ppt on sources of energy
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The document provides information on various sources of energy, including renewable and non-renewable sources. It discusses different types of energy sources such as solar, wind, tidal, geothermal, hydroelectric, biomass, and nuclear energy. It also provides details on fossil fuels such as coal, petroleum and natural gas. Additionally, it covers topics like calorific value of fuels, solar energy applications including solar cookers, solar water heaters, and solar cells. Limitations of various energy sources are also mentioned.
![Solar energy: (Energy obtained from sun)
Production of solar energy:
Nuclear fusion reaction
ELECTROMAGNETIC RADIATIONS
+ ENERGY(heat+light)
[Energy received /sec = 1.8 x 10¹¹ Mw.]
ADVANTAGESOF USINGSOLARENERGY:
1) Solar energy is a very large & inexhaustible source of energy.
2) Solar energy is a clean source of energy & it does not cause pollution.
Diameter : 1.4 x 10⁶ km. Temperature : (2 x 10⁷)°C
Distance : 1.5 x 10⁸ km. Mass : 2 x 1030 kg.
He
mass difference - Energy
E = mc²
H
H
H
H](https://image.slidesharecdn.com/pptonsorcesofenergy-150103042705-conversion-gate01/85/ppt-on-sources-of-energy-11-320.jpg)
![ 80% methane,
[excellent fuel , burns without smoke.]
BIOGAS PLANT :
CONSTRUCTION :
Digestor , DomeTwo main parts -
Dome
Fixed type Floating type
DIGESTOR
Well like structure containing
Animal waste in the form of slurry
Below the ground level
TWO PIPES
Feeding animal waste ,
SLURRY (Cow dung and water)
Taking out the used slurry “SLUDGE”.
VALVE Like a tap
WORKIING :
Slurry – slurry tank - DIGESTOR
Anaerobic microorganisms decomposes
the slurry in presence of water.
In few days BIOGAS is evolved.
(CO2), (H2), (H2S).
Biogas – DOME.through valve can be used
Residue left behind–“SLUDGE”-sludge tank
SLUDGE – very good fertilizer
Rich in N2, P,K. –excellent fertilizers.
Dome
Digestor
SludgeSlurry
Valve](https://image.slidesharecdn.com/pptonsorcesofenergy-150103042705-conversion-gate01/85/ppt-on-sources-of-energy-27-320.jpg)
ppt on sources of energy
- 1. PPT on Sources of energy BY- MADHAV CHHABRA X-C 17
- 2. ENERGY SOURCES ( ORIGIN POINT ) SOURCE
- 3. wind Wood Sun Nuclear energy Coal Geothermal
- 4. NON-RENEWABLE ENERGY SOURCES RENEWABLE ENERGY SOURCES The sources which once used are Lost forever and can’t be replenished. Causes pollution. Conventional sources. Exhaustible sources. • Eg. Firewood , Diesel , charcoal ……. The sources that have inherent capacity to reappear or replenish themselves by quick cycling, reproduction and replacement within a reasonable time. Do not cause pollution. Non-conventional sources. Inexhaustible sources. • Eg . Wind energy , Tidal energy …..
- 5. WIND ENERGY : ( WIND-moving air ) High pressure Low pressure
- 7. Wind mill (Wind energy-Electrical energy) 1. No. of blades 2. Shape of the blades 3. Height of the windmill WIND VELOCITY Wind energy farm
- 8. TIDAL ENERGY : LIMITATIONS OF TIDAL ENERGY : (Tide –Movement of water level along shore.) High Tide Generator Reservoir Sea Dam Low Tide Sea Dam Generator Reservoir 1) Rise and fall of water is insufficient to generate electricity on large scale. 2) There are very few sites suitable to construct such dams along a sea shore.
- 9. UPPERMOST SURFACE SOIL / STONES WATER ROCKS SPOTS “MAGMA” (MOLTEN ROCKS) GEYSER Generator GEOTHERMAL ENERGY :GEOTHERMAL HEAT EARTH
- 10. ENERGY FROM FLOWING WATER GENERATOR (HYDROELECTRIC POWER PLANT ) LIMITATIONS : 1) Very few sites available . 2) problem of rehabilitation . MINI HYDRO- ELECTRIC POWER PLANTS…….
- 11. Solar energy: (Energy obtained from sun) Production of solar energy: Nuclear fusion reaction ELECTROMAGNETIC RADIATIONS + ENERGY(heat+light) [Energy received /sec = 1.8 x 10¹¹ Mw.] ADVANTAGESOF USINGSOLARENERGY: 1) Solar energy is a very large & inexhaustible source of energy. 2) Solar energy is a clean source of energy & it does not cause pollution. Diameter : 1.4 x 10⁶ km. Temperature : (2 x 10⁷)°C Distance : 1.5 x 10⁸ km. Mass : 2 x 1030 kg. He mass difference - Energy E = mc² H H H H
- 12. LIMITATIONS OF SOLAR ENERGY: 1) Solar energy is a dilute source of energy. •Even in Hottest tropical region , solar energy/sec on 1m² , Is less than 1000 joule. •Very high amt. of energy – Technological applications. COST IS VERY HIGH. 2) The problem of availability . •Available only during day time. •Varies with time. •Varies with seasons. •Local weather conditions. (cloud cover , wind etc.) COST IS VERY HIGH dilute
- 13. SOLAR COOKER
- 14. 30º 30º MIRROR INSULATED BOX TRANSPARENT GLASS COVER COOKING POTS SOLAR COOKER
- 16. The box - insulating materials. (plastic / fiberglass / wood) The inner surface – BLACK. The walls – Thick. •Avoids dust particles to enter in the box. The plane mirror - maximum heat radiations are reflected in the box. The outer surface of cooking pots – BLACK. The temperature - 100°C -140°C. {2 hours} The food cooked which requires slow heating. Viz. Dal , Rice, Pulses, Vegitables.etc. Solar cooker: Insulated box Mirror (98% incident heat radiations) (To prevent loss of heat) Transparent Cover The glass cover . • Retains heat inside the box.
- 17. Solar dryer: Used to remove the moisture from the grapes. Solar cells : solar energy – electrical energy. (Photovoltaic cells) easily available in abundance & eco friendly. A typical solar cell - 2 cm² Piece of pure silicon. o.7 Watt electricity. Large no. of solar cells are combined together “SOLAR PANEL” Uses : T. V . relay stations , traffic signals ,stations in the remote area. Calculators & toys. To pump the water for irrigation. For lightening the rural area. SILICON
- 18. Flat plate collector Main cold Water line Cold water tank Insulated Storage tank Hot water to tap SOLAR WATER HEATER
- 19. SOLAR WATER HEATER Flat plate collector. Insulated storage tank. Copper pipes – coils – outer surface - black. Coils – bending provides more area for absorption of heat. All connecting pipes – copper(good conductor of heat). CONSTRUCTION : WORKING : Cold water from tank – Insulated storage tank with pressure. From insulated storage tank – Flat plate collector. Solar radiations , water – Hot – Lighter - goes up - Enters into tank. Hot water being lighter remains at the top. Hot water from tank, through copper pipes - connected to hot water tap. Flat plate collector Main cold Water line Cold water tank Insulated Storage tank Hot water to tap
- 20. Flat plate collector Main cold Water line Cold water tank Insulated Storage tank Hot water to tap SOLAR WATER HEATER
- 21. ²³⁵ U Ba n Kr ²³⁵ U Ba Kr n n ²³⁵ U Ba Kr n n n ²³⁵ U Ba Kr n n n Nuclear fissionfission Splitting up of nucleus ²³⁵ U ²³⁸ U U²³⁴ U Isotopes More than 99% Nuclear energy :Energy – Nucleus of an atom Nuclear fusion n n n ENERGY…. (HEAT) n ENERGY…. (HEAT) ENERGY…. (HEAT) ENERGY…. (HEAT) BURNER REACTION BURNER REACTOR CONTROLLEDCONTROLLED CHAIN REACTION UNCONTROLLED CHAIN REACTIONS FISSIBLE MATERIAL FERTILE MATERIAL 23 9 Pu BREEDER REACTIONS BREEDER REACTOR
- 22. 1 cubic meter NUCLEAR FUSIONFUSION 2 1 H Deuteron 2 1 H 2 1 H 2 1 H 2 1 H 2 1 H 2 1 H 2 1 H 2 1 H COMBINATION 12 x 109 kJ (kilo-joules) 2 1 H2 1 H 2 1 H 2 1 H 2 1 H 2 1 H 2 1 H 2 1 H 2 1 H
- 23. Biomass energy : (Biomass – Forest ,wood , Agricultural land , Sea animals , Human waste) DIRECT METHOD INDIRECT METHOD Burning Traditional chulhas Efficiency – less than 15% Biological conversion (Converting – solid / liquid / gases) Fermentation (Decomposition) Thermochemical conversion Gasifier Biomass Plants & animals materials N₂ H₂ CO₂ CO CH4 complex simple
- 24. Biofuels :Solid Liquid Seeds of soyabean & corn. Renewable energy source. Non-poisonous. Bio-degradable Replacement of diesel in diesel industry. NAGCHAMPA Gaseous CHARCOAL Fuels -Biomass JATHROPHA CLEAN SOURCE No sulphur No aromatics 10% oxygen inbuilt BIODIESEL
- 25. BIOGAS Gaseous fuel - Microbial decomposition - Organic matter - In absence of oxygen Methane (CH4) , Carbon dioxide (CO2) , Hydrogen (H2) , Hydrogen sulphide (H2S). USES : Clean combustible fuel. Cooking , Space heating , Lightning, etc.. BIOGAS PLANT : Dome Digestor Sludge Slurry Valve
- 27. 80% methane, [excellent fuel , burns without smoke.] BIOGAS PLANT : CONSTRUCTION : Digestor , DomeTwo main parts - Dome Fixed type Floating type DIGESTOR Well like structure containing Animal waste in the form of slurry Below the ground level TWO PIPES Feeding animal waste , SLURRY (Cow dung and water) Taking out the used slurry “SLUDGE”. VALVE Like a tap WORKIING : Slurry – slurry tank - DIGESTOR Anaerobic microorganisms decomposes the slurry in presence of water. In few days BIOGAS is evolved. (CO2), (H2), (H2S). Biogas – DOME.through valve can be used Residue left behind–“SLUDGE”-sludge tank SLUDGE – very good fertilizer Rich in N2, P,K. –excellent fertilizers. Dome Digestor SludgeSlurry Valve
- 28. FUELSFuels are the substances which on combustion produces energy in the form of heat. GaseousSolid Liquid Wood Coal Coke Chief constituent - CELLULOSE (C6H10O5)n Wood CO2 + H2O + energy (Heat+Light) Amorphous carbon & carbon compounds Peat ,Lignite, Bituminous , Anthracite. Coal (In absence of air) Coke 90 -95% carbon Burns without smoke Produces more heat than coal Coke - superior fuel than Coal
- 29. GaseousLiquid FUELSFuels are the substances which on combustion produces energy in the form of heat. Petroleum Complex mixture of Hydrocarbons Extracted from earth’s crust Thick , black liquid ‘’ FRACTIONAL DISTILLATION ’’ Petrol , diesel , kerosene , paraffin wax…. Crude oil Artificial Natural C.N.G. ( Compressed natural gas ) Coal gas Oil gas Petrol gas Water gas Producer gas Fractional distillation of coke Cracking of kerosene Cracking of petrol CO + N2 + OTHER GASES 30% 60% 10% White hot coalsteam
- 30. Q Q 1 Q 2 CALORIFIC VALUE OF FUEL The heat liberated in joule on complete burning of one unit of fuel is called as calorific val Q = Heat liberated by ‘m’ mass of fuel. Q1 = Heat absorbed by water. Q2= Heat absorbed by container. m = Mass of fuel. m1 =Mass of water. m2 =Mass of container. C1= Specific heat capacity of water. C2= Specific heat capacity of container. Q = Q1 + Q2 m1c1t(diff) +m2c2t(diff) -m = Calorific value Units Joule / kg Calorie / gram MKS CGS Q
- 31. Name of fuel Calorific value : (joule/kg) CHARCOAL 33 COAL 25 – 33 WOOD 17 COW DUNG CAKE 7 – 8 KEROSENE 48 FUEL OIL 45 ETHANOL ( ALCOHOL ) 30 HYDROGEN 150 METHANE 55 BUTANE ( LPG ) 55 BIOGAS 35 - 40 STATE OF FUEL SOLID LIQUID GASES HYDROGEN – MAXIMUM CALORIFIC VALUE Calorific value of Ethane is lower than Methane methane C H HH H Calorific value of Carbohydrates is lower than Hydrocarbons Ethane C CH H H H H H C H Hydrocarbons Carbohydrates CHO 10 C - 40 H 10 C - 30 H ( CH4 ) ( C2 H6 ) BURNING BURNING
- 32. Thanks to google Matter taken from wikipedia
- 33. ------End-----