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Urban Energy Use and Carbon Emission in Jakarta: Modeling Challenges
by:Charles O.P. Marpaung
Universitas Kristen Indonesia
International Workshop on Urban Energy and Carbon ModelingFebruary 5-6, 2008, AIT Centre, Asian Institute of Technology, Pathumthani, Thailand
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Presentation Outline
IntroductionObjectiveOverview of JakartaEnergy Use and CO2 EmissionConclusions
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Introduction
Population in urban area would increase in the future.Economic activities would also increaseMore energy would be consumed.The contribution of CO2 emission from the urban area would increase.
Great opportunity to reduce CO2 emission in the urban area
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Objective
To examine the energy use and CO2emission in an urban area in a developing country (Jakarta-Indonesia)
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Overview of Jakarta
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Map of Indonesia
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Geographical Map
6o12' South latitude
106o48' East longitude
7 meter above the sea level
Land area: 661.52 km2
Sea area: 6,977.5 km2
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Boundaries/JABODETABEK
BEKasi
TAngerang
BOgorDEpok
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Climate
Seasons:Rainy seasonDry season
Temperature:Highest: 34.1oC (by day)Lowest: 23.5oC (by night)
Humidity:Maximum: 88.0% (by day)Minimum: 23.5% (by night)
Rainfall intensity: 174.8 mm2
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Economic Activities
Manufacturing activities: Northern and Eastern part
Business and office administration activities: Western, Center, and Southern part
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Gross Domestic Regional Product
215.95 227.92238.67 250.33
263.62278.52
295.27312.68
0
50
100
150
200
250
300
350
1999 2000 2001 2002 2003 2004 2005 2006
Year
GD
RP
con
stan
t pric
e 20
00 (T
rilliu
n R
p.)
AAGR: 5.43%
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GDRP/Capita
26.0227.11
28.16 29.46 30.7732.25
33.9435.7
0
5
10
15
20
25
30
35
40
1999 2000 2001 2002 2003 2004 2005 2006
Year
GD
RP
/Cap
ita (M
illio
n R
p.)
AAGR: 4.62%
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Population
Year Population Population density (per km2)
1999 8,312,200 12,565
2000 8,386,000 12,677
2001 8,396,000 12,692
2002 8,379,000 12,664
2003 8,603,776 13,004
2004 8,725,630 13,187
2005 8,864,519 13,397
2006 8,961,680 13,545
AAGRpopulation = 1.1%
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Primary Energy Supply During 1999-2001
AAGR TPES from 1999 to 2001: 155,033 to 218,197 TJ (19%)
Shares from 2000 to 2001 in: Oil 89.58% to 82.20%
Coal 0.86% to 0.95%
Natural gas 9.56% to 16.85%
0
50,000
100,000
150,000
200,000
250,000
1999 2000 2001
Year
Prim
ary
Ene
rgy
Sup
ply
(TJ)
Oil Coal Natural Gas
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Final Energy Demand During 1999-2001
0
50,000
100,000
150,000
200,000
250,000
300,000
350,000
1999 2000 2001
Year
Fina
l Ene
rgy
Dem
and
(TJ)
Agriculture Commercial Industrial Residential Transport
AAGR FED from 1999 to 2001: 186,913 to 302,996 TJ (30%)
Shares from 2000 to 2001: Agriculture 0.008% to 0.005%
Commercial 0.93% to 0.68%
Industrial 30.35% to 28.28%
Residential 3.76% to 2.58%
Transport 64.96% to 64.46%
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Total CO2 emissions
25,533
29,738
37,360
0
5,000
10,000
15,000
20,000
25,000
30,000
35,000
40,000
CO
2 em
issi
on (t
hous
and
tons
)
1999 2000 2001Year
AAGR: 21.1%
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Sectoral Shares to Total CO2 Emission
Industrial from 8.0% to 11.1%
Power from 54.1% to 46.0% http://www.gcp-urcm.org/files/A20080204/Workshop/Power_Emission.pdf
Residential from 2.0% to 1.4%
Transport from 35.5% to 41.2% http://www.gcp-urcm.org/files/A20080204/Workshop/Vehicles.pdf
0
5,000
10,000
15,000
20,000
25,000
30,000
35,000
40,000
1999 2000 2001
Year
CO
2em
issi
on(th
ousa
ndto
ns)
Agriculture Commercial Industrial Power Residential Transport
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Other Indicators
Unit 1999 2000 2001
Per capita energy consumption toe per capita 0.16 0.15 0.16
Energy intensity of GDRP kgoe/1995 US$ 0.18 0.19 0.24
CO2 intensity of GDRP kg/1995 US$ 1.11 1.23 1.47
Per capita CO2 emissions ton per capita 3.07 3.55 4.45
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Strategy for Urban Air Quality Improvement (UAQ-i)
1. Air pollution prevention strategy• Utilization of gas fuel for public transport and industry for at least
5% in 2009• Utilization of bio-fuel at least 2% from the domestic consumption
of oil fuel in 2009 http://www.gcp-urcm.org/files/A20080204/Workshop/Biodiesel_in_Jakarta.pdf
• Increasing the number of urban citizens that give attention to the problem of air pollutions and the improvement efforts as high as 90% in 2020 as compared to in 2007
• Well planned urban de-concentration and development• Integrated transportation system and rationalization of urban land
use• Campaign on responsible use of vehicles• Campaign on responsible on energy conservation and utilization
alternative fuel• Campaign on the improvement of people awareness
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Strategy for Urban Air Quality Improvement (UAQ-i) (cont’d.)
2. Strategy for air pollution control from various sources• The availability of unleaded fuel with the sulfur content of 500
ppm and diesel fuel with the sulfur content of 500 ppm nationally in 2007
• The improvement of average speed of vehicles in big cities and metropolitan cities as high as 25% in 2020
• Decrease of air pollution coming from vehicles as high as 50% in 2020 as compared to the level of pollution in 2007.
• Decreases of air pollution from industrial activities as high as 50% in 2020 as compared to the level of pollution in 2007.
• The improvement of fuel quality• Compliance to the threshold of vehicle emission• Implementation of compliance to emission quality standard for
industrial activities http://www.gcp-urcm.org/files/A20080204/Workshop/Industrial_emission_standard.pdf
• Controlling pollution from other sources
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Strategy for Urban Air Quality Improvement (UAQ-i) (cont’d.)
3. Monitoring of air quality strategy4. Control strategy and mitigation of the health impact5. Strategy strengthening institutions and improvement
of Government capacity
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Conclusions
The share of oil in the primary energy supply is the highest but tend to decrease.The share of transport sector in the final energy demand is the highest (> 64%) and then followed by the industrial sector.The AAGR of total CO2 emission during 1999-2001 is around 21%.The highest contribution of CO2 emission to total CO2emission is from power sector and then followed by the transport sector.
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