Energy from Agricultural Waste R & D suggestions By Anand Karve Pune, India

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Presentation transcript:

Energy from Agricultural Waste R & D suggestions By Anand Karve Pune, India

The problem Can we replace imported petroleum with agricultural waste? Present status With annually 120 million tons, or about 80% of the Country’s requirement, petroleum is India’s single largest item of import. It costs us annually about US$112,000 million. Indian farmers generate annually 800 million tons agricultural waste, having >2.5 times as much energy as imported petroleum.

How to mobilize agri-waste Agri-waste has 4500 kcal/kg energy, but it is light, bulky and spread out in millions of farms. How to collect it ? Who bears the cost? If farmers get a fair price for it, they would bring A.W. to the processing factory at their own cost. Currently, 100 factories in Maharashtra convert A.W. into fuel briquettes. 2.5kg briquettes costing Rs.15, have the same energy as 1 litre fuel Rs. 45/litre.

Research Needs Develop machines for making fuel briquettes at farm level for value addition and ease of transport. Design furnaces, cookstoves, kilns etc. for burning biomass briquettes. Briquettes also ideal fuel for steam- and Sterling engines. Upgrade both to suit needs of modern industry, especially decentralized electricity generation.

Decentralized electricity generation Sugar factories use steam turbines to generate their own electricity. Bagasse serves as fuel. Same technology can be used in clusters of 10 to 20 villages, using local A.W. as fuel. Availability of electricity would increase rural business opportunities and employment. Battery powered vehicles to offer freedom from petroleum.

Fuels for i.c.engines: 1.Producer Gas 70% of plant biomass volatilizes at temp. between C to yield pyrolysis gas. Consists mainly of tar vapour, but can be used as cooking and furnace fuel. Producer gas, formed at 700C, contains CO, H 2, CH 4, N 2 & some tar. Can be used as fuel in i. c. engines after filtering out tar. Presence of 50% N 2 in producer gas reduces calorific value.

Research Needs Oven-and-retort process eliminates N 2 from producer gas, but gas has high tar content. Catalysts needed for reducing tar and increasing proportion of combustible gas. Improved internal combustion engines using producer gas as fuel. Process for obtaining oil instead of gas for ease of storage and transport.

2. Charcoal and coal gas Pyrolysis of biomass yields 30% charcoal. Charcoal has no volatiles. Can replace coke in metallurgy. Sponge iron was produced in India 250 years ago by heating charcoal mixed with iron ore. Minerals in charcoal contributed to quality of steel. E.g. rust free iron column in Delhi, Damascus swords and chain mails from Indian steel. Burning charcoal + steam=coal gas CO+H 2 +N 2. Coal gas does not have tar.

Charcoal briquettes from light biomass

Research needs Recover tar during charcoal production. Iron smelting as cottage industry, using charcoal from agri-waste. Grasses yields ash with high silica content. Added to Portland cement or lime mortar, it yields Pozzolana cement. Refine technology. Refine technology of producing coal gas from charcoal. Develop i.c. engines using coal gas. Develop new industrial uses of coal gas.

3. Biogas Anaerobic micro-organisms and methanogens convert digestible org. waste into biogas (60% CH 4, 40% CO 2 and traces of H 2 S and NH 3 ). Lignin not digested in this process. Technology simple and well developed; used both in households & industries. Biogas can serve as fuel in i. c. engines without any processing.

ARTI biogas plant

Research needs I.c. engines and household appliances using biogas as fuel. Reduce size and cost of biogas plants. Fuel cells based on methane from biogas. Rational use of effluent from biogas plant. Genetic improvement in methanogens: tolerance to cold, to low and high pH; ability to digest organic matter like lignin, plastics, petroleum products etc.

General research needs for utilization of biomass Small, off-the-shelf devices for converting waste biomass into high quality fuel and appropriate appliances for using these fuels. Methods of purifying the gaseous fuels. Conversion of gaseous to liquid fuel. Delivery in cylinders for ease of storage and transport. Develop supply chains and delivery mechanisms for commercialising these fuels.

Shouldn’t agri-waste go back to soil? Textbook opinion: Agriculture removes minerals from the soil. Return agri-waste to the field to give them back to the soil. Fact: soil has unlimited supply of minerals. Example: silica. 1m layer of soil can support agriculture for years. Minerals removed from soil get recycled. New soil is continuously being formed from earth’s crust, which is 30 km thick.

Pros and cons of chemical fertilizers Soil minerals have low water solubility, measurable only in PPM or PPB units. Uptake of minerals from such dilute solution is difficult for plants. Chemical fertilizers, being water soluble, are readily taken up by plants. But chemical fertilizer industry is the world’s highest energy consuming industry. Soil fatigue due to chemical fertilizers.

Agriculture without chemical fertilizers Soil microbes more efficient than plants in absorbing soil minerals. Provided with any organic carbon source, soil microbes multiply, taking up minerals directly from soil, and converting them into water soluble cellular components. After exhausting the carbon source, microbes die of starvation to release minerals from their cells. These minerals are taken up by plants.

Suggested research Sugar is a high calorie organic material devoid of minerals. Take a soil sample, estimate NPK content. Incubate soil with sugar for some period. Estimate NPK content after incubation. Study plant growth in soil treated and not treated with sugar. Publish results and get Nobel Prize.

Thank you Anand Karve