Answer the question in maximum 50 words/5 to 6 lines. This question carries 05 marks. [MPPSC 2023] How is geothermal energy used to create electricity?
Conventional Sources of Energy **1. Definition of Conventional Sources of Energy: Conventional Sources of Energy: These are traditional sources of energy that have been used for many years and are primarily derived from natural resources. They are typically non-renewable and have been the primary soRead more
Conventional Sources of Energy
**1. Definition of Conventional Sources of Energy:
- Conventional Sources of Energy: These are traditional sources of energy that have been used for many years and are primarily derived from natural resources. They are typically non-renewable and have been the primary sources of energy for industrialization and economic development.
**2. Types of Conventional Sources of Energy:
- Fossil Fuels: This category includes coal, oil, and natural gas. Fossil fuels are formed from the remains of ancient plants and animals buried under the earth’s surface over millions of years.
- Coal: Used extensively for electricity generation and industrial processes. For example, coal-fired power plants are still a significant source of energy in countries like India and China.
- Oil: Used for transportation fuels such as gasoline and diesel, as well as in various industrial applications. Recent examples include the major oil-producing countries like Saudi Arabia and the U.S.
- Natural Gas: Utilized for electricity generation, heating, and as an industrial feedstock. The United States and Russia are among the top producers of natural gas.
- Nuclear Energy: Generated through nuclear fission reactions, where atomic nuclei are split to release energy. This energy is used to produce electricity in nuclear power plants.
- Recent Examples: Countries like France and the United States rely heavily on nuclear energy. France, for instance, generates around 70% of its electricity from nuclear power.
**3. Advantages of Conventional Sources:
- High Energy Density: Fossil fuels and nuclear energy have high energy densities, meaning they can produce large amounts of energy from a small volume or mass.
- Established Infrastructure: Extensive infrastructure exists for the extraction, processing, and utilization of conventional energy sources.
- Reliability: Conventional sources generally provide a stable and reliable supply of energy.
**4. Disadvantages of Conventional Sources:
- Environmental Impact: Fossil fuels contribute significantly to air pollution and greenhouse gas emissions, leading to global warming and climate change. For example, coal combustion releases large amounts of CO2 and other pollutants.
- Resource Depletion: Conventional sources are finite and will eventually be depleted. For instance, the extraction of oil and gas can lead to resource exhaustion and environmental degradation.
- Nuclear Risks: While nuclear energy produces low greenhouse gas emissions, it poses risks such as radioactive waste and potential nuclear accidents. The 2011 Fukushima Daiichi disaster in Japan highlighted these risks.
**5. Recent Examples and Trends:
- Shift Towards Renewable Energy: There is a growing trend towards renewable energy sources such as solar, wind, and hydro power to reduce dependence on conventional sources and mitigate environmental impacts. For example, Germany’s Energiewende policy aims to transition from fossil fuels to renewable energy.
- Technological Advancements: Innovations in carbon capture and storage (CCS) technology are being explored to reduce the environmental impact of fossil fuels. Similarly, advancements in nuclear technology, such as small modular reactors (SMRs), are being researched to enhance safety and efficiency.
**6. Conclusion:
- Summary: Conventional sources of energy, including fossil fuels and nuclear energy, have been the cornerstone of industrial development and economic growth. However, their environmental impact and finite nature highlight the need for a transition to more sustainable and renewable energy sources. The ongoing advancements in energy technology and policy shifts towards renewable energy reflect the global effort to address these challenges.
Geothermal energy is derived from the heat stored within the Earth. This heat can be harnessed to generate electricity through various methods, leveraging the Earth's natural geothermal activity. The process of generating electricity from geothermal energy involves several key steps and technologiesRead more
Geothermal energy is derived from the heat stored within the Earth. This heat can be harnessed to generate electricity through various methods, leveraging the Earth’s natural geothermal activity. The process of generating electricity from geothermal energy involves several key steps and technologies.
Key Points:
Conclusion
Electricity generation from geothermal energy involves harnessing the heat from beneath the Earth’s surface through various methods such as dry steam, flash steam, and binary cycle plants. Recent examples like The Geysers, Hellisheiði Power Station, and Krafla Geothermal Power Plant showcase the practical applications and benefits of geothermal energy. While geothermal power offers significant advantages such as sustainability and low emissions, it also presents challenges related to location, cost, and potential seismic impacts. Overall, geothermal energy plays a crucial role in the global shift towards renewable energy sources and contributes to a more sustainable and stable energy supply.
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