Clean Technology, Meaning, Importance, Adoption, Limitations

18-09-2024

06:30 PM

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Prelims: General Science

Mains: Science and Technology- Developments and their Applications and Effects in Everyday Life.

Clean technology also known as green technology, refers to products, services and processes that utilise renewable materials and energy sources. The significance of clean technology lies in its potential to decarbonise the energy system. By deploying solutions for the storage and applications of renewable energy, clean technology can help mitigate climate risks and advance sustainable development. 

Clean technology is crucial for India for energy security and maintaining high economic growth rates while ensuring ecological sustainability. It promises new industries and jobs creating green GDP, and energising programs like Make in India through renewed manufacturing.

Clean Technological Solutions

Clean technologies are essential for sustainable development and reducing the impacts of climate change. Some key clean technologies include:

Clean Technology

Details

Applications

Fuel cells

- These are electrochemical devices that convert the chemical energy of a fuel (hydrogen, methanol etc.) directly into electricity without any combustion.

- The fuel is oxidised at the anode, while oxygen is reduced at the cathode. The reaction produces electricity, water, and heat.

Vehicles, buildings, electronic devices, etc. 

Solar Photovoltaic cells

- They convert sunlight directly into electricity via the photovoltaic effect using semiconducting materials like silicon, cadmium telluride or thin films.

- When sunlight strikes the cell, the photons are absorbed, exciting electrons which then flow through the material producing current.

Solar-powered irrigation, solar rooftop net metering models, solar parks/highways, etc.

Lithium-ion Batteries

- These are rechargeable batteries, widely used in energy storage systems due to their high energy density, long cycle life, relatively low self-discharge, and no memory effect. 

- They use lithium ions that move between a graphite anode and a lithium metal oxide cathode through an electrolyte. This flow of ions generates current.

Electric Vehicles, grid integration of renewable energy, etc. 

Solid-state Batteries

- They use solid electrodes and a solid electrolyte for higher energy density and safety than the Li-ion batteries.

Electric vehicles and grid storage applications (once commercialised).

Hydrogen Fuel and Green Hydrogen

- Produced by splitting water into hydrogen and oxygen using renewable electricity.

Decarbonise hard-to-abate sectors, store renewable energy and balance the grid.

Electric Vehicles

- Use electric motors powered by large onboard batteries, producing no direct emissions.

Decarbonising the transport sector.

Nuclear Fusion

- Fuses light atomic nuclei at high temperatures, releasing massive amounts of energy.

- In the long run, safe fusion power from reactors like the Tokamak can be a game-changer in meeting massive clean energy needs

Abundant, reliable clean energy (still experimental).

Biofuels

- These are renewable fuels, made from biological sources like plants and animal waste. 

  • Examples: Biodiesel and bioethanol.

- Advanced biofuels are made from non-edible parts of plants or microorganisms using genetic engineering. 

Energy production, transportation, reducing greenhouse gas emissions and enhancing energy security.

Microbial Fuel Cells

- In this, organic matter, generally waste materials, and microbes (bacteria mainly) are used as substrates and electrons are generated through the biochemical reactions.

Underwater and other remote areas monitoring devices, BOD sensing, Green hydrogen production, etc. 

India and Clean Technology

India has implemented numerous policies and programs promoting clean technology adoption to accomplish climate goals.

  • Net zero by 2070 goal: India committed to achieving net zero emissions by 2070 at COP26, and pivoted on renewables expansion, EV transition, energy storage, carbon capture and green hydrogen.
  • India's ambitious targets include achieving 450 GW of installed renewable capacity by 2030, reducing the total projected carbon emission intensity by 45% below 2005 levels, and increasing the share of non-fossil fuel-based electricity generation to at least 50% by 2030
  • Green Hydrogen Mission: Launched in October 2021, the mission aims to establish a robust ecosystem for green hydrogen production and utilisation, targeting 5 million tons of green hydrogen production capacity by 2030.
  • Ethanol Blending Program: To promote biofuels, India mandates ethanol blending in petrol up to 20%, which helps reduce crude oil imports and lower greenhouse gas emissions.
  • Lithium reserves: With lithium being a critical component in battery manufacturing, 
    • India has identified potential lithium deposits in states like Andhra Pradesh, Karnataka, Rajasthan, Tamil Nadu, and Jammu & Kashmir.
  • Solar energy initiatives: Several schemes, including the National Solar Mission, Rooftop Solar Programme, and Solar Park Development Scheme, support the expansion of solar energy infrastructure in India.
  • India's clean energy initiatives:
    • Carbon Credit trading platform: India has approved a carbon trading market to align with its COP26 pledge on capping emissions in key sectors through carbon pricing mechanisms.
  • Government Investments in Clean Technology:
    • Overall $4.3 Billion Green Technology Fund: India announced a fund of over $4.3 billion in the 2023-24 budget towards solar power capacity addition and green hydrogen ecosystem.
  • U.S. Agency for International Development (USAID’s) Assistance to India:
    • Clean energy deployment programs: USAID India initiatives like Partnership to Advance Clean Energy-Deployment (PACE-D) accelerate renewable energy deployment and efficiency improvements across states through technical capacity building.
    • Women’s Entrepreneurship for Clean Tech: USAID’s wPOWER program trains women entrepreneurs on business skills for driving clean energy products adoption and empowerment.

Challenges for Clean Technology Adoption

India's transition towards clean energy adoption faces several challenges as it strives to reshape its energy landscape and meet ambitious renewable energy targets. Here are some key challenges:

  • Financing: The cost burden associated with transitioning from legacy fossil fuel infrastructure to clean energy sources poses a significant financial challenge that needs to be addressed.
    • The high capital costs of renewable energy projects, battery storage solutions and green hydrogen production remain key adoption barriers needing fiscal incentives.
  • Regulatory issues: Challenges like range anxiety in electric vehicles (EVs) and regulatory hurdles affect the higher adoption of EVs in India.
  • Import dependence: India's potential overreliance on the Chinese battery supply chain for EVs poses a risk to the country's energy security and independence.
  • Inefficient energy infrastructure: High transmission and distribution losses in the energy sector prevent decisive investments in renewable energy, keeping discoms tied to existing coal-fired power plants.
  • Policy implementation: Ensuring effective policy implementation, incentives, and regulatory frameworks are crucial for accelerating the adoption of renewable energy technologies in India.
  • Energy access barriers: Approximately 45% of India's base of the pyramid households lack access to electricity, highlighting the need to overcome barriers to rural energy access through market-based mechanisms and partnerships.

Clean Technology UPSC PYQs

Question 1: With reference to ‘fuel cells’ in which hydrogen-rich fuel and oxygen are used to generate electricity, consider the following statements : (UPSC Prelims 2015)

  1. If pure hydrogen is used as a fuel, the fuel cell emits heat and water as by-products.
  2. Fuel cells can be used for powering buildings and not for small devices like laptop computers.
  3. Fuel cells produce electricity in the form of Alternating Current (AC).

Which of the statements given above is/are correct?

  1. 1 only
  2. 2 and 3 only
  3. 1 and 3 only
  4. 1, 2 and 3

Answer: (a)

Question 2: With reference to technologies for solar power production, consider the following statements: (UPSC Prelims 2014)

  1. 'Photovoltaics' is a technology that generates electricity by direct conversion of light into electricity, while 'Solar Thermal' is a technology that utilizes the Sun's rays to generate heat which is further used in the electricity generation process. 
  2. Photovoltaics generates Alternating Current (AC), while Solar Thermal generates Direct Current (DC).
  3. India has a manufacturing base for Solar Thermal technology, but not for Photovoltaics. 

Which of the statements given above is/are correct?

  1. 1 only
  2. 2 and 3 only 
  3. 1, 2 and 3 
  4. None

Answer: (a)

Question 3. According to India’s National Policy on Biofuels, which of the following can be used as raw materials for the production of biofuels? (UPSC-2020)

  1. Cassava
  2. Damaged wheat grains
  3. Groundnut seeds
  4. Horse gram
  5. Rotten potatoes
  6. Sugar beet

Select the correct answer using the code given below:

(a) 1, 2, 5 and 6 only
(b) 1, 3, 4 and 6 only
(c) 2, 3, 4 and 5 only

(d) 1, 2, 3, 4, 5 and 6

Answer (a)

Clean Technology FAQs

Q1. What are clean technologies?

Ans. Clean technologies refer to products, processes, or services that reduce negative environmental impacts through significant energy efficiency, sustainable use of resources, or environmental protection activities. Examples include renewable energy, electric vehicles, green hydrogen, battery storage, smart grids, LED lighting, etc.

Q2. How do clean technologies help the environment?

Ans. By reducing greenhouse gas emissions, improving energy efficiency, lowering air and water pollution, and managing waste sustainably, clean technologies help address climate change, resource depletion, environmental degradation and pollution - making economic growth more sustainable.

Q3. What are some benefits of adopting clean technologies?

Ans. Benefits include reduced operating costs through higher efficiency, improved energy security by using renewable sources, lower health impacts of pollution, new revenue opportunities and jobs in the cleantech sector, compliance with environmental regulations, and positive brand value for early adopters.

Q4. What is the National Hydrogen Mission?

Ans. Launched in 2021, it aims to enable cost-competitive green hydrogen production in India by 2030. It has 4 main strategic pillars - scaling up production and utilization of green hydrogen, R&D, regulations and training.

Q5. What is the National Bioenergy Mission?

Ans. Launched in 2021, it promotes biomass and waste-to-energy technologies for producing biofuels, biogas etc. It mandates scaling up compressed biogas production and supporting entrepreneurs in waste-to-wealth.

Q6. What is the FAME scheme?

Ans. Faster Adoption and Manufacturing of Electric Vehicles (FAME) scheme aims to promote electric mobility. It offers purchase incentives for EVs and develops charging infrastructure. FAME has given a thrust to EV adoption in India.