Today, Indian bullion markets witnessed a moderate decline in gold and silver rates, giving buyers a golden opportunity. According to the latest updates from BankBazaar.com, 24K and 22K gold prices have decreased, while silver rates, which were steady at ₹120 per gram, have fallen by ₹1 per gram. Analysts attribute this to global factors, including ceasefire news between Iran and Israel and a stronger US dollar affecting market trends.

Why Checking Gold & silver Prices Today is Crucial

Gold and silver prices fluctuate daily, making it important to track rates before purchasing. On September 8, 2025, gold has dropped by ₹270 per 10 grams, while silver has decreased by ₹1,000 per kg. With June approaching and festive demand increasing, investors and buyers are eager to grab gold at these lower rates. Knowing the exact city-wise rates can definitely help you make informed decisions and maximize your investment.

city-Wise Gold Rates (Per 10 Grams)

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Carbon Capture, Utilization, and Storage (CCUS)

Carbon Capture, Utilization, and Storage (CCUS) is a suite of technologies aimed at mitigating climate change by preventing large quantities of carbon dioxide (CO₂) from entering the atmosphere. Instead of being released as a byproduct of industrial processes or power generation, CO₂ is either captured and stored permanently underground, or utilized to create valuable products. CCUS is increasingly recognized as a crucial component of achieving net-zero emissions goals globally. International Energy Agency

How CCUS Works: A Three-Step Process

CCUS involves three primary stages:

1. Capture

The first step is capturing CO₂ from emission sources. There are three main capture methods:

• Post-Combustion Capture: This is the most common method, removing CO₂ from flue gases *after* fuel is burned. It often uses solvents to absorb the CO₂. U.S. department of Energy
• Pre-Combustion Capture: This involves converting the fuel into a mixture of hydrogen and CO₂ *before* combustion. the CO₂ is then separated, leaving hydrogen to be used as a cleaner fuel.
• Oxy-Fuel Combustion: Fuel is burned in pure oxygen rather of air, resulting in a flue gas that is primarily CO₂ and water vapor, making CO₂ capture easier.

2.transport

Onc captured,the CO₂ needs to be transported to a storage or utilization site. This is typically done via pipelines, but can also involve ships, rail, or trucks. Pipeline transport is generally the most cost-effective for large volumes over long distances. U.S. Environmental Protection Agency

3. Utilization or Storage

This is the final stage, where the captured CO₂ is either permanently stored or used to create new products.

Carbon Utilization: Turning Waste into Value

Carbon utilization, also known as Carbon Capture and Utilization (CCU), focuses on using captured CO₂ as a feedstock for various products. Examples include:

• Enhanced Oil Recovery (EOR): CO₂ is injected into oil reservoirs to increase oil production. While this generates revenue, it’s often debated due to the continued reliance on fossil fuels.
• Building Materials: CO₂ can be used to create stronger and more lasting concrete and other building materials. Carbon Leadership Forum
• Fuels: CO₂ can be converted into synthetic fuels, offering a potential pathway to decarbonize the transportation sector.
• Chemicals and Polymers: CO₂ can be used to produce a range of chemicals and polymers,reducing reliance on fossil fuel-based feedstocks.

Carbon Storage: Securely Locking Away CO₂

Carbon storage, or sequestration, involves injecting CO₂ deep underground into geological formations, preventing its release into the atmosphere. Suitable formations include:

• Deep Saline Aquifers: Porous and permeable rock formations filled with salty water.
• Depleted Oil and Gas Reservoirs: Underground spaces previously holding oil and gas.
• Unmineable Coal Seams: Coal seams that are too deep or thin to be economically mined.

Rigorous monitoring is essential to ensure the CO₂ remains securely stored and doesn’t leak back into the atmosphere. National energy Technology Laboratory

Challenges and Future Outlook

Despite its potential, CCUS faces several challenges:

• High Costs: Capturing CO₂ is energy-intensive and expensive.
• infrastructure Requirements: developing the necessary transport and storage infrastructure requires important investment.
• Public Perception: Concerns about the safety and long-term effectiveness of CO₂ storage need to be addressed.
• Regulatory frameworks: Clear and consistent regulations are needed to support CCUS deployment.

Though, advancements in technology, coupled with increasing policy support and carbon pricing mechanisms, are driving down costs and accelerating CC