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2) The current state and future of electric vehicles in South Africa, with an increasing number of models being introduced by automakers and a growing charging infrastructure.
3) Options for electric public transportation and infrastructure to support electric vehicles in cities, such as electric buses and charging stations.
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The document provides an overview of the automotive industry and auto component industry in India. It discusses the following key points:
1. The auto component industry in India has grown significantly in recent years and is poised to reach a turnover of USD 200 billion by 2026, up from USD 39 billion currently. Exports are expected to reach USD 80 billion.
2. India has a number of competitive advantages that are driving growth in the industry, including its large market size and growing middle class, competitive costs, and skilled workforce. The government is also investing heavily in infrastructure development.
3. The auto component industry faces some challenges as well, such as high costs of capital, infrastructure issues, and the need to
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Market Research Report : Electric vehicle market in india 2014 - SampleNetscribes, Inc.
For the complete report, get in touch with us at: info@netscribes.com
Abstract :
Electric vehicle market is expected to witness phenomenal growth in the coming years. Increasing fuel costs, rise in pollution level and increasing government support will boost the adoption of electric vehicles in India.
The report highlights the analysis of the drivers and explains the factors for growth of the industry. Government Initiatives, Rise in fuel costs, Low operating and maintenance cost and foreign dependence for crude oil are the key drivers for the Electric Vehicle Market in India. Recently, MNRE had implemented the Alternate Fuels for Surface Transportation Program to subsidize the purchase of electric vehicles. Domestic electric vehicle industry has witnessed significant short term growth owing to the various initiatives undertaken by the Indian government. Fuel costs play a vital role in influencing the consumer’s automobile purchase decision. Indian automobile industry has been witnessing sluggish demand and one of the primary reasons for this is increase in fuel prices. Use of electric vehicles is likely to reduce the increasing dependence on foreign crude oil as electricity can be generated from various natural resources in India. As electric vehicles are considered to be zero-polluting, increasing usage of such vehicles can aid in bringing down the country’s level of pollution.
Table of Contents :
Slide 1: Executive Summary
Macroeconomic Indicators
Slide 2: Economic Indicators: GDP at cost factor cost: Quarterly (2011-12- 2014-15) & Inflation rate Monthly (Jul-Aug 2013 – Nov-Dec 2013)
Slide 3: Gross fiscal deficit: Monthly (Feb-2013-Jul 2013) & Exchange Rate: Monthly (Apr 2014- Sep 2014)
Slide 4: Lending rate: Annual (2011-12-2013-14); Trade Balance: Annual (2010-11-2013-14) & FDI: Annual (2009-10-2012-13)
Introduction
Slide 5: Electric Vehicle – Introduction and Types of Electric Vehicles – Technology-wise
Slide 6: Electric Vehicle Market – Transition
Slide 7: Shift towards Electric Mobility
Market Overview
Electric Vehicle
Slide 8: Electric Vehicle Market – Overview, Market Size and Growth (2013-2018e) (Value wise), Market Share – Segment-wise (2012-13)
Slide 9: Vehicle Lifecycle Cost Comparison across Supply Chain – Electric Vehicle vs. ICE Vehicles
Slide 10: Cost Comparison across Manufacturing Process – Electric Vehicle vs. ICE Vehicles
Major Segments
Slide 11: Electric Four Wheelers Market – Overview, Market Size and Growth (2013-2018e) (Value wise), Consumer Preference – Electric Vehicle Technology-wise
Slide 12-13: Electric Two Wheelers Market – Overview, Market Size and Growth (2013-2018e) (Value wise), Consumer Preference, Low Speed and High Speed Electric Two Wheeler Specifications
Slide 13: Electric Three Wheelers – Overview, Market Size and Growth (2013-2018e) (Value wise)
Market Analysis
Slide 14: Matrix of Key Challenges to Electric Vehicle Adoption – Segme
The document summarizes a presentation on the performance and efficiency of high-speed rail systems in Europe and Asia between 2007-2012. It finds that Asian high-speed rail networks have achieved higher production efficiency and service effectiveness over this period compared to European networks. Productivity in Asia grew 26.9% due to improvements in both technical efficiency and technology, while productivity in Europe was unchanged. Taiwan stands out as continually improving its service effectiveness year over year. The results also show a stronger negative correlation between production efficiency and service effectiveness for European networks compared to Asian networks.
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Variable Renewable Energy in China's TransitionIEA-ETSAP
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Table of Contents :
Slide 1: Executive Summary
Macroeconomic Indicators
Slide 2: Economic Indicators: GDP at cost factor cost: Quarterly (2011-12- 2014-15) & Inflation rate Monthly (Jul-Aug 2013 – Nov-Dec 2013)
Slide 3: Gross fiscal deficit: Monthly (Feb-2013-Jul 2013) & Exchange Rate: Monthly (Apr 2014- Sep 2014)
Slide 4: Lending rate: Annual (2011-12-2013-14); Trade Balance: Annual (2010-11-2013-14) & FDI: Annual (2009-10-2012-13)
Introduction
Slide 5: Electric Vehicle – Introduction and Types of Electric Vehicles – Technology-wise
Slide 6: Electric Vehicle Market – Transition
Slide 7: Shift towards Electric Mobility
Market Overview
Electric Vehicle
Slide 8: Electric Vehicle Market – Overview, Market Size and Growth (2013-2018e) (Value wise), Market Share – Segment-wise (2012-13)
Slide 9: Vehicle Lifecycle Cost Comparison across Supply Chain – Electric Vehicle vs. ICE Vehicles
Slide 10: Cost Comparison across Manufacturing Process – Electric Vehicle vs. ICE Vehicles
Major Segments
Slide 11: Electric Four Wheelers Market – Overview, Market Size and Growth (2013-2018e) (Value wise), Consumer Preference – Electric Vehicle Technology-wise
Slide 12-13: Electric Two Wheelers Market – Overview, Market Size and Growth (2013-2018e) (Value wise), Consumer Preference, Low Speed and High Speed Electric Two Wheeler Specifications
Slide 13: Electric Three Wheelers – Overview, Market Size and Growth (2013-2018e) (Value wise)
Market Analysis
Slide 14: Matrix of Key Challenges to Electric Vehicle Adoption – Segme
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2. ‹#›APERC AsiaPacificEnergyResearchCentre
• To present a vehicle fleet model which is
prepared for estimating energy demand in
road transport sector in APEC economies
Objective of the presentation
3. ‹#›APERC AsiaPacificEnergyResearchCentre
APERC -Asia Pacific Energy Research Centre
• Supports the energy activities of APEC with:
o Research, especially analysis of energy supply and
demand in the APEC Region;
o Cooperative programs to promote energy
efficiency, low-carbon energy supply and
emergency preparedness for energy security.
• Established in 1996 and funded by the Japanese
government, based in Tokyo.
• Currently has 30 staff members, including 16 visiting
researchers from major APEC economies.
4. ‹#›APERC AsiaPacificEnergyResearchCentre
APEC Energy Demand and Supply Outlook
• The “APERC Energy Demand and Supply Outlook”
is a priority task of APERC under the APEC Energy
Action Programme adopted by leaders in 1995.
• We try to facilitate APEC cooperation by providing:
o Useful reference work on energy in the APEC region.
o Useful suggestions and case studies to policymakers.
• The 5th edition of the ”APEC Energy Demand and
Supply Outlook” was published in February 2013.
(It is available on APERC website http://
aperc.ieej.or.jp/)
6. ‹#›APERC AsiaPacificEnergyResearchCentre
APERC’s Outlook Model Structure
KEY
ASSUMPTIONS
• Macroeconomic
Data
• Oil Prices
• Domestic Fossil
Fuel Production
• Biofuel Content of
Liquid Fuels
• Own-Use Rates
• Heat Production
Market Shares and
Efficiencies by Fuel
• CO2 Emission
Factors
Industrial and
Non-Energy Demand
Model
Transport Demand
Model
Other Sector
(Residential/Commercial /
Agricultural) Demand
Model
Electricity Supply Model
RESULTS
TABLES
• Macroeconomic
Data
• Energy
Production and
Imports
• Own Use and
Transformation
Losses
• Final Energy
Demand
• Energy
Intensities
• CO2 Emissions
7. ‹#›APERC AsiaPacificEnergyResearchCentre
Transport Sector Modelling Techniques
Transport
sub-sector
Sub-mode/
vehicle class
APEC Energy Demand in 2011
(Mtoe) (Percent)
Model
Domestic
Road
Transport
- Light and Heavy
vehicles
- Motorcycles
1,053 73% Bottom-up
(Fleet Model)
Domestic
Non-Road
Transport
- Rail
- Pipeline
- Water
- Air
- Non-specific
37
53
33
80
6
3%
4%
2%
6%
0.4%
Top-down
(Econometric Model)
International
Non-Road
Transport
- Maritime
- Aviation
109
78
8%
5%
Top-down
(Econometric Model)
8. ‹#›APERC AsiaPacificEnergyResearchCentre
APERC’s Vehicle Fleet Model
▪ Vehicle ownership model -> vehicle stock
(GDP per capita, vehicle saturation, total vehicle
population, income elasticity, urban density)
▪ Vehicle stock turnover model -> vehicle sales and
vehicle retirement
(vehicle population by type and vehicle distribution by
age)
▪ Vehicle consumer choice model -> share of
vehicle technologies
(fuel cost, purchase prices, driving range, refueling
infrastructure, etc..)
▪ Vehicle travel model -> travel distance
(fuel cost, income, vehicle ownership, efficiency
improvement, urban density)
❖ Macroeconomic data
✓ GDP & Population
✓ Crude oil price
✓ Urbanisation
❖ Vehicle data
✓ Vehicle population
✓ Vehicle age distribution
✓ Vehicle sales
✓ Vehicle fuel economy
✓ Vehicle travel distance
❖ Energy data
✓ Retail fuel prices
✓ Blend ratio of biofuel
✓ IEA road energy use
9. ‹#›APERC AsiaPacificEnergyResearchCentre
Vehicle Ownership Model – Gompertz Function
tGDP
e
t eV
β
α
γ=
ownershipvehicleofsaturation=γ
populationVehicle=tV
tcoefficienshape=α
tcoefficienrate=β
PPP(real)GDP=tGDP
*Source - Dargay J, Gately D and Sommer M (2007)
Vehicle Ownership and Income Growth, Worldwide:
1960-2030.
12. ‹#›APERC AsiaPacificEnergyResearchCentre
Vehicle Stock Turnover Model
Vehicle Sales t =
Expected Stock t – (Vehicle Stock t-1 – Vehicle Retirement )
Survivalrate
0%
25%
50%
75%
100%
Vehicle Age
Light vehicle survival rate data
Light vehicle survival probability by Weibull fnc
Light vehicle survival curve (input)
Vehicle survival curve
Surviving Stock
Distributionbyage
0%
2%
4%
6%
8%
Year
Heavy vehicle distribution data
Heavy vehicle distribution by Weibull fnc
Heavy vehicle age distribution (input)
Vehicle distribution by age
13. ‹#›APERC AsiaPacificEnergyResearchCentre
Vehicle Consumer Choice Model
Powertrain Technology Fuel Type
Internal Combustion Engine (ICE) Gasoline
Diesel
LPG
CNG
Hybrid Electric Vehicles (HEV) Gasoline/Diesel
Plug-in Hybrid Electric Vehicles (PHEV) Gasoline/Diesel
Electricity
Battery Electric Vehicles (BEV) Electricity
Fuel Cell Electric Vehicle (FCEV) Hydrogen
Market Share (S) =
Variable Coefficient
Fuel cost -1.066
Purchase price -2.327
Driving radius 0.382
CMDD 0.517
PLDD 0.997
Type of Vehicle Technology
β = vehicle choice coefficient
U = utility coefficient
i = vehicle technology
Note: Fuel cost (FC)
Purchase price (PP)
Driving radius (DR)
Convenient medium distance destinations (CMDD)
Possible long distance destinations (PLDD)
Logit vehicle choice coefficient (β)
14. ‹#›APERC AsiaPacificEnergyResearchCentre
Vehicle Travel Elasticity Model
Factors considered:
• fuel cost
• Income
• vehicle ownership
• efficiency improvement
• urban density
Travel distance t = Initial travel distance t0
x Factor change to base year βLR
x Travel distance change to base year ((β LR-βSR)/βLR)
Variable Short Run Long Run
Fuel Cost -17% -27%
GDP per Capita 7% 20%
Vehicles per Capita -10% -29%
ex. Short run (SR) and long run (LR) elasticity for light vehicle travel
Energy demand = Number of vehicles by technology type x Travel distance
x Fuel economy
15. ‹#›APERC AsiaPacificEnergyResearchCentre
Vehicle Stock by Region
(Source: APERC Analysis)
Vehicle Stock (million)
% CAGR
(2012-2040)
Additional
Vehicles
(2012-2040)
%
Share
2012 2020 2030 2040
China 106 313 551 640 6.6% 533 60.5%
US 253 274 300 323 0.9% 69 7.9%
Russia 45 54 62 67 1.4% 22 2.5%
Other NE Asia 102 106 107 103 0.0% 1 0.1%
Other Americas 61 85 107 120 2.5% 60 6.7%
Oceania 19 22 27 31 1.8% 12 1.4%
South East Asia 50 88 157 235 5.7% 185 21.0%
APEC 637 943 1,310 1,519 3.2% 882 100%
APEC to add nearly 900 million vehicles by 2040, nearly triple current levels.
China and SEA account for more than 80% of this increase
17. ‹#›APERC AsiaPacificEnergyResearchCentre
Road Transport Energy Demand
Light duty vehicles represent two-thirds of road energy consumption,
peaking in 2030 thanks to improvements in fuel economy. Heavy vehicles
show the largest growth rates as demand for materials continue to rise.
(Source: APERC Analysis)
18. ‹#›APERC AsiaPacificEnergyResearchCentre
Regional Changes in Transport Energy Demand
Transport energy demand rises sharply in China and South East Asia, while declining trends are seen
in US, Russia and Other North East Asia thanks to slowing economic growth and tighter fuel efficiency
(Source: APERC Analysis)
20. ‹#›APERC AsiaPacificEnergyResearchCentre
• More than 80% of new vehicles added in APEC are in
China and South East Asia. Fuel efficiency an urgent
priority.
• Advanced vehicles are slowly introduced. Faster
penetration is needed.
• Heavy vehicles will be more significant share of energy
demand. Fuel economy standards for heavy vehicles
and mode shift to high efficient modes are
• Transport sector still relies very much on fossil oil.
Development of alternative fuels is needed more
efforts.
Key Messages from the Results
21. ‹#›APERC AsiaPacificEnergyResearchCentre
• The vehicle fleet model could deal very well with
vehicle stock changes and penetrations of
advanced vehicles.
• The model is also suitable for evaluating policy
and measures to introduce fuel economy standard
and promoting high efficient technologies.
• This model is based on vehicle unit. Need more
development to link with passengers and tons of
goods unit that will be able to deal with mode shift
policy.
Conclusion Remarks
29. ‹#›APERC AsiaPacificEnergyResearchCentre
Scenario Overview - Transport
• Two scenarios of transport sector: Efficient vehicles and Efficient urban development.
• In the efficient vehicles scenario, the most important factor considered is the fuel
efficiency of the fleet. Global Fuel Efficiency Initiative (GFEI) data was used as a
reference to make efficiency gains assumptions as follows:
• New technologies such as electric vehicles also play a role in future energy demand.
The model provides estimates of penetration of these technologies and their impact.
Scenario Group of
economies
Fuel economy improvement (% per
year)2012-2030 2030-2040
BAU A 1.0% 1.0%
B 2.0% 1.0%
Alternative A 2.0% 2.0%
B 2.7% 2.0%
Group A is economy where vehicle fuel economy labelling and standard policy has not been currently
implemented, which include Brunei Darussalam, Indonesia, Malaysia, Mexico, PNG, Peru, Philippines,
Russia, Thailand
Group B is economy where vehicle fuel economy labelling and standard policy has been currently implemented,
which include Australia, Canada, Chile, China, Hong Kong, Japan, Korea, New Zealand, Singapore, US, Viet
Nam, Chinese Taipei
30. ‹#›APERC AsiaPacificEnergyResearchCentre
Scenario Overview - Transport
• Efficient urban planning scenario is under development. This scenario will
maintain a constant level of urban density, instead of declining at 1.7% per
year as the historical world average.