CELPIP Practice
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The Fascinating World of Geothermal Energy
Read the following Message
Paragraph A Geothermal energy harnesses heat from the Earth’s core to generate electricity or provide heating. This renewable energy source relies on natural processes like volcanic activity and radioactive decay deep within the planet. In regions like Iceland and New Zealand, geothermal power plants tap into hot water reservoirs or steam to drive turbines. The process is highly efficient, producing minimal greenhouse gas emissions compared to fossil fuels. However, geothermal plants require specific geological conditions, limiting their widespread adoption. Advances in drilling technology are expanding access to deeper, hotter rock layers. This could make geothermal energy a more viable option in areas previously considered unsuitable. Paragraph B The history of geothermal energy dates back centuries, with ancient cultures using hot springs for bathing and cooking. The first geothermal power plant was built in 1904 in Larderello, Italy, marking the start of electricity generation from Earth’s heat. By the mid-20th century, countries with volcanic regions, such as the United States and the Philippines, began developing geothermal facilities. Today, geothermal energy accounts for a small but growing share of global electricity production. Its reliability is a key advantage, as geothermal plants can operate continuously, unlike solar or wind. Yet, high upfront costs for exploration and drilling remain a significant barrier. Paragraph C Geothermal energy offers environmental benefits, but it is not without challenges. Unlike coal or oil, geothermal plants emit negligible carbon dioxide, making them a cleaner alternative. They also use less land than large-scale solar or wind farms. However, drilling can trigger minor seismic activity, raising concerns in some communities. Additionally, geothermal fluids may contain trace amounts of toxic substances like arsenic, requiring careful management. Innovations like closed-loop systems, which recycle water underground, are addressing these issues. These systems reduce environmental risks and improve efficiency, making geothermal energy more sustainable for long-term use. Paragraph D The future of geothermal energy looks promising as technology evolves. Enhanced Geothermal Systems (EGS) are being developed to access heat in areas without natural reservoirs by injecting water into hot rock formations. This could vastly expand geothermal potential worldwide. Governments are also offering incentives to offset high initial costs, encouraging investment. For example, the U.S. Department of Energy funds research to improve drilling techniques. Geothermal energy could play a key role in achieving carbon-neutral goals by 2050. However, public awareness remains low, and more education is needed to promote its benefits over traditional energy sources.
Decide which paragraph, (A) to (D), has the information given in each statement below. Select (E) if the information is not given in any of the paragraphs.
Geothermal energy relies on heat from the Earth’s core and processes like volcanic activity. The first geothermal power plant was established in the United States in the early 20th century. Geothermal plants can cause minor earthquakes due to drilling activities. Closed-loop systems help reduce environmental risks by recycling water underground. Ancient cultures used geothermal energy for industrial manufacturing. Enhanced Geothermal Systems (EGS) aim to access heat in areas without natural reservoirs. Geothermal energy production began in Larderello, Italy, in 1904. Geothermal plants require large land areas compared to solar farms. The U.S. Department of Energy supports research to improve geothermal drilling techniques.