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• Batteries: 1. Batteries in Various Applications: Batteries, with a focus on advanced lithium-ion batteries, have become integral in a wide range of applications, revolutionizing the way we store and use energy. Their versatile applications extend to several sectors, including Transportation, Grid Applications. played important role in growth of electric vehicles (EVs) and hybrid vehicles. Advanced lithium-ion batteries with high energy density and rechargeability provide the power source for these vehicles. The transition of electric word is a important step towards achieving sustainability climate change. They serve as a crucial component in energy storage systems, allowing excess energy generated from sources like wind and solar to be stored and used during periods of high demand or low renewable energy availability. 2. Decarbonization Potential: Batteries make it easier to integrate renewable energy sources into the system. They maintain a continuous supply of electricity when the sun isn't shining, and the wind isn't blowing by storing extra energy created during periods of strong renewable output. Batteries can react quickly to changes in electricity demand and supply, this gives significant tools for preserving greed stability to grid operators. The capacity of batteries to store excess electricity generated by intermittent renewables such as solar and wind helps to avoid curtailment and ensures that this energy is available when needed, decreasing waste and increasing the exploitation of renewable resources. 3. ROI Evaluation: Evaluating the return on investment (ROI) for battery technologies is a multifaceted process, considering various factors, example Upfront Costs, Lifespan, Efficiency, Scalability, Revenue Streams, Market Demand, Technological Advancements. DOWNLOAD- https://www.marketsandmarkets.com/industry-practice/RequestForm.asp • Carbon Capture, Utilization, and Storage (CCUS): 1. Application: Carbon Capture, Utilization, and Storage technologies have emerged as an important weapon in the global fight against climate change. CCUS refers to a set of strategies that capture and store carbon dioxide emissions from industrial operations or power generation, keeping them from being released into the atmosphere. 2. Decarbonization Potential: Many industries, such as steel, cement, and petrochemicals, heavily rely on fossil fuels for their processes, making direct decarbonization a formidable challenge. One of the most promising applications of CCUS is in the production of low-carbon hydrogen. Gray or blue hydrogen processes involve the use of natural gas, which typically emits CO2. 3. ROI Evaluation: Companies interested in implementing CCUS technologies need to assess the costs involved, which can vary significantly based on factors such as the source of CO2 emissions, capture technology, and transportation and storage methods. • Renewable Natural Gas (RNG): 1. Application: RNG, also known as biomethane, is produced from organic waste sources such as landfills, wastewater treatment plants, or agricultural waste. It can be used as a low-carbon substitute for fossil natural gas. 2. Decarbonization Potential: RNG offers an opportunity to decarbonize the natural gas sector by replacing fossil natural gas with a renewable alternative. It can be used for heating, power generation, and as a transportation fuel. 3. ROI Evaluation: Companies should consider factors such as the availability and cost of feedstock, production technology, distribution infrastructure, market demand, and policy support for RNG. The potential revenue streams from selling RNG, along with any incentives or carbon credits, should also be considered when evaluating ROI. READ MORE- https://www.marketsandmarkets.com/industry-practice/hydrogen/hydrogen-technology-solutionshttps://www.marketsandmarkets.com/industry-practice/hydrogen/green-hydrogen-low-carbon-technologies
