BioEnergy Users Network(BUN) Newsletter: Vol 1.1,August 1996
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To All the Members,
This is regarding BUN-INDIA's NewsLetter that is made available
at Web site http://144.16.73.100/~mukunda/home.html. As we got the
information that some people are not able to access this site, we are
sending the same below and welcome your comments and suggestions:
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August 1996
Volume 1.1
BUN-INDIA
Biomass Users Network India
Chairman
Prof. H S Mukunda
Combustion, Gasification & Propulsion Lab.
Dept. of Aerospace Engineering
Indian Institute of Science
Bangalore 560 012, India
Tel +90-80-3348536
Fax +90-80-3341683
E-mail: mukunda@aero.iisc.ernet.in
Internet http://144.16.73.100/~mukunda/home.html
Contents
* Foreword
* What is BUN-INDIA?
* Agro-residue potential of India
* Wood Biomass for energy in India
* Development of Biomass Gasifier Systems for Fine/low density biomass
* Biomass Gasifiers for drying of Chemicals
* Case study of family size biogas plants Dhanwas
* NARI Gasifiers for thermal Applications
* Efficient use of biomass in Karnataka
* Species choice and space geometry to enhance biomass production
* Biomass programme in India
* Editorial
Foreword
We are pleased to place before you the inaugural issue of the
newsletter of Biomass Users Network India). We would like to
largely concern ourselves with the use of bioresidues for energy
generation purposes. In the process, if value addition takes
place, it is also considered a part of the activities of BUN.
The basic idea of this newsletter is to provide a forum for
exchange of ideas, presentation of newer developments in Biomass
utilisation. We hope to bring together technologists,
manufacturers, users, and anybody interested in the efficient
utilisation of biomass. While this issue has explanatory
articles which are from those who have spent time in the
development of the technologies and those who have used them in
the service of the society, a section on letters from readers
and responses to them from appropriate people will be provided
from the second issue. We need to recognise that there are
other newsletters and networks in the area of thermochemical
conversion of biomass - Pyne Network, Wood fuel now!, Biomass
Focus, Warmer Bulletin, The Solar Letter and the like. Yet, the
activities in Biomass Utilisation currently active in India
because of Governmental and Industrial support are perhaps most
unique and need to be brought out for the benefit of the
progress in our country and elsewhere. This Newsletter will be
put out on WWW electronically at the address
http://144.16.73.100/~mukunda/ home.html and is being sent to
about four hundred and fifty people all over the world. It is
also being sent to all the active Newsletter offices. We hope
that this will generate more discussion and lead to more and
better utilisation of the natures most bountiful and least
expensive renewable source of energy in a sustainable way.
WHAT IS BUN-INDIA?
Biomass Users Network (BUN) an international body working from
the office of La Rocco Associates, New Jersey. The basic aims of
BUN (India) are
* To share success stories from field experiences; learn lessons
from failures and problems - all on the use of bio-residues-
solid and liquid , agro and wastes, for energy at other ends
*Produce a Newsletter once in 3 months. Formation of an Editorial
board for the same.
* To organize a meeting at the end of the
year and publish a report regarding the activities of the
project.
* To create awareness about the presence of BUN,
India. Develop Strategy towards such a cause.
Agro-residue potential of India
It is often argued in the corridors of power and elsewhere that
energy based on woody biomass should be replaced by energy from
agro- residues because, deforestation is becoming so rampant
that woody biomass can no longer be taken as "available". It is
therefore suggested that India examine the possibility of using
agro-residues for power generation. Based on the data from
TEDDY, the TERI Handbook, the following figures indicating the
availability of agro-residues in the country are presented. It
can be taken the total available residue is about 400 million
tonnes, of which about 5 % constitutes the woody variety
(density more than about 250 kg/m3) and the rest pulverisable.
Even if we take that about 25 % is available for power
generation, it amounts to 15000 MW of total installed capacity
with individual capacities upto 5 MWe or so.
WOODY BIOMASS FOR ENERGY IN INDIA
N. H. Ravindranath, ASTRA, Indian Institute of Science,
Bangalore 560 012, India
There have been significant developments in bioenergy
technologies in the last decade. Bioenergy technologies have
been shown to be desirable and feasible for meeting rural energy
requirements in developing countries on social, economic and
environmental considerations. Studies (Ravindranath and Hall
1995) have shown that, it is possible to meet all the
electricity requirements of all the 557, 000 villages in India
through kilowatt scale systems. The crucial question here is
the land availability for woody biomass production. India is a
large populous developing country with a population of 900
million and a population density of 275/km2.
A detailed analysis of land availability for energy in India has
shown that in India 66 to 130 Mha of degraded land is available
for woody biomass production (Ravindranath and Hall 95). Out of
this only 15 Mha is adequate to produce about 122 Mt. of wood
required at a productivity of 8 t/ha/year to meet all the rural
electricity requirements in India. This vast degraded or
wastelands are subjected to over grazing, soil compaction, soil
erosion and degradation. At the current annual rates of
afforestation of about 1.5 Mha, it is going to take at least 50
years to revegetate the wastelands.
The assured demand for wood production and the commercial nature
of sustainable wood production and bioelectricity generation
system would provide the necessary financial incentive to
reclaim a part of vast wastelands in India. Thus land is not a
constraint in India for producing woody biomass for energy.
Reference
Ravindranath N. H. and Hall D. O. (1995). Biomass Energy and
environment - A developing country perspective from India.
Oxford University press, Oxford.
DEVELOPMENT OF BIOMASS GASIFIER SYSTEMS FOR FINE/LOW DENSITY
BIOMASS A.D.S. Chauhan, Sr. Advisor, Ankur Scientific Energy
Technologies Pvt. Ltd., Ankur, Near Old Sama Jakat Naka,
Baroda 390 008
While the initial focus of the biomass gasification programme in
the country was generally on use of firewood/wood waste/wood
chips (i.e. woody biomass), increasing emphasis has
subsequently been laid on use of various agricultural and
agro-industrial residues like rice husk, bagasse, saw dust
etc,. Many of these feedstocks are characterised by relatively
small particle size (fines), low bulk density and/or high ash
content. A major effort was launched at Ankur Scientific to
develop a range of gasifier systems capable of accepting many of
these feedstocks without substantial pre-processing or fuel
preparation (in terms of pulverising, briquetting etc.,). The
FBG series of gasifiers, commercialised as a result of this
effort, have shown very satisfactory performance on both rice
husk and saw dust. Initial trials on other similar feedstocks
have given promising results. Field installations on commercial
basis have been undertaken in Andhra Pradesh and Madhya Pradesh
with high customer satisfaction reported so far.
The gasifier systems use novel control strategies and mechanisms
for feed movement, char removal and also for responding to
variable load conditions. Another unique achievement has been
almost total elimination of large amounts of tar that are
typical of rice husk gasifiers. The experience so far indicates
that the FBG series gasifiers could accept a very wide variety
of fine/low density/high ash feedstocks and a prototype has been
set up at Ankur Scientific for regular trials with new
feedstocks that may be of interest to likely customers/users of
gasifier systems.
BIOMASS GASIFIER FOR DRYING OF CHEMICALS
Dr. B C Jain, Ankur Scientific Energy Technologies Pvt. Ltd.,
Ankur, Near Old Sama Jakat Naka, Baroda 390 008
ACE manufacturing & Marketing at village: Gothda Taluka: Savli
Dist.: Baroda - 391 770, is using a 20 kW, Ankur wood based
gasifier for the dehydration of chemical grade aluminium
hydroxide, to manufacture end product activated alumina. The
system consists of a gasifier, contact chamber, recovery
cyclones and a suction blower. The producer gas from the
gasifier is burnt in a suitably designed burner to give maximum
heat output of 5000 kcal/hr.
The hot flue comes in contact with free flowing alumina powder,
in the contact chamber, whereas the dehydrated product after the
removal of 30-32 % combined moisture is collected in the
recovery cyclones.
With the process using gasifier, the drying costs has been
reduced to 40% and 70% of the cost using similar system with
other fuels, such as kerosene, diesel or LPG and an electric
furnace, respectively. This drying system using biomass
gasifier has run for more than 5000 hrs so far, without any
serious operational or maintenance problems.
The experiments with drying of other solids with varying
consistence and also adopting gasifier to attain temperatures of
up to 2500 C, in a tray drier in the indirect mode, have been
successful and are being implemented in the actual production.
CASE STUDY OF FAMILY SIZE BIOGAS PLANTS IN DHANAWAS
S N Srinivas, Tata Energy Research Institute Darbari Seth
Block, Habitat Place, Lodi Road , New Delhi - 110 003, India
Dhanawas village is about 50 km Southwest of Delhi. The village
situated in the Farrukhnagar block, is about 15 km from the
district headquarters Gurgaon, in the State of Haryana. There
are about 181 households with a total population of 1056. Tata
Energy Research Institute (TERI) has been working in the village
since 1984 and a number of technology interventions including
biogas, improved chulhas, solar lanterns, solar street lights,
biomass gasifier, biomass briquettes, etc. have been attempted.
Among all the interventions made in the village, biogas plant
has emerged as a most successful and infact, a competing
technology to LPG (growth of biogas plant was twice than that of
LPG during the last decade).
The end uses of cooking and water heating together constitute to
more than 80% of the total energy use in the village, most of
which is met by the non-commercial fuels. None for the
households depend only on one fuel to meet all their cooking
energy requirements. The surveys showed that use of
non-commercial fuels included, 40% dung cake; 40%crop residue
and the rest fuel wood from various sources. The biogas
generation potential in the village was estimated to be 237 cum
of gas per day (including 25.1 cum per day biogas generated from
poultry). The total gas requirement for cooking at 340 litres
per person per day, would be about 340 cum per day. The
villagers were not keen on community biogas plant for two
reasons; (i) scattered houses - most houses are in Dhanis
(fields) and (ii) villagers preferred to have systems with
independent operation. A survey to assess the potential for
family size biogas plants revealed that 40% of the households in
the village have enough cattle for individual biogas plants.
Thus TERI decided to take up the development (improvement over
the existing biogas plants) and demonstration of biogas plants.
Initially a modified Janata model was introduced, and
subsequently various improvements were carried out for
enhancement in performance and reduction in the cost. After
several design changes and construction of about 10 biogas
plants in the village, the spherical type of biogas plant was
developed. Now there are 20 biogas plants of which 19 are
functional. One is not in use because of the conflict about
land among the family members.
An evaluation of the biogas programme in twenty-seven villages
in Farrukh Nagar block of Gurgaon district implemented by the
State Agriculture Department was conducted by TERI which
revealed that only 16% of the installations were functional.
The major reasons identified for the failure were, incomplete
commissioning of biogas plants, faulty construction leading to
major repair requirements which were not attended to, minor
problems such as broken pipelines/valves, lack of simple
maintenance & servicing due to the absence of awareness and
training to the users, and non-rectification of dysfunctional
biogas plants, etc. Further, various administrative procedures
involved with the implementing agency created problems in
disseminating the programme in fact lead to a strong negative
impact about the technology among the villagers.
However, in Dhanawas, the functionality rate of biogas plants
has been high (nineteen out of twenty plants functional). A
study was conducted to identify the factors for the success of
biogas plants in the village and prioritize them as per the
users. About ten factors were identified; the factors and their
rankings have been discussed in the following paragraphs.
Time saving is the factor which scored highest and from the
feedback it was found that, the time saved by the use of biogas
for cooking, was spent in attending to other domestic chores or
in relaxation. The second ranking of institutional issues
reflected the confidence the people had with the implementing
agency. This confidence may be due to their observation of the
implementing agency on other activities or functionality of
installed biogas plants. Smoke removal was perceived as one
important benefit ranked third which besides resulting in
improved health, reduced the cleaning of walls and whitewashing
them. Since, the biogas meet some large parts of the cooking in
the households, use of biomass fuels including dung cake has
reduced, though, not eliminated completely. Thus, it has become
possible to divert a large proportion of dung as fertilizer in
the fields. This alternate use of dung as fertilizer ranked
fourth among the factors. The fifth ranking factor was a group
of other reasons where convenience of operation of biogas plants
over types of stoves and less or no maintenance problem along
with its relatively safer operation was acknowledged by the
users.
Fuel saving that the researchers, policy makers, and
implementing agencies have paid maximum attention, did not score
well and ranked sixth according to the users. The biogas light
generally used as a standby in case of power failure is another
perceived benefit by the villagers and as ranked seventh. The
subsidy involved, by the government (33%) and an additional
subsidy by TERI (another 33%) was identified as eighth important
factor, showing that it was not a limiting criterion. Less
effort in cleaning the vessels and kitchen and the plant as a
status symbol scored last in the ranking of factors.
The study shows that, they have perceived time saving as a major
benefit by the users and confidence in the implementing agency
has played a major role in the success of the programme in the
village. Though fuel saving has been used for the publicity of
biogas, it does not appear very high on the list of perceived
benefits by the users. The ranking of these factors in
different areas may be different and a simple exercise can be
carried out to decide the factors of priority in different
areas. Thus, if the family size biogas clearly plant if
disseminated properly, could even be a substitute to modern
fuels such as LPG in the rural areas.
EFFICIENT USE OF BIOMASS IN KARNATAKA
M. S. Rama Prasad
Joint Executive Secretary, Karnataka State Council for Science
and Technology, Bangalore 560 012, India
Realising the importance of biomass resources in the energy
scenario of the country, Karnataka State Council for Science and
Technology (KSCST) has been actively involved in this vital area
for the last 20 years. Over the years KSCST has sponsored a
number of R&D projects in effective utilisation of biomass in
Karnataka. KSCST is also very actively involved in the
dissemination of various technologies in the state. The paper
discusses in detail the various programmes and its possible
impact on the energy scenario of the state and future course of
action to be pursued by the Council.
As already mentioned, the main source of energy in rural areas
of the state is firewood. Indiscriminate use of firewood has
already caused irreparable damage to the environment in the form
of deforestation, floods, soil erosion etc. In the absence of
a viable alternative (particularly for cooking) it is almost
impossible to prevent use of firewood in rural area. Therefore,
it is imperative that efforts must be made to conserve as much
of firewood as possible. In this direction KSCST alongwith
ASTRA undertook a project of developing an improved high
efficiency firewood burning stove a few years back. After
sustained R&D work, the scientists from ASTRA successfully
developed a high disseminated in large numbers in the state
under the popular name ASTRA OLE. Under National programme on
Improved Chullah (NPIC) the executive agency in the state i.e.,
Rural Development Department has so far constructed nearly 10
lakh oles in the performance evaluation of these stoves. KSCST
is helping the department in training of masons and performance
evaluation of these stoves. A survey conducted by an independent
agency has shown that 60% of these stoves are being effectively
used in the field. This has resulted in annual savings of near
1.5 million tonnes of firewood.
In addition to Astra ole, KSCST has also disseminated a portable
metallic stove namely Swosthee. During the last 3 years
nearly 3000 stoves have been distributed in the state.
In addition to villages, firewood is also used in towns and
cities for both domestic and commercial use. A detailed survey
conducted by Astra group in 1985 has indicated that nearly 1500
tonnes of firewood is consumed in Bangalore city alone. In
addition to domestic use, firewood is used in large quantities
in commercial establishments like hotels, hospitals, hostels
etc., and in industries like brick and tile, printing and
dyeing, jaggery making etc. Another important factor to be
considered is that, this firewood is transported from far off
places, amounting to an average distance of nearly 200 km
through commercial mode of transportation. In order to reduce
firewood consumption in town and cities, KSCST sponsored two
projects namely design and development of Efficient brick and
tile kiln and large size Astra ole. Both these projects have
been successfully completed by Astra achieving a savings of
nearly 40 to 50% of firewood. KSCST is now in the process of
diffusing these technologies in the state. In the past two
years, KSCST has constructed nearly 300 large size Astra Ole,
which has resulted in substantial savings of firewood. Another
major programme launched alongwith education department of the
state is to introduce large size Astra Ole in all the kitchen
centres (numbering 4000) under mid-day meal programme. It is
estimated that, when this project is completed, the net savings
in firewood will be 80,000 tonnes every year. Another important
factor in all these programmes is environmental protection (less
firewood consumption) and improvement in the health of rural
women folk due to smokeless characteristic of stoves.
In addition to these stoves, a large number of driers have been
disseminated for procuring of areca, cardamom, cashew etc.
These driers can also reduce fuel wood consumption by 50% as
compared to conventional driers in the field.
Although almost all the villages in Karnataka has been
electrified under Rural Electrification Programme, still there
are a number of remote villages and tribal hamlets not
electrified. Even in electrified villages, the supply of
electricity is far from satisfactory. Hence, most of the
farmers depend upon diesel based water pumping systems to meet
their irrigation requirements, thus, consuming huge amount of
this non- renewable source of energy. To overcome this problem,
KSCST sponsored a project for the development of wood gasifiers
in 1982. The project team at Indian Institute of Science,
successfully developed a 5 HP biomass gasifier system which can
be used either for water pumping or for decentralised
electrification of rural areas. During the last 10 years nearly
500 systems have been installed in the state.
A unique experiment under this programme is electrification of
an unelectrified village viz, Hosahalli 100 km. away from
Bangalore. This backward village in a dryland area has 50
households. Now all these houses have been electrified by
installing a biomass gasifier generator system. In addition to
this 10 street lights have also been provided. The system is
being operated for 4 hours in the night by local boys, trained
by KSCST/ASTRA. It has been possible to achieve nearly 80%
diesel replacement and the biomass requirement is met by the
energy forest on the outskirts of the village.
MNES has sponsored a project at Indian Institute of Science
(initially supported by KSCST) for the development of Powdery
Biomass Gasifiers capable of accepting any agro waste in powder
form. The project team has successfully developed a 100 kW
system which can be used for both thermal and electrical
application. Attempts are now being made to install a few
systems in the state to meet power requirements in remote rural
area.
To conclude, KSCST is actively working in the area of effective
biomass utilisation in Karnataka for the last 15 to 20 years,
keeping in mind, the possible impact on environment. It has
sponsored a number of R&D projects, which has resulted in a
number of products/systems/processes capable of achieving
substantial savings in firewood and also solving energy problems
in rural area. It is also actively involved in disseminating
various technologies in this area and already significant number
of products/systems have been installed in the state.
NARI GASIFIERS FOR THERMAL APPLICATIONS
Anil K. Rajvanshi and Rajeev M. Jorapur,
Nimbkar Agricultural Research Institute, P.O. Box 44, Phaltan -
415 523, Maharastra, India
NARI has developed low density and leafy biomass gasifiers upto
800 kW capacity for thermal applications under a grant from
Rockefeller Foundation. This multifuel gasifier produces
producer gas which burns with an intense bluish-white flame with
flame temperature about 10000 C. The system was tested in an
actual user-industry (makers of speciality refractories) in
India by retrofitting it to an existing LDO-fired furnace in the
industry. Other possible thermal applications are in bakeries;
brick kilns; metallurgical furnaces; for making jaggery (gud);
for drying seeds and other agricultural produce; or for other
industrial drying applications where sufficient biomass is
available. The gasification system can therefore prove to be a
boon for rural and agro-based industries.
SALIENT FEATURES OF NARI SYSTEM
Capacity : Two sizes of 400 and 800 kW are available. Higher
capacity gasifiers can be custom designed.
Multi-fuel gasifier : Can handle different biomass fuels like
sugarcane leaves/bagasse, sweet sorghum stalks/bagasse etc.
Systems to operate on other fuels like coconut coir, wheat husk,
different types of grasses and safflower residues etc. are being
developed.
Value added by-product : About 24% of the fuel is converted to
char, which is a value-added product. It can be briquetted to
form excellent fuel for chulhas (wood stoves) or can be used as
a soil conditioner.
Zero waste water system : No process water is required for the
operation, and so no waste water is generated
Minimal maintenance and downtime : Hot gas cleaning, so on
condensation and accumulation of toxic tars and other
condensables occur in pipe-lines and equipments
Quick start-up and shut-down : Cold start within ten minutes and
hot start-up within three minutes
Judicious mix of auto and manual controls : A PLC-based control
system controls the entire gasifier operation. Only two
operators per shift are required for fuel and ash handling
operations.
TECHNICAL SPECIFICATIONS
(A) Fuel : Biomass fuels like sugarcane leaves, bagasse, bajra
residues, wheat straw etc. with the following specifications
have been gasified in the NARI gasifier
Bulk density : 25-100 kg/m3
Particle size : 1-10 cm long
Ash content : < 10%
Moisture content: <20% w/w (wet basis)
(B) NARI gasification system
Thermal output : 100-800 kW (thermal) or 360-3280 MJ/h
Gas calorific value : 3.36 -4.62 MJ/Nm3
Flame temperature : ~ 10000 C
ECONOMICS
The fixed cost of the system varies from Rs. 1,500/kW to Rs.
2,000/kW depending on the capacity, the materials used, the
degree of mechanisation of the fuel and ash handling systems and
the extent of automation of the system. The operating costs are
extremely site- specific and depend primarily on the landed cost
of biomass at site and the capacity utilisation of the gasifier
system. The cost of energy delivered therefore varies from Rs.
480/MWh to Rs. 720/MWh and compares very favourably with that
from light diesel oil (LDO) fired units whose cost is 1000
Rs./MWhr.
SPECIES CHOICE AND SPACE GEOMETRY TO ENHANCE BIOMASS PRODUCTION
M.S. NAGARAJA & P. CHANDRASHEKAR, Soil Science & Agricultural
Chemistry, GUAS, GKVK, Bangalore 560 065, India
The present worlds energy crisis and its related environmental
issues has put the scientific community in confusion. Long term
sustainable development particularly in developing world,
requires a gradual shift towards renewable energy sources, viz.
Wind, solar and biomass energy. Bio-energy is one such
sustainable and self reliant option, more so for countries like
India with large geographical area. The biomass production, a
must for bio-energy, depends on the efficiency with which the
solar energy is harnessed. Increasing the canopy area by
altering the spacing geometry and proper choice of species in
canopy and non-canopy areas can enhance biomass production.
The study conducted at the southern dry zone of Karnataka under
various systems indicate that about 5-10 tonnes ha-1 of biomass
can be generated through mango, sapota and some fodder trees.
However, this can be further enhanced by 10-20 per cent without
altering the spacing and only by altering its geometry, i.e.
hexagonal planting instead of square planting. The non-canopy
area, space between canopies, can also be utilized for biomass
production. The Stylosanthus and horse gram can produce 3-5
tonnes ha-1 of biomass in the non- canopy area. These plants
would also help in building up of soil fertility. Thus, there
is a great potentiality for producing biomass (to the tune of
8-14 tonnes ha-1) through proper selection of species and
spacing geometry.
BIOMASS PROGRAMME IN INDIA-TECHNOLOGY DEVELOPMENT,
DEMONSTRATION AND COMMERCIALISATION
Dr. N.P Singh, Director, MNES, Delhi, India
BIOMASS PRODUCTION AND IMPROVEMENT PRACTICES
About 93 million hectares of non-forest land is classified into
14 different agro-climatic zones and about 60 million hectares
of forest land has been estimated as degraded wasteland in
India. With a view to develop package of practices for fast
growing, short rotation, high coppicing fuelwood species on
different wastelands, MNES has been supporting research and
development and demonstration projects at 9 Biomass Research
Centres (BRCs) in different agro-climatic zones.
A package of practices have been developed including
standardization of nursery requirements, application of
biofertilizers, pest and diseases management for 36 fast growing
and short rotation fuelwood species for getting an average
of a minimum of about 20-26 tonnes of the biomass per
hectare per year. BRCs have been organising training
programmes to various target groups viz. officers of State Govt.
NGOs and local people in their respective zones on nursery
development and other aspects of energy plantations. These
centres are also providing quality seedlings and consultancy to
tree growers.
ENERGY PLANTATION
Plantation of fast growing tree species on degraded lands have
been supported by MNES under its demonstration programme till
March 1992. A total area of about 17,000 hectares in
various parts of country have been covered under
energy plantation under this programme. The outcome of R&D in
BRCs have been tested on large areas through many such
demonstration projects under energy plantation programme.
In India, about 70 biomass briquette machines using die and
punch, ram and die and screw technologies are in use. These
machines have the capacity of 250 kg-1.5 ton/hr and using
agricultural and agro-industrial residues. The
briquettes produced are finding market in tea drying, hotels
etc. Indian Renewable Energy Development Agency (IREDA), a
financing agency under MNES is providing soft loan to
briquetting industry. There are about seven biomass
briquetting machine manufacturers in India which are mainly
manufacturing piston ram type press type. Some prototypes of
screw press type of briquetting machines.
RESEARCH AND DEVELOPMENT
R&D projects were supported for development of a 3.7 KW
gasifier mainly based on wood or woody biomass for water
pumping for irrigation in 1986 at Sardar Patel Renewable Energy
Research Institute (SPRERI), Vallabh Vidyanagar, Gujarat
and Punjab Agricultural University, Ludhiana, Punjab and
Indian Institute of Technology (IIT), New Delhi under
International Collaborative projects. Later, other groups at
IIT Bombay; Indian Institute of Sciences (IISc.), Bangalore;
Nimbkar Agriculture Research Institute (NARI), Phaltan;
Madurai Kamaraj University (MKU), Madurai have also been
supported for R&D projects.
Under the above mentioned R&D projects and ARCs, gasifiers of
different ratings from 3.7 KW to 500 KW have been developed
for various applications viz. Mechanical, thermal and
electrical. A number of training programmes and business
meets with potential industries have been organised,
specifications have been developed and 300 samples of
different biomass have been characterized for their suitability
for gasification and briquetting.
TECHNOLOGY COMMERCIALISATION
Gasification technology has been commercialised with
indigenous R&D efforts. There are about 8 manufacturers
viz. M/s.Ankur, Vadodara; M/s.AEW, Tanuku; M/s.Cosmo,
Raipur; M/s.Grain Processing, Calcutta; M/s.Netpro, Bangalore
etc. The product range is from 3.7 KW to 500 KW for woody and
non-woody biomass. Technology packages for various
industries such as plywood, rice mills, soap making, bakeries
and tea processing are being offered by the manufacturer.
GASIFIER DEMONSTRATION
MNES has been implementing a nation-wide demonstration
programme for gasifiers and provides a partial capital cost
of gasifier, 30 per cent in case of thermal, 60 per cent in
case of mechanical and electrical applications with
upper limit prescribed for different ratings. Capital
subsidy ranging from 30 to 75 per cent is being provided for
use of gasifier for cooking application in hostels,
mess rooms of military, para-military forces and police.
The programme is being implemented in a market oriented
manner, manufacturers develop the proposals by selecting users
and government subsidy is routed through state nodal
departments/ agencies in a phased manner to ensure the
quality and performance of the systems installed by the
manufacturers. Under gasifier demonstration programme,
village electrification is also supported by providing 75
per cent of cost of gasifier and gasifier engine set, balance 25
percent panchayat. Operation and maintenance cost is met by
the Panchayat through collection of payments from the
beneficiaries.
So far, about 1600 gasifiers with an aggregate installed
capacity of about 18 MW equivalent have been installed in
the various parts of the country for irrigation, industrial
and village electrification. About 15 villages have been
electrified under the programme. A state- wise list of
gasifiers is given at Table I.
FISCAL AND FINANCIAL INCENTIVES
Several promotional incentives for renewable systems have been
provided by the government in order to overcome the inherent
bias and distortions in the energy sector policies which
favoursfossil fuels. These incentives include tax concessions,
customs and excise duty reliefs. Indian Renewable Energy
Development Agency (IREDA), a financing public sector unit
under MNES, provides soft loan for manufacturing and utilization
of renewable energy devices and systems including biomass
briquetting and gasification.
Table-I
STATEWISE LIST OF GASIFIER SYSTEMS INSTALLED UP TO March 31, 1996.
Upto March 1993 1993-94 1994-95 1995-96
--------------- -------------- ----------------- -------------------- -------
STATE No.of Capacity No.of Capacity No.of Capacity No.of Capacity
systems (kW) systems (kW) systems (kW) systems (kW)
installed installed installed installed
-------------------------------------------------------------------------------------
Andhra
Pradesh 40 194 18 390 24 2400 17 1700
-------------------------------------------------------------------------------------
Arunachal
Pradesh - - 3 120 - - - -
-------------------------------------------------------------------------------------
Assam - - - - 5 23 - -
-------------------------------------------------------------------------------------
Bihar 2 20 - - - - - -
-------------------------------------------------------------------------------------
Goa 3 30 - - - - - -
-------------------------------------------------------------------------------------
Gujarat - 164 1260 14 1030 12 1104 5
-------------------------------------------------------------------------------------
Haryana 16 274 1 100 8 590 - -
-------------------------------------------------------------------------------------
Himachal
Pradesh 2 8 - - - - - -
-------------------------------------------------------------------------------------
Jammu &
Kashmir 4 120 - - - - - -
-------------------------------------------------------------------------------------
Karnataka 468 2329 - - - - - -
------------------------------------------------------------------------------------
Kerala 5 115 1 100 4 400 - -
-------------------------------------------------------------------------------------
Madhya
Pradesh 105 649 10 100 14 1740 10 1500
-------------------------------------------------------------------------------------
Mahara-
shtra 303 1613 1 40 3 110 1 500
-------------------------------------------------------------------------------------
Orissa 15 62 - - - - - -
-------------------------------------------------------------------------------------
Punjab 18 430 4 90 3 150 - -
-------------------------------------------------------------------------------------
Rajasthan 12 63 9 165 - - - -
-------------------------------------------------------------------------------------
Tamil Nadu 55 393 - - - - 1 40
-------------------------------------------------------------------------------------
Uttar
Pradesh 34 361 - - 1 150 - -
-------------------------------------------------------------------------------------
West Bengal - - - - - - 5 550
-------------------------------------------------------------------------------------
Others 91 550 - - - - - -
-------------------------------------------------------------------------------------
-------------------------------------------------------------------------------------
Total 1337 8471 61 2135 74 6717 39 4402
-------------------------------------------------------------------------------------
-------------------------------------------------------------------------------------
Editorial
The BUN-NEWSLETTER is pulblished by the
BUN-INDIA
Combustion, Gasification & Propulsion Laboratory
Indian Institute of Science, Bangalore 560 012,INDIA
For further details or for contribution of articles, please contact
Gayathri V
Tel : +90-80-3348536, +90-80-3092338
Fax: +90-80-3341683
E-mail: gayathri@aero.iisc.ernet.in
Do You Know this?
According to world energy council report, with major policy
initiatives,
* Renewables could meet 8-12 % of total world energy needs
(~1345 Mtoe) by 2020
* Modern biomass can account to 45% of renewable contributions by
2020.
*--------------------------------------------------*
| Prof. H.S.Mukunda |
| Chairman, Department of Aerospace Engineering |
| Combustion, Gasification & Propulsion Laboratory |
| Indian Institute of Science |
| Bangalore 560 012 INDIA |
*--------------------------------------------------*
*******************************************************
* Telephone: 0091-80-3348536, 0091-80-3092338 *
* Fax : 0091-80-3341863 *
* *
* E-Mail : mukunda@aero.iisc.ernet.in *
* Internet : http://144.16.73.100/~mukunda/home.html *
*******************************************************
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