Dear UPSC aspirants, today’s current affairs feature a revolutionary development that is crucial not only for the environment but also for agriculture. Ongoing research led by the Indian Institute of Soil Science (IISS), Bhopal, has revealed that fly ash from thermal power plants is not just an environmental burden, but can also be an effective means to enhance agricultural productivity.
Fly Ash: From Industrial Waste to Agricultural Revolution
NTPC’s Ambitious 10-Year Project
The National Thermal Power Corporation (NTPC) launched a decade-long scientific study on the use of fly ash in agriculture in 2021. This research, led by the Indian Institute of Soil Science, is being conducted at five major centers across the country: Bhopal, Jhansi, Bhubaneswar, Delhi, and Mohanpur (West Bengal).
Soil Diversity and Positive Results
The study examined the impact of fly ash on different soil types:
Bhopal: Black clayey soil (Vertisol)
Jhansi: Loamy soil
Bhubaneswar: Red-yellow laterite soil
Delhi and Mohanpur: Alluvial soil
Notably, areas with alluvial soil showed a significant increase in paddy yields.
Nutrients in Fly Ash: Nature’s Treasure
Presence of 16 Essential Nutrients
Fly ash contains a total of 16 nutrients essential for plant growth:
Major nutrients:
Phosphorus (P)
Calcium (Ca)
Potassium (K)
Magnesium (Mg)
Sulfur (S)
Micronutrients:
Iron (Fe)
Manganese (Mn)
Zinc (Zn)
Copper (Cu)
Boron (B)
Cobalt (Co)
Improvement in Soil Quality
Fly ash significantly improves the physical and chemical properties of soil:
pH Balance: Acts as a natural buffer for acidic soils
Water Retention Capacity: Increases soil’s ability to retain water
Silt Content: Especially increases silt in black clayey soils
Porosity: Improves soil porosity
Research Results: The Numbers Speak
Yield Increase by up to 30%
According to former NTPC DGM S.M. Chaubey, experiments conducted over two years near the Unchahar plant in Uttar Pradesh recorded up to a 30% increase in wheat and paddy yields. This growth was observed in various crops:
Wheat (Triticum aestivum): Up to 25% increase in production
Paddy: Maximum benefit in alluvial soils
Pulses: Notable improvement in chickpea
Vegetables: Higher yields in tomato, potato, onion
Economic Benefits for Farmers
Farmers using fly ash have seen the following economic benefits:
15–20% reduction in chemical fertilizer requirement
Significant reduction in input costs
Higher profit per acre
Improved long-term soil fertility
Status of Fly Ash in India
Production and Challenges
India currently produces about 226 million tonnes of fly ash annually, a figure that is steadily rising and reached 500 million tonnes by 2022–23. Main challenges include:
Disposal of massive quantities
Risk of environmental pollution
Negative impact on land and water resources
Lack of proper utilization technology
Contribution of CSIR-AMPRI Bhopal
CSIR-Advanced Material Process Research Institute (AMPRI), Bhopal, has been researching the agricultural use of fly ash since 1992. The institute has demonstrated successful applications at various thermal power stations across the country.
Fly Ash Soil Amendment Technology (FASAT)
Patented Technology by CSIR-CIMFR
CSIR-Central Institute of Mining and Fuel Research (CIMFR) has developed the patented Fly Ash Soil Amendment Technology (FASAT). Features of this technology:
Fly Ash: 80–95% by weight
Phosphatic Rock: 3–10% by weight
Potassium Chloride: 0.5–4.0% by weight
Urea: 0.5–5.0% by weight
Humic Acid: 0.3–1.0% by weight
Social Benefits
Key benefits of FASAT technology:
15–60% increase in crop production
Improvement in physical and chemical properties of soil
Enhanced nutritional quality of crops
Reduced pest infestation
Residual effect lasts 4–5 years
Impact of Fly Ash on Different Soils
Black Clayey Soil (Vertisol)
According to ongoing research in Bhopal, key issues with black clayey soil include:
Shrinking when dry and swelling when wet
Low water permeability
Hard structure
Adding fly ash results in:
Increased silt content
Improved soil structure
Balanced water retention
Improvement in Sandy Soil
Benefits of fly ash in sandy soils:
Increased water retention: from 0.38 to 0.53 cm/cm
Reduced nutrient loss
Improved soil structure stability
Future Prospects and Challenges
New Areas of Application
Future uses of fly ash:
In agriculture:
Special use for fiber crops
Cultivation of ornamental plants
Extensive use in horticultural crops
Support for organic farming
Environmental benefits:
Solution to dumping site problems
Reduced groundwater pollution
Lower carbon footprint
Development of sustainable agriculture
Precautions and Limitations
Necessary precautions in using fly ash:
Quantity control: Excess use (40–50%) can be harmful
Heavy metals monitoring: Regular testing required
Soil testing: Use according to local soil conditions
Long-term effects: Need for ongoing study
India in the Global Context
International Comparison
India ranks fourth globally in fly ash production:
Russia
USA
China
India
NTPC Initiatives
Major NTPC initiatives:
Export of fly ash to the Middle East and other regions
Transportation via railway networks
Collaboration with cement manufacturers
Annual production of 60 million fly ash bricks
Why this matters for your exam preparation
Importance for UPSC Environment and Ecology
Direct exam-related aspects:
Environmental pollution and solutions: Fly ash is an excellent example of industrial waste management and illustrates the principle of a circular economy.
Sustainable agriculture: This topic is directly linked to Sustainable Development Goals (especially SDGs 2, 6, 12, 15).
Soil science: Different soil types (Vertisol, Alluvial, Laterite) and their properties are key parts of UPSC Geography.
Current Affairs and Policy Implications:
Role of national institutions: Contribution of IISS Bhopal, NTPC, and CSIR institutes
Research and development: Importance of R&D in government policy
Farmer welfare: Reduced agricultural costs and increased productivity
Useful for Essay Writing:
The concept of "Waste to Wealth"
Balance between environment and economy
Practical application of scientific research
India’s technological capacity and innovation
Preparation for Mains Questions:
This topic is helpful for questions such as:
"Challenges and solutions in industrial waste management in India"
"Role of scientific innovation in increasing agricultural productivity"
"Synergy between environmental protection and economic development"
Prelims Facts:
Establishment of Indian Institute of Soil Science: 1988, Bhopal
Full form and status of NTPC
Types and distribution of different soils
Nutrients present in fly ash
