Transcript Document

Energy Conclave-2006
Bioenergy:Techno-economic
Assessment
Dr. Jyoti Parikh
Integrated Research and Action for Development
(IRADe), New Delhi
27 July, 2006
Contents



Biodiesel
Bioethanol
Biomass Gasification
Integrated Energy Policy (IEP)
•
•
•
Biomass provides 1/3 of India’s total primary
energy.
Biomass based fuels provide 81% of domestic
energy.
This non-commercial energy sector is mainly
managed by women without technology,
management
or
investment
involving
backbreaking drudgery.
Integrated Energy Policy
Biodiesel
•
Biodiesel provides an option to
substitute
diesel.
Its
economic
practicability depends largely on the
yields one can get from wasteland and
/or returns one can get from good
quality land with irrigation and fertiliser
compared to other crops.
Integrated Energy Policy
Bioethanol
• Ethanol is used in Brazil as a fuel for cars.
• Under Indian situation, there is scarcity of land and
water , and the available quantities of ethanol.
• There is need to find more economic use of other
feedstock for the production of chemicals and potable
alcohol.
Biomass
• Biomass can become a major energy source if fuel
wood plantations are developed. This requires land
which may have other competitive use.
Biodiesel
Biodiesel System
Plantation
of Oil
bearing
trees
Separation of
seeds,
kernels,
Procurement
of seeds
plantation of
Oil bearing
trees
Oil
extraction,
blending
and
processing
Modification
needed to use
in Transport
vehicles,
stationary
equipment,
and oil cakes
Energy
Policy
Selection of Species




450 oil seeds species identified in various parts of
India
For focused development only one or two species
like Jatropha and Pongamia should be selected
However oil seeds which can yield suitable grade
oil on economic scale can be tried to run R&D
projects
Ratanjot (Jatropha curcas)



Adaptability to difficult agroclimatic conditions
Recommended by Committee on Biofuel Development, GOI
Karanj (Pongamia pinnata)


Avenue tree and wide adaptability
27 % oil from seeds
Possible Yield Levels
Under favourable agro-climatic conditions, it has
potential to yield seeds up to 1 to 2 kg /plant or 2 to 5
tons /ha.
Assuming:
Yield variability 2 –5 tons and average oil content 33%
For producing 1 mt of biodiesel: seeds required will be
3.3 mt
Land required for producing 3.3 mt Jatropha seeds:
At yield level 2 tons/ha: 1.65 m ha
At yield level 5 tons/ha: 0.66 m ha
Wasteland that can be considered for
Jatropha plantation
Category of
wasteland as in
wasteland
Atlas/ownership
Gullied/RavinousShallow Cat. 01/
community
(Predominately
Govt)
Land with scrub
Cat.
04/
community
(Predominately
Govt)
Total area
in the
country
(mha)
1.03
Minimum area criteria
in a state that is
available under each
category
Exceeding 10,000 ha
No of
states
15.05
Exceeding 1 lakh or 0.1
mha
17
Land
without
scrub Cat. 05
Saline/AlkalineSlight
Cat.
10/Mainly
private
Shifting
Cultivationabandoned
Cat.11/community
Degraded Forest –
Scrub
Cat.
13/
Government
Total
3.74
9
0.41
Exceeding 1 lakh or 0.1
mha
Exceeding 500ha
1.22
Exceeding 0.1 mha
3
10.84
0.2 mha
14
32.29
11
5
Criteria for Land Availability






Department of Land Resources under Ministry of
Rural Development, GOI has proposed the criteria:
Annual rainfall should exceed 600mm
The pH of soil should be less than 9
Temperature should not fall below 00 C.
The slope of land should not exceed 300
The land should not be waterlogged
The land should not be barren rocky/stony
Byproducts
The marketing of byproducts is necessary
for economic viability
 Glycerol
 Oil seed cake
There will be 1.9 mmt oil seed cake
(excluding shell) and 0.095 mmt
glycerol as byproducts while producing
1mmt of clean Jatropha oil.
Overall Assessment



Uncertainty about Jatropha oilseeds yields,
quotes for which range from 2 to 5 tons per
ha.
Availability of land and competition of
oilseeds crops with food crops.If arable land
is diverted for Jatropha cultivation, economic
returns should be around Rs. 30,000/ha/year.
Extent of byproducts, their potential uses and
market availability and their prices
POLICY FRAMEWORK
Policy Interventions





Allocating community/forest land for
Jatropha plantation
Minimum Support Price (MSP)/ Buy
Back Guarantee of seeds
Bank Finance for plantation
Tax Exemptions/holiday
National Coordinated Research Project
Recommendations and Action Plan



Increasing the yield of Jatropha plants
by using elite planting material.
Selection of varieties/strains which have
more seed production and oil content.
Development of processing techniques
which results in maximum oil recovery
from seeds.
Bioethanol
Indian Government Initiatives


The Government of India has already
announced the use of 5% ethanol-blended
petrol from 30th Sep. 2003 in certain regions
of nine states, the proportion of which would
be increased to 10% in the later stage.
The price of ethanol is less than Rs 19 with
no incentive for oil companies.
Potential of ethanol production
Potential of ethanol production from sugarcane
Year
Area
Under
Cane
Cane
Prod.
Sugar Production
Addl. Alcohol Prod.
(in million liters)
Target
Revised
Prod.
From
Addl.
Molas
ses
Prod.
From Addl.
Cane
Available for
Alcohol
Prod.
2002-03
4.36
309.9
182
192
69
475
2003-04
4.53
321.6
192
202
99
795
2004-05
4.63
333.3
199
212
128
1000
2005-06
4.79
345.1
206
223
168
1222
2006-07
4.96
356.8
213
233
198
1485
Sugar Industry


In India, about 60% the cane is utilized
for sugar production, 30% for
alternative sweeteners and balance
10% for seeds.
In Brazil, 45% goes for sugar
production and 55% for production of
ethanol directly from sugarcane juice.
Barriers and Constraints
Market constraints





Biofuel Prices
State government clearance
Pricing of Ethanol
Interstate movement of ethanol
Concessional excise duty surcharge
Technological Constraints




Lower Plant Capacity
Use of batch fermentation process
Pollution control technologies in India
Non-economic returns from the Coproducts and Effluents
Policy Interventions
At National Level




Detailed timeline for implementation of the
programme
Incentive similar to other renewable sources
of the energy (reduced taxes, duties etc.).
R & D for alternative subtract, processing
technology
Institutional framework among different
stakeholders involve in the production and
distribution of the ethanol.
At national level…….




Uniform tax policy for all states and UTs
Institutional support for the fuel grade certification,
labeling, and standardizing
Centralized agency for license to the agents involved
in the supply and distribution
Maximizing the research and development effort in
this field to develop efficient technology for
processing and production of ethanol
At State Level




Clear cut state policy on the charges, levies fees etc
related
to
the
production
and
interstate
transportation and use of the ethanol.
Proper incentives, licensing facility and cooperation
for alcohol industry and entrepreneurs to set up
ethanol plants.
Less interference of state excise department for the
repair, modification, and expansion of the ethanol
plants.
Remove restriction on the use of subtracts involve in
the production of ethanol like sugarcane, bagasse,
cane juice etc.
Recommendations and Suggestions





Elite planting material for producing sugarcane.
Uniform policy for Sales Tax on molasses and rectified
spirit.
Removal of ‘Export Pass Fees’ for inter-state
movements
Permission to sugar mills to manufacture alcohol from
cane juice
Use of secondary juice for fermentation and
production of ethanol.
Biomass Gasification
Potential of Biomass
Gasification in India

In the area of small-scale biomass gasification,
significant developments in technology have made
India a world leader.
Barriers

Technical barriers



The induction of a gasifier system into a specific
industry is not a simple add-on job.
Many small, trivial matters related to operation and
maintenance procedure are act as barriers.
Financial barriers
Both the small industry user and conventional
financing institutions hesitate to invest in new
technologies such as gasification.
Barriers cont…


Social barriers
Biogasifiers are feasible given the inequalities with in
villages, lack of skilled manpower to install and
operate systems.
Institutional barriers
The lack of in-house capabilities of small and medium
industries in solving operational and maintenance
problems
Policy Interventions
Financial Incentives





A host of fiscal incentives and facilities should be
available to both manufacturers and users of biomass
gasification systems, including:
100% accelerated depreciation for tax purposes in the
first year of the installation of projects/systems.
No excise duty on manufacture of most of the finished
products.
Low import tariffs for capital equipment and most of the
materials and components.
Soft loans to manufacturers and users for commercial
and near commercial technologies.
Five year tax holiday for power generation projects.
State government's policy


A number of States have announced
policy packages including Wheeling,
Banking, Third Party sale and Buy-Back
which have been outlined.
In addition some of the states are
providing
concession/exemption
in
State Sales Tax and Octroi etc.
Recommendations and Action Plan
Define mission statement

Support the development of gasification
technologies for the conversion of biomass
into clean, sustainable energy and other
products
Conduct situation analysis
It will lead to conclusions defined in terms of:
Science
: Not sufficient
Technology : Barriers exist
Market
: Large potential exists
Awareness : Limited
Recommendations and Action Plan
Define strategic elements/goals

Build on successful and existing technology
platforms

Plan and implement a robust R & D
program

Establish supportive infrastructure

Promote public communication programs
Implement strategic planning process
Conclusion



The availability of land was considered as a
major barrier in IEP for the development of
bioenergy in India.
A massive programme is needed to develop
energy plantations consisting of oil seeds
species on large tracts of wastelands and fast
growing tree species in pockets around
villages for a national network of small,
decentralised biomass gasifiers power plants.
The irrigated crop area could be used for
sugarcane growing for bioethanol production.
Thank You!
Contact us:
Integrated Research and Action for Development
( IRADe),
C-50, Asiad Game Village,
Khel Gaon, New Delhi
www.irade.org