- Home
- Prelims
- Mains
- Current Affairs
- Study Materials
- Test Series
SATAT - PPP 100 - PRELIMS 2024 - 9
1. SATAT Scheme (Sustainable Alternative Towards Affordable Transportation)
SATAT Scheme: The SATAT Scheme, which stands for Sustainable Alternative Towards Affordable Transportation, is an initiative led by the Government of India. Its primary objective is to establish Compressed Biogas production facilities and make this eco-friendly fuel available for automotive use. The government aims to achieve this by inviting expressions of interest from potential investors.
Launched in October 2018, the SATAT Scheme is a collaborative effort between the Ministry of Petroleum and Natural Gas and several oil-related public sector units, including Bharat Petroleum Corporation and Hindustan Petroleum Corporation.
This scheme plays a crucial role in upholding India’s commitment to reducing carbon emissions and fulfilling international agreements such as the Paris Agreement.
Compressed Biogas (CBG)
Compressed Biogas (CBG) is a sustainable and renewable fuel derived from the anaerobic decomposition of organic materials such as agricultural residues, food waste, animal dung, and sewage.
The anaerobic digestion process involves the breakdown of these organic materials in an oxygen-free environment, resulting in the production of biogas as a byproduct.
Biogas is primarily composed of methane (CH4) and carbon dioxide (CO2), with smaller quantities of other gases.
Following the production of biogas, it can undergo further purification and compression to become Compressed Biogas (CBG), which shares similar properties and applications with Compressed Natural Gas (CNG).
CBG serves as an alternative fuel suitable for a variety of applications, primarily as a cleaner and more environmentally friendly substitute for conventional fossil fuels.
Advantages of Compressed Biogas (CBG)
- Renewable Energy Source: CBG is generated from organic waste materials, making it a sustainable energy source that reduces reliance on fossil fuels and supports the transition to more sustainable energy options.
- Lower Greenhouse Gas Emissions: CBG exhibits reduced greenhouse gas emissions compared to traditional fossil fuels like diesel and petrol. It is recognized as a cleaner-burning fuel, resulting in decreased carbon dioxide and other detrimental emissions.
- Efficient Waste Management: CBG production promotes efficient waste management by utilizing organic waste materials that might otherwise contribute to environmental pollution. It effectively converts waste into a valuable resource.
- Improved Air Quality: When used as a fuel, CBG produces fewer pollutants, leading to enhanced air quality and decreased emissions of particulate matter, which can harm human health.
- Versatile Applications: CBG can be employed as fuel in various applications, including transportation (buses, cars, trucks), industrial processes, and power generation.
- Enhanced Energy Security: By endorsing CBG usage, nations can diminish their dependence on imported fossil fuels, thereby bolstering energy security and curtailing foreign exchange expenditures.
- Income Opportunities: CBG production can create additional income avenues for farmers and agricultural communities. Organic waste materials can be repurposed for biogas generation, resulting in improved waste management and nutrient recycling.
The adoption of Compressed Biogas (CBG) as an alternative fuel aligns with global endeavors to combat climate change, reduce environmental pollution, and promote sustainable development.
How is CBG different from Compressed Natural Gas(CNG)?
- Chemically, CBG is the same as CNG — both are compressed methane — and have the same calorific value.
- But, CNG is a by-product of petroleum, and CBG can be produced from any biomass, be it crop residue, cattle dung, sugarcane press mud, municipal wet waste, or effluents from a sewage treatment plant.
- Hence, this makes CBG a commercially viable option as it can be directly used to replace CNG in transportation fuel. Just like CNG, CBG too can be transported through cylinders or pipelines to retail outlets.
Overview of the SATAT Scheme
The SATAT scheme is designed with the following key objectives in mind:
- Utilizing Over 62 Million Metric Tonnes of Waste: It seeks to harness the potential of more than 62 million metric tonnes of waste generated annually.
- Reducing Dependence on Imported Fuel: SATAT aims to reduce India’s dependence on imported fuels.
- Job Creation: By promoting the alternative fuels industry, the scheme aims to create more job opportunities.
- Cutting Carbon Emissions: It contributes to the reduction of carbon emissions and pollutants caused by the burning of agriculture and organic waste.
Biogas is naturally produced through the anaerobic decomposition of waste or other biomass sources. Compressed Biogas, a product of this process, shares similar properties with commercially available natural gas in terms of composition and energy potential. Therefore, it can serve as an alternative energy source for automobiles.
Given India’s abundant biomass resources, Compressed Biogas has the potential to replace natural gas in various industrial and commercial applications.
Benefits of the SATAT Scheme
The Sustainable Alternative Towards Affordable Transportation, facilitated by Compressed Biogas (CBG), offers several advantages, including:
- Responsible Waste Management: Effective reduction of carbon emissions through responsible waste management.
- Additional Income for Farmers: Creation of additional income streams for farmers by utilizing agricultural waste.
- Rural Entrepreneurship and Employment: Promotion of rural entrepreneurship, economic growth, and employment opportunities.
- Supporting Climate Change Goals: Contribution to national-level climate change mitigation efforts.
- Stability Amid Fuel Price Fluctuations: Providing a buffer against fluctuations in crude oil and natural gas prices.
Implementation of SATAT
- The primary implementation method of SATAT involves entrepreneurs proposing the establishment of Compressed Biogas plants. These plants will produce CBG, which will be transported in cylinders to fuel stations across the country.
- Entrepreneurs will have the opportunity to market other by-products generated by these plants, such as bio-manure and carbon dioxide, to enhance their returns on investment.
- The government has plans to establish approximately 5,000 CBG plants across the country in a phased manner, with the ultimate goal of achieving this by 2025. These plants are expected to produce about 15 million tons of Compressed Biogas annually, generating employment for around 45,000 people.
2. Gabon’s Debt-for-Nature Swap Initiative
In a significant move towards environmental conservation, the central African nation of Gabon has recently made headlines by launching a debt-for-nature swap initiative. This innovative approach has gained popularity in recent times, with Gabon following the footsteps of countries like Ecuador, which previously struck a massive deal of its own. Gabon is the fourth country to partner with TNC on a Blue Bonds project after Seychelles, Belize and Barbados.
Under the debt-for-nature swap, Gabon has agreed to a deal with the Bank of America, the US International Development Finance Corporation (USDFC) and The Nature Conservancy (TNC), to refinance $500 million in national debt toward marine conservation efforts in the country. This is the fourth project under TNC’s “Blue Bonds for Ocean Conservation” strategy.
Understanding Debt-for-Nature Swaps
A debt-for-nature swap is a financial mechanism where creditors extend debt relief to developing countries in exchange for their commitment to take significant steps towards preserving the environment. These steps can include initiatives such as decarbonizing the economy, investing in climate-resilient infrastructure, or safeguarding biodiverse ecosystems like forests and reefs. The main goal is to channel the saved resources from debt relief towards conservation efforts.
The Visionary behind Debt-for-Nature Swaps
The concept of debt-for-nature swaps was first conceived by the late “godfather of biodiversity,” Thomas Lovejoy, in the 1980s. His visionary idea proposed a win-win situation for both countries and conservationists, ensuring that financing supports environmental preservation without compromising economic development.
Boosting Gabon’s Conservation Efforts
Gabon’s decision to embrace a debt-for-nature swap comes as a testament to its commitment to protecting its precious natural resources. Almost one-third of the world’s endangered leatherback turtles find their habitat in the nation’s beaches and coastal waters. By opting for a debt-for-nature swap, Gabon aims to secure a sustainable financial stream that will aid in the conservation of these vital ecosystems.
The Role of Blue Bonds
As part of the debt-for-nature swap, Gabon will receive an eco-friendly blue bond in exchange for at least $450 million of its government debt. These blue bonds are an innovative financial instrument that aligns with sustainable development objectives, making them an ideal fit for conservation-oriented initiatives.
Learning from Ecuador’s Success
Before Gabon, Ecuador set a remarkable precedent with the largest debt-for-nature swap deal to date, amounting to a staggering $1.6 billion. This visionary deal has freed up substantial financial resources, around $18 million annually for two decades, supporting the conservation efforts of the renowned Galapagos Islands.
Impact and Future Prospects
Gabon’s debt-for-nature swap has the potential to significantly enhance the nation’s environmental resilience while fostering a more sustainable future. By freeing up fiscal resources through debt relief, the government can prioritize conservation projects without compromising on other development priorities.
3. PYQs
1. In the context of alternative sources of energy, ethanol as a viable bio-fuel can be obtained from: [2009]
(a) Potato
(b) Rice
(c) Sugarcane
(d) Wheat
Explanation
Ethanol is an alcohol-based fuel that is mostly produced by the fermentation of sugarcane juice and molasses. Because it is a clean, affordable and low-carbon biofuel, sugarcane ethanol has emerged as a leading renewable fuel for the transportation sector. The largest single use of ethanol is as an engine fuel and fuel additive.
2. According to India’s National Policy on Biofuels, which of the following can be used as raw materials for the production of biofuels? [2020]
- Cassava
- Damaged wheat grains
- Groundnut seeds
- Horse gram
- Rotten potatoes
- 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
Explanation
National Policy on Biofuels 2018
- The Policy categorizes biofuels as "Basic Biofuels" viz. First Generation (1G) bioethanol & biodiesel and "Advanced Biofuels" -
- Second Generation (2G) ethanol, Municipal Solid Waste (MSW) to drop-in fuels, Third Generation (3G) biofuels, bio-CNG, etc.
- To enable the extension of appropriate financial and fiscal incentives under each category.
- Under the National Policy on Biofuels ‘bioethanol’ is defined as ethanol produced from biomass such as sugar-containing materials, like sugar cane, sugar beet, sweet sorghum, etc.
- Starch containing materials such as corn, cassava, rotten potatoes, algae, etc.
- Damaged food grains like wheat, broken rice, etc. are unfit for human consumption.
- And, cellulosic materials such as bagasse, wood waste, agricultural and forestry residues, or other renewable resources like industrial waste.
- For Ethanol Production the following raw materials may be potentially used: B-Molasses, Sugarcane juice, biomass in form of grasses.
- For Biodiesel Production: Non- edible Oilseeds, Used Cooking Oil (UCO), Animal tallow, Acid Oil, Algal feedstock, etc.
- For Advanced Biofuels: Biomass, MSW, Industrial waste, Plastic waste, etc.