Biomass plays a vital role especially in rural areas, as it constitutes the major energy source to majority of households in India, but this resource has been small in terms of scale, when compared to the other green energy sources in India.
Biomass energy is generated through organic matter and can be utilised for various applications, to produce heat and electricity, or used in combined heat and power (CHP) plants; in combination with fossil fuels (co-firing) to improve efficiency and reduce the build up of combustion residues; to replace petroleum as a source for transportation fuels. The sector is highly diverse in nature and classified on the basis of site of origin, as field and plantation biomass, industrial biomass, forest biomass, urban waste biomass, aquatic biomass.
In terms of number, around 32 per cent of the total primary energy used in the country is derived from biomass, while more than 70 per cent of the country´s population depends upon it for its energy needs. However, the pick up has been slow compared to other renewable power sources - especially solar and wind. However, with the Ministry of New and Renewable Energy (MNRE) realising the potential of biomass in the Indian context and having initiated a number of programmes for promotion of efficient technologies for its use in various sectors of the economy, there is tremendous potential to ensure derivation of maximum benefits from this green source.
For efficient utilisation of biomass, bagasse-based cogeneration in sugar mills and biomass power generation have been taken up under the biomass power and cogeneration programme, implemented with the main objective of promoting technologies for optimum use of the country´s biomass resources for grid power generation.
Growth & Potential
In accordance with the fast growing population, the demand for energy and the discharge of waste are increasing day-by-day. To overcome the energy crisis, alternative energy sources are the only remedy. Generation of energy from waste is beneficial in many ways as it is most suitable for eco-friendly waste disposal and also for energy generation.
In any country, an extended scheme for implementation of decentralised waste treatment programmes is necessary. Biogas is one alternative as this technology enables one to produce bio-energy in households by treating wastes generated in the houses. This technology is also made applicable for treating wastes produced in public markets, slaughter houses, hotels, etc and for generating electricity without causing atmospheric pollution.
The availability of biomass in India is estimated at 500 million metric tonnes per year. Studies sponsored by MNRE estimate surplus biomass availability at 120-150 million metric tones p.a., covering agricultural and forestry residues, corresponding to a potential of about 18,000 MW. This apart, about 5,000 MW additional power could be generated through bagasse based cogeneration in the country´s 550 sugar mills, if these sugar mills were to adopt technically and economically optimal levels of cogeneration for extracting power from the bagasse produced by them.
Says Lt. Col Monish Ahuja, Managing Director, Bermaco Energy, ´Biomass power in the country has been growing at CAGR of about 19 per cent since 2006 (MNRE). Of the total biomass installed capacity of 4,000 MW, about 1,365 MW is power generated from various agri-residues while about 2,648 MW has been generated from bagasse-based cogeneration in the country. With revision of tariff in many states such as Bihar, Haryana, Punjab, Rajasthan, Maharashtra etc., many developers are finding it attractive to go ahead with setting up of biomass-based power plants in various states.´
Concurs Dr A Saji Das, Managing Director, Biotech India, ´The main advantage is that no external power is required for the operation of these plant. The power generated can be utilised to meet the in-house requirements. Excess quantity can be utilised for any type of application, like the street lighting, providing lights to the markets etc. Also, with slight variations depending upon the percentage of methane content in biogas, it can be utilised as operation fuel in generators.´
Typically technologies for biomass energy are broadly classified on the basis of principles of thermo chemistry as combustion, gasification, pyrolysis and biochemistry as anaerobic digestion, fermentation and trans-esterification. Each technology has its uniqueness to produce a major calorific end product and a mixture of by-products.
The thermo chemical processes for conversion of biomass to useful products involve combustion, gasification or pyrolysis. The most commonly used route is combustion, the advantage being that it is similar to a thermal plant, except for the boiler. The cycle used is the conventional ranking cycle with biomass being burnt in high pressure boiler to generate steam and operating a turbine with generated steam. The net power cycle efficiencies that can be achieved are about 23-25 per cent. The exhaust of the steam turbine can either be fully condensed to produce power, or used partly or fully for another useful heating activity. The latter mode is called cogeneration. In India, cogeneration route finds application mainly in industries.
Das elaborates, ´There are two types of generators used for producing electricity from biogas. One is the duel fuel model, which is diesel gensets, and the other is a 100 per cent biogas model. In the latter system the biogas is connected to the generator through air mix. Once the biogas is passed through the generator, automatically consumption requirement of the diesel is reduced. Also, no other fuel is required either to even start the operation, and any type of petrol engine can also be modified to be used as a biogas one. As such imported models are very costly and high maintenance, Biotech has developed these indigenously.´
MNRE provides Central Financial Assistance (CFA) in the form of capital subsidy and financial incentives to biomass energy projects in India. CFA is allotted to the projects on the basis of installed capacity, energy generation mode and its application etc.
Financial support will be made available selectively through a transparent and competitive procedure. Besides CFA, fiscal incentives such as 80 per cent accelerated depreciation, concessional import duty, excise duty, tax holiday for 10 years etc., are available for biomass power projects. The benefit of concessional custom duty and excise duty exemption are available on equipments required for initial setting up of biomass projects based on certification by Ministry. In addition, State Electricity Regulatory Commissions (SERCs) have determined preferential tariffs and Renewable Purchase Standards (RPS). Indian Renewable Energy Development Agency (IREDA) provides loan for setting up biomass power and bagasse cogeneration projects.
´The segment is behind wind or solar in terms of attracting investors due to practical difficulties, as not many developers are taking interest in the biomass sector. But nevertheless, many big players such as Tata Power, Reliance Industries Ltd. etc., are planning to enter biomass sector as it has great potential as well as high socio-economic impact particularly on rural economy, Lt Col Ahuja feels.
He further states, ´Only few states like Rajasthan and Madhya Pradesh have a policy for allocation of government waste lands for captive energy plantation for operating biomass power plants. But, inspite of having these policy, no projects in these states have been able to develop energy plantation. There are lot of policy and bureaucratic hurdles such as identification of suitable wasteland, getting no objection certificate from local community (which is biggest hurdle) and long and tedious procedure for allocation of land which considerably delays the project.´
Even for projects where land is allocated, the development work can only be done by Gram Panchayat/joint forest management (JFM) committees with funding from MNREGA scheme. Unfortunately, Gram Panchayat/JFMs are unwilling to work for private developers. Additionally, banks and FIs do not provide debt for these projects as there is no precedence and they view it as highly risky business. Until and unless the Centre and states provide required policy and financial incentives for this sector, energy plantation cannot reach a significant quantum in India.
Some suggestions include that GoI provide incentives or policy modifications like interest rate sub-vention by 2-3 per cent to bring the cost of debt funding to about 10 per cent or less in order which will make projects feasible in the long term; higher subsidy in form of generation based incentive (GBI) which will incentivise the project on achieving high PLF and improve project returns significantly; debt restructuring of old projects, particularly those who have been declared as NPAs or are on verge on becoming one; and provide wastelands to biomass power plants to develop captive energy plantation so that projects can meet at-least 20-30 per cent of their fuel requirement from captive plantation itself.
Dr Das sums this up in one sentence, ´Lack of awareness about the possibilities of the scheme and delay in government approvals are what pose the challenges.´ One of the most critical bottlenecks for biomass plants (based on any technology) is the supply chain bottlenecks that could result in non-availability of feedstock. A related problem is the volatility, or more precisely increase, in the feedstock price. Both these could render the project unviable. There is other concerns and bottlenecks as well such as lack of adequate policy framework and effective financing mechanisms, lack of effective regulatory framework, lack of technical capacity, absence of effective information dissemination and limited successful commercial demonstration model experience.
Adds Lt Col Ahuja, ´Non-uniform norms for determination of tariff for procurement of power across states; highly bureaucratic and lengthy procedures to get benefits of incentives; due to default by many operating plants, banks/FIs are reluctant to provide debt financing to new projects; hoarding of raw material by farmers once they realise the price of resources; requirement of separate manpower and machinery to collect, process and transport biomass to the power plant are some other hurdles.´
With potential to generate an additional 20 GW of electricity from biomass residues, India has the potential to become world leader in power generation for biomass. Lack of biomass energy market has been the primary barrier to the penetration of modern biomass technologies. Growing experience with modern biomass technologies in India suggests that technology push policies need to be substituted or augmented by market pull policies. Increasing realisation among policy makers about positive externalities of biomass has now created conditions for biomass to make inroads into the energy market.
Modern biomass has potential to penetrate in four segments -
i) process heat applications in industries generating biomass waste,
ii) cooking energy in domestic and commercial sectors (through charcoal and briquettes),
iii) electricity generation, and
iv) transportation sector with liquid fuels. Economic reforms have opened the doors for competition in energy and electricity sectors in India. Future of biomass energy lies in its use with modern technologies.
An analysis under competitive dynamics in energy and electric power markets using the Indian-MARKAL model suggests that biomass energy has significant potential to penetrate the Indian energy market under strong global greenhouse gas mitigation scenarios in future. Future of biomass energy depends on providing reliable energy services at competitive cost. In India, this will happen only if biomass energy services can compete on a fair market. Policy priorities should be to orient biomass energy services towards market and to reform the market towards fair competition by internalizing the externalities of competing energy resources. Most economical option is utilisation of waste materials.
GoI´s policies in India during the next decade shall play decisive role in penetration of biomass energy. Global climate change policies shall also have significant influence on future of biomass. Myriad economic, social, technological and institutional barriers remain to be overcome. Future of biomass technologies depends on will and ability to overcome these barriers. A key issue before Indian policy makers is to develop a fair market for biomass energy services.
- JOCELYN FERNANDES
Biogas Tank at Canadian International School
The Canadian International School (CIS) have a biogas plant set-up on campus by students. It took the initiative of two grade 10 students in 2011 to research, purchase, install and start-up a biogas plant to find a way to re-use some of the food waste from the school cafeteria. Despite early impediments, it was a successful venture and for nearly two years, the biogas plant, produced enough fuel to supply the entire staff with tea and coffee on a daily basis. This was affectionately called ´Bio Tea´ and ´Bio Coffee´. The biogas generated was also used to boil potatoes and such vegetables on a regular basis.
In 2013, the school purchased a new plant with a water jacket design and for the past 18 months the new plant has been running successfully. As far as we know, CIS is the only school in South India with a biogas plant of this type, operating. Today the plant serves as a demonstration unit and students regularly visit the plant to learn the process of anaerobic bio-digestion.
It takes up to two-three kgs of food waste per day and generates gas for about one hour of cooking on a single burner, daily.
CIS has always considered it is it´s role to educate students about conserving the environment and to empower them to make a change for a better tomorrow. POWER TODAY spoke to Shweta Sastri, Executive Director - Canadian International School about the same.
What is the capacity and scale of the biomass plant on your premises? What was the reason for choosing biomass?
The biogas tank we have in our premises actually helps provide gas to the school´s cafeteria.
CIS has always been informed about its role to educate students about conserving the environment and to empower them to make a change for a better tomorrow. It took the initiative of two grade 10 students in 2011 to research, purchase, install and start-up a biogas plant to find a way to re-use some of the food waste from the school cafeteria. This biogas plant, produced enough fuel to supply the entire staff with tea and coffee on a daily basis. This was affectionately called ´Bio Tea´ and ´Bio Coffee´. The biogas generated was also used to boil potatoes and such vegetables on a regular basis.
Kindly elaborate on the process involved in installing and commissioning the plant. What were the major challenges?
One of the biggest challenges we faced was in the year 2013, the lid of the plant cracked and the unit set up by the students had to be discarded. The lesson was learnt and the school decided to purchase a new plant, using a different design, known as water jacket. For the past 18 months the new plant has been running successfully and provides gas to a single burner in our cafeteria.
What is the return on investment - monetary and otherwise - generated through this plant, i.e. benefits received v/s capital cost incurred?
We were not looking at commercialisation of the biogas plant, ever since its inception. Our approach towards it was just an extension to the initiative started by our students. We wanted to translate the textual learning to a working piece, which would be a testimony to our motive of conserving the environment and using renewable energy. Today the plant serves as a demonstration unit and students regularly visit the plant to learn the process of anaerobic bio-digestion.
It takes up to two-three kgs of food waste per day and generates gas for about one hour of cooking on a single burner, daily. We are proud of being a 100 per cent food waste recycling school. The school has also got students involved in starting an organic garden, in cooperation with Anadana Farms. We have started producing vegetables such as tomatoes and brinjals (aubergines) as our first crops. We use only ´organic´ methods and most of the garden work is done by our students.
What according to you is the potential of this field in India? What kind of evolution is needed to push this green sector forward?
Biogas is an eco-friendly approach towards the massive energy consumption the world is facing.
It´s an organic way to generate heat and electricity from the waste, which results in the production of biogas.
We need to create more awareness on the benefits of using renewable energy. Efforts from the government to promote the cause are appreciable. However, we need more investments and funds to support it. We still have a long way to go to increase its reach.
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