Largest floating solar PV Project at Vishakhapatnam

• The National Thermal Power Corporation (NTPC ) Ltd,  has commissioned the largest floating solar PV project of 25MW on the reservoir of its Simhadri thermal station in Visakhapatnam, Andhra Pradesh.
• This is also the first solar project to be set up under the Flexibilisation Scheme, notified by the Government of India in 2018.
• The Solar PV project was inaugurated today by Shri Sanjay Madan, RED (WR2 & SR), NTPC.
• The floating solar installation which has a unique anchoring design is spread over 75 acres in an RW reservoir. This floating solar project has the potential to generate electricity from more than 1 lakh solar PV modules.
• This would not only help to light around 7,000 households but also ensure at least 46,000 tons of CO2e are kept at arm’s length every year during the lifespan of this project.
• The project is also expected to save 1,364 million litres of water per annum. This would be adequate to meet the yearly water requirements of 6,700 households.
• The 2000MW coal-based Simhadri Station is the first power project to implement an open sea intake from the Bay of Bengal which has been functional for more than 20 years.
• NTPC is also planning to set up a hydrogen-based microgrid system on a pilot basis at Simhadri.
• With a total installed capacity of 66900 MW, NTPC Group has 71 Power stations including 29 Renewable projects. NTPC has set a target to install 60 gigawatts (GW) of renewable energy (RE) capacity by 2032. NTPC is also India's first energy company to declare its energy compact goals as part of the UN High-level Dialogue on Energy (HLDE).
• The group has over 17 GW of capacity under construction, including 5 GW of renewable energy projects. Uninterrupted supply of electricity through environment-friendly energy projects at affordable prices has been the hallmark of NTPC.

Why in News? Earthquake Observatories in India

• India is going to have 35 more earthquake Observatories by end of this year and 100 more such Observatories in the next five years.
• In the last six and a half decades since Independence, the country had only 115 Earthquake Observatories but now, there is going to be a quantum leap in the number of Earthquake Observatories in the country.
• The Indian subcontinent is considered one of the world's most disaster-prone areas in terms of earthquakes, landslides, cyclones, floods, and tsunamis.

What is an Earthquake?

• An earthquake is a fault that is a sharp break in the crustal rocks. When lithospheric plates move, the surface of the Earth vibrates (release of Energy and the Energy waves travel in all directions). An earthquake is the sudden release of the Energy in the Earth’s crust that creates seismic waves. 
• The energy accumulation site is identified w deformed rocks caused by tension or compression.
• The subterranean spot at which rocks begin to shift/rupture is the Focus or Hypocenter of Earthquake, whereas the point vertically over the Focus is Epicenter, which experiences the 1st waves and the greatest damage which decreases as we go outwards.
• The waves generated by an Earthquake are called seismic waves recorded by an instrument Seismograph. The magnitude (Energy that is released) of the Earthquake is measured by Richter Scale whereas the intensity (Damage caused) is measured by Mercalli Scale.
• During Earthquake, the rocks in the path of P waves get compressed/ expanded in the direction of propagation so it affects their volume rather than shape. In the case of S waves, it changes the shape and not volume.
• Earthquakes are by far the most unpredictable and highly destructive of all-natural disasters due to their suddenness. Earthquakes that are of tectonic origin have proved to be the most devastating and their area of influence is also quite large than other causes.

Causes of Earthquakes

• Plate Movements: Ex. The Himalayan region has C-C convergence.
• Faulting and Folding: Ex. Bhuj & Latur earthquake.
• Volcanic Eruptions.
• Gaseous Expansion and Contraction inside the Earth
• Hydrostatic pressure (Ex. Reservoir induced) Ex. Koyna Dam Earthquakes in MH.
• Anthropogenic Causes: Mining & drilling.

Types of Earthquakes

• Tectonic EQs: Most common. Generated due to sliding of rocks along fault lines.
• Volcanic EQs: A special class of Tectonic EQ confined to the areas of volcanoes.
• Induced EQs: Occurs in the areas of large reservoirs.

Distribution of Earthquakes in the World

• The World's distribution of Earthquakes coincides very closely with that of volcanoes.
• ~70% of Earthquakes occur in the Circum Pacific belt. ~20% occur in the Meditteranean- Himalayan belt including Asia Minor, Himalayas and parts of Northwest China. Elsewhere Earth's crust is relatively stable and is less prone but not immune to earth tremors.

Earthquake-prone areas in India 

• The entire region covering fourteen states (located in western and central Himalayas, northeast, and parts of the Indo-Gangetic basin) is highly prone to earthquakes.
• Some of the most vulnerable states are J&K, HP, UK, SK and Darjeeling, all NE states.
• The hilly regions are also prone to earthquake-induced landslides. The other seismically active regions of the country include the Gulf of Khambhat and Rann of Kutch in Western Gujarat (1819, 1956, 2001), parts of peninsular India like MH (1967, 1993), the islands of LD and A&N.

Impacts of Earthquake

1) Impact on the ground:

• Slope instability and Landslides or Avalanches (often cause obstructions in the flow of rivers and channels resulting in the formation of reservoirs).
• Liquefaction, Fires in some areas, Deformation on ground surface.
• Fissures on the upper layers of the earth’s crust through which water and other volatile materials gush out, inundating the neighbouring areas.
• Sometimes, rivers also change their course causing floods and other calamities in the affected areas.

2) Impact on

• manmade infrastructure: Damage to settlements, infra, industries.
• On the water: Flash floods, Tsunamis (waves generated by tremors and not an EQ), Hydro-Dynamic Pressure.
• On Biodiversity: Loss of human and animal lives, Robs the population of their material and socio-cultural gains that they have preserved over generations. It renders them homeless, and unemployed, and increases poverty.

Earthquake Disaster Management:

• In our present state of knowledge, earthquakes can neither be prevented nor predicted in terms of their magnitude, or place and time of occurrence. Also, unlike other disasters, the damages caused by them are more devastating.

• So, the most effective measures of risk reduction are pre-disaster mitigation, preparedness & preventive measures. Since it also destroys transport and communication links, providing timely relief to the victims becomes difficult. Hence the above methods should be combined w expeditious & effective rescue and relief actions immediately after the occurrence of the earthquake.
• Establishing earthquake monitoring centres for regular monitoring and fast dissemination of information among the people in the vulnerable areas. The use of GPS can be of great help in monitoring the movement of tectonic plates.
• Preparing a vulnerability map of the country and dissemination of vulnerability risk information among the people.
• Educating the people about the ways and means of minimizing the adverse impacts of disasters.
• Modifying the house types and building designs in the vulnerable areas and discouraging the construction of high-rise buildings, large industrial establishments and big urban centres in such areas.
• Finally, making it mandatory to adopt earthquake-resistant designs and use light materials in major construction activities in vulnerable areas.