Biogas utilization in Pakistan
Introduction:
Biogas plant is name often given to an
anaerobic digester that treats farm or organic wastes. The history of biogas
plants goes back to ancient Persia and China. It was observed that rotting
vegetables produce flammable gas. In 13th century the Chinese were using
covered sewage tanks to generate power. In 1859 first biogas plant was built to
process sewage at a Bombay in Indian Sub Continent. The biogas plants can be
fed with energy crops such as maize silage or biodegradable wastes including
sewage sludge and food waste. During the process the biomass is converted into
methane producing renewable energy that is used for heating, electricity and
many other operations that use any variation of an internal combustion engines.
Typical composition of biogas:(Compound
Chemical Formula %age)
- Methane CH4
50–75
- Carbon dioxide CO2 25–50
- Nitrogen N2
0–10
- Hydrogen H2
0–1
- Hydrogen sulfide H2S 0–3
- Oxygen O2
0–0
Biogas gas is also being used in power
generators for electricity production around the world as renewable fuel
source. Leo Corporation Pakistan has successfully installed biogas plants to
produce electricity using different bio degradable materials in Punjab
In China 30 million rural households
that have biogas digesters enjoy the following benefits:
- Saving fossil fuels
- Saving time collecting firewood
- Protecting forests
- Using crop residues for animal fodder
instead of fuel
- Saving money
- Saving cooking time
- Improving hygienic conditions
- Producing high-quality fertilizer
- Enabling local mechanization and
electricity production
- Improving the rural standard of living
Pakistan
is home to over 160 million head of cattle (buffalo, cow, camel, donkey, goat
and lamb). The dung of these livestock can feed five
million biogas plants of varying sizes, according to energy experts
at the National University of Science and Technology (Islamabad) and Faisalabad
Agriculture University This can help plug the yawning gas supply gap. According
to government figures, 73 percent of 200 million people (a majority of them in
rural areas) have no access to piped natural gas. Such people rely on LPG gas
cylinders and fuel wood.
As
per recent livestock census, there are 51 million animals (Buffaloes, Cows, and
Bullocks) in Pakistan. Thus, 19.125 Million M3 biogas can be produced daily by
anaerobic fermentation of dung through installation of about 3.825 million
family size biogas plants, which could meet the cooking needs of about 50
million people. The total population of Pakistan is about 170 million, out of
which 68% reside in the rural areas, which comes to be 98 million. Therefore we
can meet the cooking / heating requirements of 44% rural masses from this
single source of energy (biogas) besides, producing 57.4 million Kg of nitrogen
enriched bio-fertilizer per day or 21.00 million tons of bio-fertilizer per
year, which is an essential requirement for sustaining the fertility of
agricultural lands.
Biogas potential in Pakistan is
widely distributed; its potential may be best developed at the point of
generation. However, there are many point sources where large-scale biogas can
be generated at one location. The most ready example is Landhi’s Cattle colony,
where a 20 MW power project of biogas has been formulated. There does not seem to be much progress on
this plant. There could be several large projects of this size elsewhere in the
country as well. Biogas need not be a monopoly of electric power producers; gas
companies can and should enter this arena of biogas as well. In fact, they
ought to be the primary players. Biogas can be upgraded to pipeline-quality
gas.
Policy:
Pakistan
has made a policy to add RSE (Renewable & Sustainable Energy) for energy
production; Alternative Energy Development Board (AEDB) has been established to
contribute 5% energy production from renewable. AEDB is now working on energy
production project by using huge resource of biogas near Karachi in Landhi
cattle colony to produce 30 MW which is being funded by New Zealand.( New
Zealand based firm has completed the pilot phase of the biogas project at Landi
Cattle Colony, Karachi where waste from 400,000 cattle in the area would be
utilized to generate electricity and high grade organic fertilizer. The full
scale plant is estimated to generate up to 50 MW of electricity and 1500 tons
of organic fertilizer per day.). , framework for power Co-generation
2013 (Biomass/Bagasse) was approved by Economic Coordination Committee (ECC)
for bagasse/biomass based sugar industry projects. 1500–2000 MW of power
is expected to be generated in next 2–3 years
History:
Government of Pakistan undertook
propagation of Biogas Technology early in 1976. Initially, 1200 family size
units were installed. The biogas digesters adapted at that time were
known as Indian style digesters. This style is constant pressure type. A deep
rounded well is dug in the ground and lined with bricks and cement. A round
steel drum is turned upside down and fitted as a lid on the mouth of the
well. Gas is collected in this drum. Gases lift the drum up and after
they are used, drum moves downward. This program could not attract
attention mainly because life of the drum was low and daily filling of cow dung
was a hassle. Discovery of natural gas was also a hurdle in the promotion of
biogas as it was easy and hassle free to use. Government of Pakistan
established Pakistan Council of Renewable Energy Technologies (PCRET) which
launched another project for installation of 2,500 biogas plants in 2007 with a
subsidy component of Rs.17000/- per plant. In two years, despite various
financial constraints, about 2,000 biogas units have been installed. a major drawback in the Indian digesters was
the steel drum. Presence of H2S in the produce cracks it within two or three
years. Replacement of steel drums is a cost which is difficult to bear just
like the cost of batteries in the small off-grid solar solutions. Its
installation also requires high expertise of craftsmanship. It costs round
13-15 thousands rupees per cubic meter. 10, 12, 15 and 20 m3 sizes
are commonly used. High initial cost and high operational cost is
the barrier in the adaptation of the Indian style digesters.
In
2010, Rural Support Program Network (RSPN) initiated Pakistan Domestic Biogas
Program. This program aimed to develop the domestic biogas sector the
project was designed to put down a robust foundation for the establishment of a
commercially viable domestic biogas sector. The proposal used a time horizon of
four years to strengthen the commercial biogas sector. Although the project
aimed to promote an approach in which government, non-government and private
sector organizations assumed their roles in a complementary fashion that
intrinsically fit their character; this did not catch eyes of the masses. Only
5000 dome type digesters were constructed in addition to training about 500
local masons.
Dome type digesters are made of bricks and cement and involve fixed volume principle. No drum is used as a lid in this technology. Cost of such digesters range from 8 to 10 thousands rupees per cubic meter which is cheaper than Indian style digesters. However these digesters also require highly skilled craftsmanship and are built in 20-25 days. Common designs are in 6, 8, 10, 15 and 20 cubic meters. Leakage and seepage are frequently encountered problems but can be corrected with good maintenance and training. However once the digester leaks or seeps, it is difficult to be rectified.
Punjab has also launched a program to subsidize 20000 biogas plants of 30, 50 and 70 cubic meter for the farmers to supplement their diesel engines for water pumps. The design submitted by the consultant is of both Indian and dome type digesters. The cost for system installation is 12-14 thousand rupees per cubic meter which is quite high. The construction time is around 25-30 days per team for one
Dome type digesters are made of bricks and cement and involve fixed volume principle. No drum is used as a lid in this technology. Cost of such digesters range from 8 to 10 thousands rupees per cubic meter which is cheaper than Indian style digesters. However these digesters also require highly skilled craftsmanship and are built in 20-25 days. Common designs are in 6, 8, 10, 15 and 20 cubic meters. Leakage and seepage are frequently encountered problems but can be corrected with good maintenance and training. However once the digester leaks or seeps, it is difficult to be rectified.
Punjab has also launched a program to subsidize 20000 biogas plants of 30, 50 and 70 cubic meter for the farmers to supplement their diesel engines for water pumps. The design submitted by the consultant is of both Indian and dome type digesters. The cost for system installation is 12-14 thousand rupees per cubic meter which is quite high. The construction time is around 25-30 days per team for one
Assessment:
High cost, time consuming construction activities and requirement of high quality craftsmanship are major barriers in the adaptation of dome type digesters. Stakeholders are enmeshed in a supply and demand context in which the supply side should ensure “off-the-shelf availability” of the technology while the pluralistic demand side organizes the beneficiaries, provides microfinance, promotes the technology and integrates it into rural development activities. For this purpose, many Chinese companies have established a soft type digester. A tank is dug in the ground as per desired dimensions according to size of the digester. Construction of tank does not require skilled workmanship and even a normal mason can accomplish the task. The soft type digester can then be fixed in the tank. This installation takes only four days for tank and two hours for digester fixation. The cost is 5-6 thousand rupees per cubic meter. A Chinese company has installed many demonstration digesters in Pakistan A Chinese company has also decided to establish an office in Lahore
High cost, time consuming construction activities and requirement of high quality craftsmanship are major barriers in the adaptation of dome type digesters. Stakeholders are enmeshed in a supply and demand context in which the supply side should ensure “off-the-shelf availability” of the technology while the pluralistic demand side organizes the beneficiaries, provides microfinance, promotes the technology and integrates it into rural development activities. For this purpose, many Chinese companies have established a soft type digester. A tank is dug in the ground as per desired dimensions according to size of the digester. Construction of tank does not require skilled workmanship and even a normal mason can accomplish the task. The soft type digester can then be fixed in the tank. This installation takes only four days for tank and two hours for digester fixation. The cost is 5-6 thousand rupees per cubic meter. A Chinese company has installed many demonstration digesters in Pakistan A Chinese company has also decided to establish an office in Lahore
National
Rural Support Program-Pakistan (NRSP-Pakistan) Initiated in 2009 by the
non-governmental organization, PBDP was financed by the Netherlands Embassy in
Pakistan and technical support was extended by Winrock International and SNV
(Netherlands-based nongovernmental development organisations). As a part of
sustainability of the biogas program, 50
local biogas construction companies were been set up. International
technical experts trained nearly 450 people in construction, maintenance and
repair of the biogas units. The biogas program aimed to establish a
commercially viable biogas sector. To that extent, the main actors at the
supply side of the sector are private Biogas Construction Enterprises (BCEs) providing
biogas construction and after sales services to households. At the demand side
of the sector, Rural Support Program organized under the RSPN will be the main
implementing partners, but will also include NGOs, farmers’ organizations and
dairy organizations. 5,600 biogas plants are now saving nearly 13,000 tons
of fuel wood burning worth two million dollars and 169,600 liters of kerosene
oil for night lamp use Implemented at a total cost of around 3.3 million
dollars, the biogas plants have helped reduce the average three to four hours a
woman spent collecting fuel-wood and cooking daily. These women now get enough
time for socialization, economic activity and health is returning to households
thanks to the biogas plants… which provide instant gas for cooking,
healing and dishwashing ,.more significantly, the program is helping avoid nearly 16,000 tons of
carbon dioxide emissions annually
UNDP assisted (2012) a non-governmental organization to set up
150 biogas plants under a project funded by the United Nations Development
Program and the Japanese government for the rehabilitation of the people
affected by 2010 floods. Families supplied biogases earlier were spending
between Rs5000 and Rs6000 on buying and transporting wood every month to their homes. They also experienced improvement in crop
productivity with the use of slurry, a by-product of biogas. The slurry had
replaced urea to a great extent as it is comparatively much cheaper and a lot
more beneficial in terms of crop productivity. It not only helped improve the
quality of crop, but also reduced its harvesting period. A total of 27 biogas
units had been installed in the village. One beneficiary stated “Earlier, we
used at least three to four bags of urea for one acre of crop that could either
be banana, wheat or sorghum. The price of urea has increased but a few months
ago it cost Rs1,700 a bag. So you can well imagine how much we are benefiting
even from the by-product of biogas,” said a beneficiary, adding that banana
plants grown with the help of slurry had matured 10 to 15 days earlier as
compared to those given urea
Tube Well Conversion to
biogas:
Punjab government had designed a plan
to convert about 100,000 agriculture tube wells from diesel to biogas in five
years (2013 -2018) in a bid to save energy resources and promote biogas
technology in the province. According to agriculture census 1.1 million tube
wells are installed across the province for irrigation, 900,000 of them are run
on diesel. On the other hand 32 million cows and buffaloes are owned by small
and big farmers in the province which producing 117 million tons of dung
annually. If half of this amount is used to produce gas then the waste will
produce 2.93 billion cubic meters of gas annually. With this plan the
Government hopes to save 288 million liters of diesel and 30 billion Rs ($ 280
mil.) annually. According to officials work on the project would start next
year, and the provincial government will bear 50% of the conversion costs,
inviting expressions of interest from interested companies, while leaving it to
the farmers to select the company and pay directly to the technology provider.
Moreover biogas plants installed with tube wells will help produce organic
manure rich in nutrients, which will save the money spent on fertilizers.
WWF
World Wide Fund for Nature-Pakistan (WWF-P) had achieved the
target of setting up 2,000 biogas units in 13 districts of Punjab, Sindh and
KP.“The purpose was to help improve lives shattered by the floods in a way that
is not only sustainable but also eco-friendly. We have provided one biogas unit
to one household as our experience has shown that the involvement of multiple
families could create conflict and result in project’s failure.”The biogas unit
could be run by a family even if it has only one buffalo. One unit of an
average size of six to 15 cubic meters costs from Rs70,000 to Rs80,000 further
one bag of dried slurry replaced nine bags of urea Local people were involved
in its construction so that they could handle any problem in repair later A few people in villages in Punjab were
running generators on biogas after making changes in its design on a self-help
basis,”
Proposed plants:
Letter of intent was issued for 12 MW power plants
established for utilization of agricultural wastes in Jhang and 9 MW plant
is going to be installed at Pak Ethanol Pvt. Ltd., Sindh. In coming years 5000
biogas units will be installed all over the country by Pakistan Counsel of
Renewable Energy Technologies (PCRET). Government has invested 356 million to
import 1400 biogas plants Biomass/
Waste-to-Energy Following Biomass/Waste-to-Energy projects are in various
stages of implementation under IPP mode: M/s SSJD (12 MW) Sind. M/s Lumen
Energia (12 MW Shahkot).Punjab M/s Biomass Power Generation Limited
(12 MW), Faisalabad M/s Green Sure Environmental Solutions (12 MW),
Mardan, KPK
Centre for Advanced Studies in Energy at NUST (CAS-EN) is
working on project entitled; “Biomass Resource Availability Study” funded by
International Finance Corporation a subsidiary of World Bank Group
(IFC-WBG)
Government
of Pakistan has asked PCRET to launch mega project on the biogas technology by
installing 25,000 biogas units all over the country to not only cater the needs
of cooking but also for agriculture and commercial purpose in order to meet the
shortage of gas and electricity in the country. The project is still under
evaluation and appraisal
Conclusions:
Biogas
intervention strategies, guidelines and facilities for the supply and use of
anaerobic biogas digesters, in rural communities for producing cooking gas and
organic fertilizer need to b devised through public and international financing
and technical assistance.
Biomass has been used as an energy
source for thousands of years by the humankind. Traditional fuels like
firewood, dung and crop residues currently contribute a major share in meeting
the everyday energy requirements of rural and low-income urban households in
Pakistan. An average biomass using household consumes 2325 kg of firewood
or 1480 kg of dung or 1160 kg of crop residues per annum. There are
good prospects for using biogas energy in rural areas through a network of
community biogas plants