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Energy Use Management

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UK oil production has decreased by 30% since 1999 ... Energy Saving Devices (ESD) can save up to 40% energy per day for street lighting ... – PowerPoint PPT presentation

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Title: Energy Use Management


1
Energy Use Management
  • Prepared by
  • Mahaveer Chand
  • Summer Trainee at SRI
  • Student of Aravali Institute of Management

2
Definitions
  • Energy
  • The ability to do work
  • Use
  • The act or practice of employing something
  • Management
  • Judicious use of means to accomplish an end
  • Conservation
  • A careful preservation and protection of
    something

3
Terminologies
  • Alternative Energy
  • Energy derived from sources that do not use up
    natural resources or harm the environment
  • ERoEI Energy Returned On Energy Invested
  • Energy Invested
  • In order to acquire, transport, store and use
    energy, it TAKES energy
  • Energy Returned
  • After you have taken into account all the energy
    used above...HOW MUCH energy do you have left
    with?

4
Sources of Energy
  • Non-Renewable
  • Oil
  • Gas
  • Coal
  • Nuclear
  • Renewable
  • Wind
  • Solar
  • Hydel
  • Biomass
  • Hydrogen
  • Geothermal Energy
  • Ocean Thermal

5
http//energy.cr.usgs.gov/energy/stats_ctry/Stat1.
htmlWProduction
6
(No Transcript)
7
Comparisons of India's Energy to World and China
Little Green Data Book World Bank
8
Oil
  • Oil reserves have got a great imbalance, where
    top 20 countries have 975 Billion bbls of
    reserves, rest of the world has 57 Billion bbls
    of reserves
  • Oil Demand - World
  • 75.99 Mb/d (2001) 81.08 Mb/d (2004)
  • Oil Production - World
  • 75.22 Mb/d (2001)
  • Oil Demand - India
  • 2.27 Mb/d (2001) 2.46 Mb/d (2004)

Million Barrels Per Day
http//www.infoplease.com/ipa/A0873829.html
9
Contd
  • Europe-Japan-US consume 12-25 barrels/capita-year,
    McKillop, 2004
  • India consume 1.5 barrels/capita-year
  • Demand for oil is growing by 1.5 Mb/d per annum -
    World
  • ASPO predicts world oil production will peak
    around 2007
  • World oil spare capacity has come down to 2 Mb/d
    in 2003 probably the lowest since World War II

Association for the Study of Peak Oil and Gas
10
Contd
  • Oil production is declining in Samotlor (Russias
    largest oilfield)
  • Production of Norway decreased by 10 in 2005
  • UK oil production has decreased by 30 since 1999
  • Mexico's super giant Cantrell oilfield is now in
    decline

ASPO
11
Contd
  • Four OPEC countries has passed peak of which
    Indonesia has become net importer of oil
  • All OECD oil exporters has passed peak
  • Net increase in oil reserves after the
    explorations and findings of new fields is
    negative since 1980
  • Crude oil prices has gone up from 26 per barrel
    in May 2003 to 74 per barrel in May 2006
    (Scarcity Premium 20-30 )

ASPO
12
Crude Oil India
(Million Tonnes of Oil Equivalent)
TERI Energy Data, Directory and Year Book (TEDDY)
13
Natural Gas
  • Production 9.5 million boe/day - World (2001)
  • The production of natural gas will peak between
    2020 and 2030 - World
  • India does not have large gas reserves
  • Indias Natural Gas Demand/Production (in MCM)
  • 31763 (2004-05) 32205 (2005-06)
  • OR
  • 0.547 Mboe/day 0.555 Mboe/day

14
Natural Gas India
(Million Tonnes of Oil Equivalent)
TERI Energy Data, Directory and Year Book (TEDDY)
15
Coal
  • Over 3,650 million tonnes (Mt) of hard coal were
    produced in 1998 half of which was used for
    electricity generation
  • Coal would last for next 80 100 years
  • India has a large reserves of coal but of lower
    quality
  • Coal has the highest emission of CO2 among all
    fossil fuels

16
Coal and Lignite India
(Million Tonnes of Oil Equivalent)
TERI Energy Data, Directory and Year Book (TEDDY)
17
Consumer wise off take of Coal
(Million Tonnes)
Does not include Meghalaya coal Apr. Dec. 05
http//coal.nic.in/reserve.htm http//coal.nic.i
n/cpddoc.htm
18
(No Transcript)
19
Nuclear Power
  • Carbon emission from nuclear fission is low but
    there are many serious environmental issues which
    do not even have any solution
  • Cost of production is low as compared to other
    systems but the capital investment required,
    operation and maintenance expenses are high
  • Cost of disposing the radioactive waste after the
    plant closing is tremendous

20
Contd
  • Radioactive waste produced by nuclear power till
    now is not yet de-commissioned
  • Moreover, the production will take at least
    twenty years

Nuclear Energy India
(Million Tonnes of Oil Equivalent)
TERI Energy Data, Directory and Year Book (TEDDY)
21
Wind
  • ERoEI for wind is 80-100
  • Construction period is short 2-20 weeks
  • No carbon emission, no fuels required, no
    disposal cost and low maintenance
  • Energy losses in transmission is as low as 4
    over a distance of 1000 kms. of HVDC
  • Overall efficiency is 20-25 with a life of 20-25
    years
  • Wind energy grew by 25 for last 10 years
  • India has a installed capacity of 4.5 GW while
    the potential is of 45 GW

22
Solar
  • The average solar radiation in India is 4-7
    kWh/m2/day with 300 clear sunny days in a year
  • SWHS 700,000 sq. m installed capacity with a
    potential of 140 million sq. m
  • SAHS 5,000 sq. m installed capacity 541,000
    Solar Cookers in use
  • Worlds largest solar cooking venue in Tirupati
    (15000 people/day)
  • 140 MW Integrated Solar Combined Cycle with a
    solar thermal component of 35 MW power project
    near Jodhpur (first of its kind in India)

http//mnes.nic.in/business20oppertunity/retsot.h
tm
23
Biomass
  • The energy from plants and plant derived
    materials
  • Biomass can be used for fuels, power production
    and products

24
Biofuels
  • India has 62 million hectares of wasteland1
  • Corporate farming can create 15 m new jobs
  • Two most common biofuels are Ethanol and
    Biodiesel
  • Biofuels can be produced from Palm Oil, Jatropha,
    Rice Husk, Wheat Husk, etc.
  • Per hectare Jatropha seed yield which starts from
    the 1 yr. _at_ 500 kg / ha goes up to 6-12 MT/ha/yr
    in 3rd and 4th year2

1http//www.projectsmonitor.com/detailnews.asp?new
sid8127 2http//www.biodieseltechnologiesindia.co
m./
25
Butanol
  • Can be produced from corn and other biomass
  • One bushel of corn can yield 2.5 gallons of
    butanol with some hydrogen
  • It does not produces Sox and Nox so less GHG
  • Butanol replaces every single drop of gasoline
    without engine modification
  • Hydrocarbon emission-5, CO-Nil, NxOy-63

26
Comparison
27
Hydrogen
  • 2700 times less energy dense than petrol
  • Three ways to reduce in size
  • Compression
  • Liquefaction
  • Chemical-combination
  • 13 more tankers are required if transported by
    road
  • By pipelines, 33 is wasted for a 3000 km. line

http//wolf.readinglitho.co.uk/subpage/hydrogen.ht
mltop
28
Geothermal Energy
  • Generated by mining the earths heat
  • Current electricity generation is about 9000 MW
    of which US produces 1/3rd
  • Nearly 400 low to medium enthalpy thermal springs
    exist in India
  • Total power generating capacity is estimated to
    be 10,000 MW in India
  • This can be best utilize in food production and
    food processing

29
Ocean Thermal Energy Conversion
  • OTEC is a way to generate electricity using the
    temperature difference of seawater at different
    depth with an overall efficiency of 1 to 3
  • India piloted a 1 MW floating OTEC plant near
    Tamil Nadu (working on trial basis)

30
ERoEI
31
Renewables India
32
Energy Conservation
  • Energy Saving Devices (ESD) can save up to 40
    energy per day for street lighting
  • Replacing incandescent bulb (60W) with compact
    fluorescent bulb (18W) will reduce power
    consumption by 70 (Pay-back 1Yr)
  • Using electronic ballasts can increases lamps
    efficiency by 25 and light output by 10-15
  • Using Economizer in air conditioners reduces
    power consumption

33
Case Study Mother Dairy
34
Mother Dairy Corrective Measures Taken
  • Water content in ammonia was decreased from 4.5
    to 1 which was consuming more energy resulted in
    consumption reduction of 154249 kWh with an
    investment of Rs. 65,000 only

35
Case Study RIL (Refinery Division)
  • Reduction in hydrocarbon flaring from 53 to 10
    Tons per day
  • Measures Taken
  • Installed a skid mounted flare gas recovery
    system
  • A Flare Gas Amine Absorber
  • Investment of Rs.10.08 cr. with payback period of
    9 months

36
World Scenario (2000)
Institute of Energy Economics, Japan December
2000
37
World Scenario (2005)
38
Energy Guzzlers
  • Agriculture
  • Transport
  • Industries
  • Household
  • Municipalities

39
Agriculture
  • One of the largest direct and indirect energy
    consumer

40
Thank You
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