CO2 News: Top Headlines You Shouldn’t Miss

Carbon emissions remain a hot topic and the world is responding. In this roundup of key CO₂ news, we spotlight what’s happening right now to curb emissions and push for a cleaner future.

CO₂ News Roundup: Shifts, Stats, and Solutions

1. America Just Crossed 1 Gigaton of CO₂ Stored Underground

In a landmark moment, the US has officially stored over 1 billion tons of CO₂ underground. This milestone highlights how carbon capture and storage (CCS) is no longer experimental; it’s becoming a real part of the climate action toolkit.

Carolyn Seto, S&P’s director of energy transition, noted, “This volume represents a material impact in reducing emissions from these hard-to‑abate-sources,” reinforcing the importance of CCS alongside renewables.

2. Microsoft Buys Record Amount of Carbon Removal Credits

Tech giant Microsoft just signed one of the biggest carbon removal deals to date, purchasing credits that will offset 2.76 million tons of CO₂. It’s part of their bigger goal to become carbon negative by 2030, and it’s a sign that private companies are stepping up their climate game.

3. Carbon Pricing Is Booming—$104 Billion in 2023 Alone

International movements to reduce carbon emissions are also gaining pace with more countries resorting to carbon pricing measures such as carbon tax and cap-and-trade. These policies brought in a mind blowing revenue of 104 billion in the year 2023 alone globally. In addition to increased tax collection, the increased emphasis on carbon pricing can be regarded as one of the best levers to curb emissions and encourage businesses to standardize their operations in the greener direction.

4. ExxonMobil to Build CCS-Equipped Gas Plant for Texas Data Centers

Exxon Mobil is planning a new natural gas power plant in Texas, specifically designed to supply clean electricity to tech firms and data center operators. What sets it apart? The plant will capture over 90% of its CO₂ emissions, making it one of the first major data center power sources with integrated carbon storage. As demand for data and AI grows, this blend of reliable power and CO₂ control marks a major step in greening the digital economy. 

5. New York Launches City-Wide Carbon Mapping Initiative

In a first-of-its-kind move, New York City is developing a detailed map of CO₂ emissions by neighbourhood. The project will track pollution from buildings, traffic, and even household energy use, helping residents and policymakers see where improvements are most needed. The goal? Targeted action and smarter climate policies at the street level.

6. California Invests $1.2 Billion in Carbon Removal Hubs

California has also stated that it will invest a whopping 1.2 billion in developing 2 carbon removal hubs to help it remove CO₂ directly out of the air. These hubs will involve the latest Direct Air Capture (DAC) technology, and are anticipated to add thousands of employment opportunities. This action further solidifies California in its net-zero commitments and places it in the spotlight as being a leader in scaling climate technology.

Intrigued by these developments? There’s plenty more waiting in our CO₂news section.

Final Thoughts

You’re all caught up on what’s shaking the carbon world, but this climate story isn’t over yet. What YOU think, question, or support could spark the next idea.

So don’t just scroll; tell us, which trend surprised you the most, and what innovation do you think the world needs next? Drop it in the comments.

Clean Energy Through Industrial Hydrogen Production

No smoke. No flames. No noise. Just clean energy powering machines that once ran on fossil fuels. Sounds like the future? It’s already here—and hydrogen is making it possible. Industrial hydrogen production is changing how industries like steel, cement, and chemicals operate. In this article, we’ll explore how hydrogen is made on a large scale, the main methods used, and why this invisible fuel is becoming such a big deal.

Industrial Hydrogen Production Methods

Hydrogen may be the clean fuel of the future, but producing it isn’t always clean. The process matters a lot. Today, industries rely on a mix of old and new methods to generate hydrogen at scale. Each one comes with its own balance of cost, carbon, and potential. Let’s take a closer look at the three main methods powering industrial hydrogen production today.

1. Steam Methane Reforming (SMR)

One of the present-day, best-known technologies is steam methane reforming, SMR for short. It works by the process when natural gas is passed through a reaction with high-temperature steam, through which hydrogen is extracted. While the method proves to be both efficient and cost-effective, it also emits a considerable amount of CO₂ into the atmosphere, thus becoming the key driving force of emissions. Such hydrogen is defined as grey hydrogen, a good but not clean fuel.

2. Coal Gasification

A less investigated but a relevant technology is the gasification of coal, a process in which coal is transformed into a gas mixture, from which hydrogen can be extracted. It is mainly used in coal-rich countries. The downside? It is one of the most carbon-intensive methods, and without carbon capture, it’s exacerbating the climate problem rather than reducing it.

3. Water Electrolysis

If there’s one thing that makes hydrogen stand out, it’s its cleanliness, especially when produced via electrolysis and powered by renewable electricity. It operates by using an electric current to split water into hydrogen and oxygen. The result is green hydrogen, which is 100% emission-free. Currently it’s more expensive than fossil-based methods, but electrolysis is getting a big push from falling renewable energy costs and global climate goals.

Why Industrial Hydrogen Production Matters

Hydrogen is already essential to many industries, but how it’s produced will shape its role in a cleaner future. Here’s why it matters:

Supports Heavy IndustriesSectors like steel, cement, and chemical manufacturing depend on high heat and processes that electricity alone can’t handle. Hydrogen offers a practical solution to lower their emissions.

Enables Clean Energy UseGreen hydrogen can store surplus solar or wind energy and transport it where it’s needed, making renewables more reliable and efficient.

Drives Emission ReductionBy replacing fossil fuels in industrial processes, clean hydrogen production can cut millions of tons of CO₂ from the global carbon footprint.

Which hydrogen production method do you think deserves more attention and why? Add your views to the discussion in the comments!