible energy infrastructure that can better handle the complexities of modern energy demands. As we continue to face challenges like climate change and energy insecurity, behind-the-meter innovations offer a clear path forward—one that’s efficient, adaptive, and sustainable. The future of energy isn’t just happening on the grid; it’s happening in our homes, offices, and communities. What excites you most about the potential of behind-the-meter technologies? I’d love to hear your thoughts! Let’s keep this conversation going—together, we can power the next generation of energy innovation. 🌱⚡ #EnergyInnovation #Sustainability #FutureOfEnergy #BehindTheMeter #ThoughtLeadership

The journey to net zero is impossible without significant investment in technology. While bold sustainability targets dominate headlines, the reality is stark: only 10% of the low-emissions technologies needed to achieve net zero by 2050 have been deployed so far (McKinsey). Closing this gap demands urgent action, as the World Economic Forum estimates that a staggering $13.5 trillion will be needed by 2050 to decarbonize critical sectors (World Economic Forum). In 2023, the U.S. demonstrated the growing momentum in this space, investing $239 billion in clean energy, vehicle electrification, building technologies, and carbon management—an impressive 38% increase from 2022 (Clean Investment Monitor). Among these investments, the smart buildings market is projected to reach $78.2 billion by 2030, underscoring the pivotal role of innovative building technologies (Allied Market Research). The International Energy Agency (IEA) emphasizes that technology holds the key to achieving net zero. Critical advancements in energy efficiency, carbon capture, electrification, and more are expected to drive about half of cumulative CO2 savings (IEA). Digital technologies, such as artificial intelligence and machine learning, can further optimize operations across sectors. As the Royal Society highlights, digital technologies alone could deliver nearly one-third of the carbon reductions needed by 2030 (Royal Society). These tools not only accelerate emission reductions but also create scalable solutions for a green economy and recovery. The path to net zero runs through technology. Without substantial and sustained investment in advanced digital and clean energy solutions, achieving global climate goals will remain out of reach. It's time for businesses and governments to make technology a cornerstone of their net-zero strategies. Sources in the comments. #NetZero #TechnologyInvestment #EnergyTransition #Sustainability #CleanEnergy

💡 Did you know? AI could reduce global greenhouse gas emissions by 4% by 2030! (*) 🌱 Sustainability Meets Artificial Intelligence: A Path to a Greener Future 🌍 As the digital revolution reshaped industries, the sustainable transformation is now our next frontier. Artificial intelligence (AI) is emerging as a game-changer—not just in optimizing business processes but in ensuring a responsible, environmentally conscious future. Why Sustainability Needs AI: 💡 AI can help reduce the carbon footprint of IT operations, making them more efficient and less wasteful. 💡 It accelerates the creation of sustainable solutions, from precision agriculture to smart energy grids and data center optimization. 💡 AI powers predictive analytics for better ESG reporting, driving transparency, accountability, and progress toward net-zero goals. Two Key Pillars for a Sustainable AI Strategy: 1️⃣ Tech Zero: Reducing inefficiencies and waste in IT operations to minimize their environmental impact. 2️⃣ Tech Positive: Leveraging AI and technology to enable the entire organization to meet sustainability goals while creating new value. Examples in Action: 🌾 Agriculture: Precision monitoring of crops and livestock. 🏭 Manufacturing: AI-driven efficiency in production and reduced waste. 🔋 Energy: Smarter grids and optimized renewable energy usage. 🏢 Smart Buildings: Automated energy and recycling management. The future of AI isn’t just innovation—it’s responsible innovation. By adopting sustainable AI practices, businesses can make decisions that are not only better for their bottom line but also for the planet. Let’s align technology with responsibility. What steps is your organization taking to ensure AI contributes to a sustainable future? To learn more: https://lnkd.in/gAaNTyPa #Sustainability #ArtificialIntelligence #ResponsibleAI #TechForGood #NetZero #InnovationForImpact (*) PricewaterhouseCoopers, “AI-Driven Net Zero,” 2024, https://lnkd.in/g9Akj_4Q.

🔍 How can AI and ML help us tackle climate change? Imagine this: You're managing a factory, doing everything you can to run things efficiently. But energy costs keep climbing, and your team spends hours redoing tasks because of small errors. Now multiply that across countless factories worldwide, and it's no surprise the impact on emissions and energy use is huge. Enter AI and Machine Learning. These tools are more than just tech buzzwords—they’re reshaping the way we approach climate solutions. In factories, for example, AI can spot where errors usually happen, help your team work smarter (not harder), and cut down on wasted resources. That means fewer emissions and less energy wasted on repeat tasks. A few stats show the difference AI can make: -Error reduction: Automated quality checks can reduce errors by up to 40%, helping teams work more effectively and sustainably. -Efficiency gains: Combining AI with tools like natural language processing can reduce task time by 30-40%, saving both energy and costs. -Material usage: AI helps identify ways to use low-carbon materials, cutting emissions by up to 20% in some cases. Thinking about how AI and ML could change your field? Whether it’s in manufacturing, energy, or logistics, data-driven insights are transforming climate action. Imagine the impact if we each found one way AI could help reduce waste in our work—it could be a small step that adds up to a big change for our planet. Let’s share ideas! How is AI making a difference in your industry? #AIML #DataDriven #ClimateChange  #SustainableSolutions

Technology is revolutionising how businesses tackle carbon emissions, offering innovative solutions that are both measurable and impactful. IoT sensors and AI-driven platforms allow organisations to monitor energy use and emissions in real time, identifying once-invisible inefficiencies. These insights enable precise strategies for reducing operational carbon footprints. Businesses can leverage technology to offset emissions they can’t yet eliminate. Exchanges such as Carbon Trade eXchange (CTX) are increasing the transparency of carbon offset programs by offering verified carbon credits and ensuring investments in projects like reforestation, renewable energy, and reuse deliver tangible results. Globechain the ESG Reuse Marketplace exemplifies how technology and reuse go hand in hand, providing companies with ESG and carbon-deferred data to quantify the impact of rehoming items that might otherwise be discarded. This integration reduces waste and lowers emissions tied to production and disposal, showcasing the power of circular economy solutions. As we navigate the path to net zero, adopting advanced technology for carbon management is no longer optional—it’s essential. These tools empower organisations to take measurable, accountable, and scalable climate action, making sustainability a core driver of success. How is your business embracing technology to reduce its environmental impact and build resilience for the future? #CarbonManagement #SustainabilityInBusiness #NetZeroGoals #TechForGood #CircularEconomy #CarbonTracking #SustainableInnovation #CarbonOffsetting #ClimateAction #GreenTechnology

I taught at Yale University!! (Well, kind of). I'm overwhelmed with gratitude share that my class with Splash at Yale, "Reverse-Engineering the Climate Crisis," has concluded with incredible success! Teaching young engineers & innovators grades 7-12 about emerging climate technologies has been one of the most rewarding experiences this year. Watching these bright students grasp not just how to mitigate climate change, but how to actually *reverse* its effects has filled me with renewed hope to continue to be a force for good in this world -- economic and ecological incentives can be aligned (and should be!!). 🌐 This course offered a survey into emerging geoengineering climate technologies and their mechanisms to mitigate the effects of climate change, remove CO2/GHGs, adapt for coming changes & build resiliency. We discussed: 1. Decarbonization: Carbon Capture & Storage (CCS), Direct Air Capture (DAC), Enhanced Rock Weathering (ERW), Biochar & Biofuel 2. Mobility & Transportation: Sustainable Aviation Fuel (SAF), Maritime Tech & Autonomous Vehicles, Electric Vehicles (EVs) 3. Energy: Batteries & Critical Minerals, Nuclear Fusion, Hydrogen, Perovskite Solar 4. Built Environment: Cement, Steel 5. Bio Applications/Bioremediation 6. Food/Agriculture: Precision Ag Robotics, Alternative Proteins Ran out of time but would have loved to include: AI applications -- energy management (demand response, flexible pricing), IoT & computer vision in drones/GIS tech. Why now? The urgency of our climate situation cannot be overstated: * January 2025 was 1.75°C above pre-industrial levels, the 18th month in 19 exceeding the critical 1.5°C threshold. * Between 2030-2050, climate change is expected to cause approximately 250,000 additional deaths per year from factors like undernutrition, malaria, diarrhea & heat stress. But there is tremendous promise in emerging tech solutions: * Carbon removal tech must eliminate ~10B tonnes of CO2 yearly to meet Paris Agreement goals. * Cloud seeding can boost snowpack by 15%, helping fight drought. * Solar geoengineering could save 400,000 lives annually by cooling global temps just 1°C, per recent Georgia Tech study (https://lnkd.in/dg52xPFQ). It's not often that a 9th-grader shows such enthusiasm about perovskite solar and questions the lead toxicity risks 😅... I have a good feeling the future of our climate is in capable hands. :) Splash at Yale is doing incredible work to provide a platform for Yale students to share their passion and knowledge with local middle-high school students, and luckily Splash is hosting another session at Yale next month! This course was all about geoengineering, but I'd like to teach one on nature-based solutions (NBS) too -- the two go hand-in-hand. Who's interested in accessing the course slides? 🙋♀️ Drop a comment below! Working in climate tech (or climate education)? Let's connect! #Geoengineering #EmergingTech #SplashatYale #ClimateTech

Agriculture has always been a cornerstone of civilization, but the tools and methods we use are rapidly evolving. Today, the fields of farming are not just tilled by traditional machinery but shaped by advanced technologies that are redefining how we grow, manage, and harvest food. Some examples of how technology is transforming agriculture: 🔍 Targeted Agriculture Gone are the days of blanket approaches to farming. Precision agriculture uses satellite imagery, GPS, and sensor data to pinpoint exactly where resources are needed. This means: - Reducing water, pesticide, and fertilizer waste. - Minimizing environmental impact while maximizing yields. - Allowing real-time decision-making with insights from field-level data. 🤖 Smart Farming Equipment Automation is not just a buzzword, it helps with efficiency: - GPS enabled tractors ensure perfect rows with no overlap, saving time and fuel. - Drones monitor crops, identify diseases, and assess soil conditions, offering a bird’s-eye view of fields in a fraction of the time manual inspections would take. - Robots are now even capable of planting and harvesting with precision, reducing reliance on manual labor. 📊 In modern farming, data is king. Advanced tools allow farmers to collect and analyze information like: - Soil health metrics for optimized planting strategies. - Weather patterns to plan irrigation and prevent losses. - AI powered predictive models that help forecast challenges and improve crop yields. 🌍 With climate change introducing new uncertainties, technology helps mitigate risks: - Precision irrigation systems save water in drought-prone areas. - Climate modeling tools guide farmers in selecting the right crops for shifting weather conditions. - Innovations like vertical farming and hydroponics are enabling food production in places where traditional agriculture struggles. What’s your take? Could these advancements make agriculture one of the most exciting industries to innovate in? #innovation #technology #future #management #startups