Small Modular Reactors (SMRs) represent a significant innovation in nuclear energy technology, designed to produce less than 300 MW of power. These compact reactors are notably smaller, more versatile, and easier to construct than traditional nuclear power plants.
SMRs offer various advantages over conventional reactors:
SMRs typically generate up to 300 MW, while microreactors—an even smaller variant—can produce between 1 to 20 MW. This capability makes them suitable for a range of applications, from large energy grids to isolated communities.
Despite their advantages, SMRs also encounter several challenges:
The Indian government has taken steps to promote SMRs, allocating ₹20,000 crore under the “Nuclear Energy Mission” in the 2024-2025 and 2025-2026 budget speeches. This initiative aims to study SMRs and operationalize five indigenous units by 2033.
SMRs are constructed using a modular approach, with components manufactured separately and then assembled on-site. This method significantly reduces both construction time and costs compared to traditional reactors.
High-Assay Low-Enriched Uranium (HALEU) is crucial for SMRs, containing 5-20% uranium-235. This type of fuel enhances the efficiency of SMR designs, making it integral to their operation.
Microreactors are ultra-small nuclear reactors that can generate between 1-20 MW of power. They are particularly suited for decentralized power needs and remote locations, expanding the potential applications of nuclear energy.
Q1. What are Small Modular Reactors (SMRs)?
Answer: Small Modular Reactors are compact nuclear reactors designed to produce less than 300 MW of power. They are smaller, more flexible, and easier to build compared to traditional nuclear power plants.
Q2. What are the advantages of SMRs over traditional reactors?
Answer: SMRs are cheaper to construct and maintain, can be manufactured in factories and assembled on-site, and offer easier scalability and deployment flexibility compared to conventional reactors.
Q3. What challenges are associated with SMRs?
Answer: The challenges include high initial capital investment, the need for enriched uranium fuel like HALEU, and frequent refueling due to lower operational efficiency from low-grade uranium.
Q4. What is HALEU, and why is it important for SMRs?
Answer: HALEU, or High-Assay Low-Enriched Uranium, is enriched uranium containing 5-20% uranium-235. It is essential for SMRs as it supports their designs for efficient operation.
Q5. What is the significance of microreactors?
Answer: Microreactors are ultra-small nuclear reactors capable of producing 1-20 MW of power, ideal for decentralized energy needs and remote locations, enhancing the utility of nuclear energy.
Question 1: What is the main advantage of Small Modular Reactors (SMRs) over traditional nuclear reactors?
A) Higher power output
B) Lower construction costs
C) Increased operational lifespan
D) More complex technology
Correct Answer: B
Question 2: What is HALEU in the context of nuclear reactors?
A) High-Assay Low-Enriched Uranium
B) High-Altitude Low-Enriched Uranium
C) High-Assay Low-Energy Uranium
D) High-Attribution Low-Enriched Uranium
Correct Answer: A
Question 3: What is one of the primary challenges associated with SMRs?
A) Low energy output
B) High initial capital investment
C) Ease of construction
D) Abundant fuel supply
Correct Answer: B
Question 4: How much power can microreactors generate?
A) 300 MW
B) 1-20 MW
C) 50-100 MW
D) 150 MW
Correct Answer: B
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