Presented By:-

Prachet Sokhiya 13112066

Prateek Agrawal 13112067

 Overview
 Introduction + composition
 Production technique
 Production equipment
 Processing of biogas
 Benefits and limitations
 Application
 Indian scenario
 Global scenario
 Conclusion
Introduction
 Biogas typically refers to a mixture of different gases produced by the
breakdown of organic matter in the absence of oxygen.

 Microbially controlled production of biogas is an important part of the global

carbon cycle.

 It is a renewable energy source.

 The main source of raw material for production of biogas is Plant and Animal
biomass .
Biogas is primarily methane (CH4) and carbon dioxide (CO2) and may have
small amounts of hydrogen sulfide (H2S), moisture and siloxanes.

.5
TYPICAL GAS PRODUCTION FROM DIFFERENT FEEDSTOCK
Typical Gas Yield Typical Methane Content
Sl. No. Feedstock
(liters/kg) (%)
1. Paper Waste 480 53
2. Bagasse 330 57
3. Spent Tea Waste 235 57
4. Food Waste 160 62
5. Bamboo Pulp 145 54
6. Dry Leaves 118 60
7. Green leaves & twigs 100 65
8. Fruit waste 91 50
9. Bamboo dust 53 72
10. Distillery effluent 31 75
11. Black liquor (Paper Mill) 22 69
12. Animal Excreta
- Cow/Bullock 36 60-65%
- Buffalo 36 “
- Pig 78 “
- Chicken 62 “
13. Human Excreta 70 “
Biogas History
1776 : Marsh gas, By Volta
1808 : Humphry Davy, Methane
1859 : Leper colony, Mumbai, Digester
1895 : Gas lamp in Exeter, England
1907 : Patent, Germany
1930 : R&D
Production

Biogas is produced as landfill gas (LFG), which is produced by the breakdown of biodegradable
waste inside a landfill due to chemical reactions and microbes, or as digested gas, produced inside
an anaerobic digester.
Biogas is produced by four steps –
 Hydrolysis
 Acidogenesis
 Acetogenesis
 Methanogenesis
Production Equipment
The Main parts of a typical biogas plant consist of the following components:-
 Inlet
 Digester
 Gas holder
 Outlet

There are different types of biogas production plants . The main two types are as follows :-
 Fixed-dome Plant

 Floating-drum Plants
Fixed dome type
• A fixed-dome plant consists of a digester with a
fixed, non-movable gas holder, which sits on top
of the digester

• Advantage - The costs of a fixed-dome

biogas plant are relatively low. It is simple as no
moving parts exist. There are also no rusting steel
parts and hence a long life of the plant (20 years
or more) can be expected.
Floating dome type
• Floating-drum plants consist of an underground
digester and a moving gas-holder.

• The gas-holder floats either directly on the

fermentation slurry or in a water jacket of its own.

• The gas is collected in the gas drum, which rises or

moves down, according to the amount of gas
stored

• Advantage- Floating-drum plants are easy to

understand and operate. They provide gas at a
constant pressure, and the stored gas-volume is
immediately recognizable by the position of the
drum
Processing of Biogas

 The scrubbing of the biogas in order to remove impurities that are generated
during the digestion process such as CO2 (Carbon Dioxide) and H2S (Hydrogen
Sulfide)
 Biogas go through a cleaning process, and becomes biomethane.
 A simple method for Hydrogen Sulfide utilizing steel wool in a glass bottle
 For Carbon Dioxide removal, as well as additional Hydrogen Sulfide removal a
method of water spray crossflow can be used . In this method the Biogas
enters one end of a tube and experiences water streams flowing in the
opposite direction .
Benefits Of Biogas

 Alternate energy source

 Fertilizer
 Requires only locally and easily available material for construction
 Control pollution
 Little operational skills and maintenance required
 Rapid falls in disease
Advantage of biogas as a fuel

 High calorific value

 Renewable source of energy
 Non polluting
 Reduces landfills
 Economical Technology
Limitations of biogas

 Biogas can be explosive when mixed in the ratio of one part biogas to 8-20
parts air.
 Biogas leaks smell like rotten eggs (hydrogen sulfide)
 Not feasible
 Not Attractive on Large Scale
 Little technological advancement
 Contain Impurities
 Cannot be easily stored .
 Applications
 Biogas gas-grid injection

 Biogas in transport

 Using of carbon dioxide and methane as

chemical products

"Biogaståget Amanda" ("The Biogas Train

Amanda") train near Linköping station, Sweden
 Indian scenario
• India has installed 4.75 million small scale
biogas plants.

• India has potential maximum number of

biogas plants has been estimated to be 12-
17 million .

• Mainly biogas is produced based on dairy

manure as feed stock and these "gobar"
gas plants .

• In the last 2-3 decades, research

organisations with a focus on rural energy
security have enhanced the design of the
systems resulting in newer efficient low
cost designs
• India have additionally commissioned 158 projects under its biogas based grid
power generation programme, with a total installed capacity of 2 MW.

• National Biogas and manure management programme {NBMMB} is implemented

in our country since 1981-82 for promotion of biogas plants based on cattle dung
.

• To support above programme the governments providing 50% subsidy for

installation of biogas plant .
1.0 MW power project based on cattle dung at
Haebowal Dairy Complex Ludhiana, Punjab

2 MW biogas power at Kanoria Chem, Ankleshwar

3000 Cum biomethanation project of solid
waste at slaughterhouse in Andra Pradesh

Biomethanation of Tapioca Processing

wastewater at Varalaxmi Starch, Salem
Global Scenario
• In 2003, the United States consumed 147 trillion BTU of energy from "landfill gas“

• As of September 2013, there are about 130 non-sewage biogas plants in the UK. Most
are on-farm, and some larger facilities exist off-farm, which are taking food and
consumer wastes.

• Germany is Europe's biggest biogas producer and the market leader in biogas
technology. In 2010 there were 5,905 biogas plants operating throughout the country;
Lower Saxony, Bavaria and the eastern federal states are the main regions.

• Depending on size and location, a typical brick made fixed dome biogas plant can be
installed at the yard of a rural household with the investment between US$300 to
$500 in Asian countries and up to $1400 in the African context. A high quality biogas
plant needs minimum maintenance costs and can produce gas for at least 15–20 years
without major problems and re-investments
Conclusion

 Although renewable energy power generation is a genuine clean development

success story, there are some problems that need to be addressed to make the
industry sustainable and self-supporting

 Biogas offers a vast set of benefits.

 Except India and china , in other developing country the proportion of functioning
biogas plants is less than 50% .
 Considerable government involvement is required for these support network to
be continued over time

 It is challenge to develop a new technology for biogas generation which has low
cost , high efficiency of production and proper functionality .