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Subject: Nuclear Energy Technology

  • The fusion energy programme in India has steadily evolved over the past few decades. Mention India’s contributions to the international fusion energy project International Thermonuclear Experimental Reactor (ITER). What will be the implications of the success of this project for the future of global energy?

    Nuclear energy contributes approximately 3.1% to India’s total electricity generation, with an installed capacity of 8,880 MW.

    Evolution of Fusion Energy Programme in India

    The Early Phase (1950s-1980s): India was one of the first countries to announce a national fusion programme at the 1955 Geneva Conference.

    Indigenous Technology (1980s-2000s):

    Establishment of the Institute for Plasma Research (IPR) in 1986.

    Built its first indigenous tokamak ADITYA in 1989.

    Followed by the SST-1 (Steady-State Superconducting Tokamak)

    Global Integration (2005-Present): India joined ITER in 2005 as a full partner. Today, ITER-India manages India’s commitments, involving major industrial players like L&T and BHEL.

    India’s Contributions to ITER

    India is responsible for 9.1% of the construction cost (approx. $2.2 billion)

    The Cryostat: high-vacuum pressure chamber (30m*30m), designed to insulate the ultra-hot plasma from the outside world.

    In-Wall Shielding: India supplied 4,500 blocks of borated and ferritic steel to protect the reactor from neutron radiation.

    Cooling Water Systems: Responsible for the complex heat rejection systems required to manage the thermal load.

    Cryolines: Development of specialized pipelines to transport liquid helium at -269°C.

    Implications of Success for Future Global Energy

    Unlimited Fuel Supply: Fusion uses Deuterium (from seawater) and Tritium (from Lithium). One liter of seawater provides energy equivalent to 300 liters of gasoline.

    Unlike solar/wind, fusion provides a constant power supply without $CO_2$ emissions, vital for the Global Net Zero goals.

    Inherent Safety: There is no risk of a “meltdown.” If the plasma is disturbed, the reaction simply ceases instantly.

    Minimal Waste: It produces no long-lived high-level radioactive waste as plant components can be recycled within 100 years.

    High Energy Density: A fusion plant requires significantly less land than a solar farm to produce the same Terawatt-hours of energy.

    Geopolitical Stability: Energy “resource wars” could end, as the fuel (Deuterium/Lithium) is distributed globally, unlike oil or gas.

    Space Exploration: Compact fusion technology could revolutionize deep-space travel by providing high-thrust, long-duration propulsion.

    Technological Spin-offs: Research for ITER has already advanced superconducting magnets (used in MRIs) and high-power microwave technologies.

    Thus, fusion technology can help in transitioning from the Age of Combustion to the Age of Fusion.

  • 12 Years of India’s Scientific Transformation

    Why in the news?

    Union Minister Jitendra Singh highlighted the major achievements of India’s science and technology ecosystem over the last 12 years.

    Bioeconomy Growth

    • India’s bioeconomy expanded from about USD 10 billion (2014) to over USD 190 billion (2026).
    • Target: USD 300 billion by 2030.
    • Growth driven by innovations in Biotechnology, Genomics, Diagnostics, and Biopharmaceuticals.
    • Supported by the BioE3 Policy Framework.

    Space Sector Achievements

    • Space economy grew to around USD 8 billion and is projected to reach USD 45 billion in the next decade.
    • Space startups increased from single digits to over 400.
    • Major milestones: Chandrayaan-3 became the first mission to land near the Moon’s south pole. Gaganyaan preparations underway.
    • Future goals: Bharatiya Antariksh Station by 2035. Indian Moon landing by 2040.

    Weather and Climate Services

    • Weather radars increased from 17 (2014) to nearly 50 operational radars.
    • Another 50 radars planned under Mission Mausam.
    • Forecast coverage expanded from 300 cities to nearly 1,700 locations.
    • Expansion of Lightning detection systems, Rain-monitoring infrastructure, and Nowcast services for short-term forecasts.
    • Mission Mausam: Initiative aimed at strengthening India’s weather forecasting and disaster resilience capabilities through modern observation and prediction systems.

    Biotechnology and Healthcare

    • India emerged as a global biotechnology hub.
    • Advances include Affordable CAR-T cell therapy, Genomics and precision medicine, Next-generation antibiotics, and Indigenous diagnostics and vaccines.
    • India’s COVID-19 vaccines showcased domestic scientific capability.

    CSIR Innovations

    The Council of Scientific and Industrial Research (CSIR) expanded its outreach through:

    • Aroma Mission promoting high-value aromatic crops.
    • Steel slag road technology converting industrial waste into road-building material.
    • Technologies in healthcare, energy, infrastructure, and manufacturing.

    Deep Ocean Technologies

    • Development of Matsya 6000, India’s manned submersible.
    • Development of Varaha, an indigenous deep-sea mining system.

    Major Scientific Initiatives

    • Anusandhan National Research Foundation (ANRF)
    • National Quantum Mission
    • National Supercomputing Mission
    • Research Development and Innovation (RDI) Fund
    • National Geospatial Policy

    Nuclear Energy Reforms

    • Opening of the nuclear energy sector to greater private participation.
    • Expected to boost Investment, Innovation, and Capacity creation.

    [2022] Which one of the following is the context in which the term “qubit” is mentioned?

    [A] Cloud Services

    [B] Quantum Computing

    [C] Visible Light Communication Technologies

    [D] Wireless Communication Technologies

  • Who among the following discovered heavy water

    Who among the following discovered heavy water?

  • In the year 2007, an earthquake led to massive radioactive water leakage in the largest nuclear plant in the world. In which country did it occur

    In the year 2007, an earthquake led to massive radioactive water leakage in the largest nuclear plant in the world. In which country did it occur?

  • The function of heavy water in a nuclear reactor is to

    The function of heavy water in a nuclear reactor is to?

  • To meet its rapidly growing energy demand, some opine that India should pursue research and development on thorium as the future fuel of nuclear energy. In this context, what advantage does thorium hold over uranium

    To meet its rapidly growing energy demand, some opine that India should pursue research and development on thorium as the future fuel of nuclear energy. In this context, what advantage does thorium hold over uranium?
    1. Thorium is far more abundant in nature than uranium.
    2. On the basis of per unit mass of mined mineral, thorium can generate more energy compared to natural uranium.
    3. Thorium produces less harmful waste compared to uranium.
    Which of the statements given above is/are correct?

  • With reference to radioisotope thermoelectric generators (RTGs), consider the following statements

    With reference to radioisotope thermoelectric generators (RTGs), consider the following statements:
    1. RTGs are miniature fission reactors.
    2. RTGs are used for powering the onboard systems of spacecrafts.
    3. RTGs can use Plutonium-238, which is a by-product of weapons development.
    Which of the statements given above are correct?