1. The document discusses the transition from internal combustion engine vehicles to electric vehicles. It provides details on different types of electric vehicles and compares their efficiencies and emissions to combustion engines.
2. Infrastructure challenges for electric vehicle adoption are addressed, including developing adequate public charging networks and increasing the energy efficiency of batteries. Government policies to incentivize electric vehicle production and consumption are also examined.
3. The automotive industry is shifting from a focus on combustion engines to prioritizing electric, autonomous, connected and shared mobility technologies. Automakers are aiming to increase their electric vehicle portfolios and reduce costs to accelerate this transition.
A brief Seminar Presentation on the Hybrid Electric Vehicle (HEV) Powertrain Components, Architecture and Modes of Hybridisation. Also includes the Classification of HEV on the basis of Energy Flow.
Presentation on BEV ( Battery Operated Electric Vehicles) Pranav Mistry
Innovation done on BEV ( Battery Operated Electric Vehicles) with best in class miles/charge, Fast charging , Reduced price of maintenance , Suspension based charging etc
An electric vehicle (EV) is one that operates on an electric motor, instead of an internal-combustion engine that generates power by burning a mix of fuel and gases. Therefore, such as vehicle is seen as a possible replacement for current-generation automobile, in order to address the issue of rising pollution, global warming, depleting natural resources, etc. Though the concept of electric vehicles has been around for a long time, it has drawn a considerable amount of interest in the past decade amid a rising carbon footprint and other environmental impacts of fuel-based vehicles.
Now India is Implementing with Preference and Priority A Green Carbon Free Silent Road Transportation Electric Vehicle and Charging Infrastructure. To Charge These Vehicle we need more power and Separate Power Infrastructure to ensure Stable and Clean Power System with support 24X7 only possible with addition Solar PV Power Plant and High Energy Storage Power System adoption and Implements where demand is more that 1MW.
Our Broad Band and Telecom Signal should be Strong Signal and Fast response as and when require by System.
Ministry Of Urban Infra , Railways, Power , National Highway and Road Infra already advise all State and Central to offer Charging Facilities as per demand in the Market 3KM Radius Public Charging and 25KM Both side of Highways Electric Vehicle Charging Station for Charging 2/3/4 Wheeler Vehicle along with Passenger Buses and Heavy Fleet Electric Vehicles.
This Can be Charging Station or with Restaurant in Highways power demand may be 2.00MW-4.00MW .
Plz Find Attach latest presentation EV Charging Infra from Linkvue System Pvt Ltd Kindly go through .visit www.linkvuesystem.com
We are into Manufacturing , Supply ,Design ,Engineering ,Selection of Genuine and Right Products with supervision support for Installation .
Electrical Safety Earthing ,Lightning and Surge Protection
Net Working Solution LAN ,Fiber ,Wireless and GSM Solutions
Automation and Data Logger RTU's
Protocol Convertor and FO Convertors
CCTV .Fire Alarm ,Access Controls, Security Systems
Fencing PIDS
Industrial PLUG Socket IP 68 Out door up to 400 Amps
Electric Vehicle Charging Connectors and Harness
Solar MC4 Connectors with and Without Fuses
Plz Contact M-9811247237 Mahesh Chandra Manav
manav.chandra@linkvuesystem.com.
A brief Seminar Presentation on the Hybrid Electric Vehicle (HEV) Powertrain Components, Architecture and Modes of Hybridisation. Also includes the Classification of HEV on the basis of Energy Flow.
Presentation on BEV ( Battery Operated Electric Vehicles) Pranav Mistry
Innovation done on BEV ( Battery Operated Electric Vehicles) with best in class miles/charge, Fast charging , Reduced price of maintenance , Suspension based charging etc
An electric vehicle (EV) is one that operates on an electric motor, instead of an internal-combustion engine that generates power by burning a mix of fuel and gases. Therefore, such as vehicle is seen as a possible replacement for current-generation automobile, in order to address the issue of rising pollution, global warming, depleting natural resources, etc. Though the concept of electric vehicles has been around for a long time, it has drawn a considerable amount of interest in the past decade amid a rising carbon footprint and other environmental impacts of fuel-based vehicles.
Now India is Implementing with Preference and Priority A Green Carbon Free Silent Road Transportation Electric Vehicle and Charging Infrastructure. To Charge These Vehicle we need more power and Separate Power Infrastructure to ensure Stable and Clean Power System with support 24X7 only possible with addition Solar PV Power Plant and High Energy Storage Power System adoption and Implements where demand is more that 1MW.
Our Broad Band and Telecom Signal should be Strong Signal and Fast response as and when require by System.
Ministry Of Urban Infra , Railways, Power , National Highway and Road Infra already advise all State and Central to offer Charging Facilities as per demand in the Market 3KM Radius Public Charging and 25KM Both side of Highways Electric Vehicle Charging Station for Charging 2/3/4 Wheeler Vehicle along with Passenger Buses and Heavy Fleet Electric Vehicles.
This Can be Charging Station or with Restaurant in Highways power demand may be 2.00MW-4.00MW .
Plz Find Attach latest presentation EV Charging Infra from Linkvue System Pvt Ltd Kindly go through .visit www.linkvuesystem.com
We are into Manufacturing , Supply ,Design ,Engineering ,Selection of Genuine and Right Products with supervision support for Installation .
Electrical Safety Earthing ,Lightning and Surge Protection
Net Working Solution LAN ,Fiber ,Wireless and GSM Solutions
Automation and Data Logger RTU's
Protocol Convertor and FO Convertors
CCTV .Fire Alarm ,Access Controls, Security Systems
Fencing PIDS
Industrial PLUG Socket IP 68 Out door up to 400 Amps
Electric Vehicle Charging Connectors and Harness
Solar MC4 Connectors with and Without Fuses
Plz Contact M-9811247237 Mahesh Chandra Manav
manav.chandra@linkvuesystem.com.
ELECTRIC VEHICLE PRESENTATION BY PRANAY GHATODE PranayGhatode
Electric vehicles are vehicles that are either partially or fully powered by electric power. The demand for EVs is increasing day by day. As we have several benefits for Electric Vehicles when compared to Gas Vehicles. Here in this informative essay on electric vehicles, we are giving complete details about them.
Electric Vehicles are means of transport that consume eclectic energy as fuel instead of traditional fuels such as petrol, diesel, and CNG. These vehicles may be powered through a collector system by electricity from off-vehicle sources or maybe inbuilt with a battery, solar panels, fuel cells, or an electric generator to convert fuel to electricity. Electric bikes, electric cars, electric rickshaws, etc are some examples.
plug in hybrid electrical vehicals seminar ppt by MD NAWAZMD NAWAZ
A 'gasoline-electric hybrid car' or 'Plug in hybrid electric vehicle' is a vehicle which relies not only on batteries but also on an internal combustion engine which drives a generator to provide the electricity and may also drive a wheel. It has great advantages over the previously used gasoline engine that drives the power from gasoline only. It also is a major source of air pollution. The objective is to design and fabricate a two wheeler hybrid electric vehicle powered by both battery and gasoline. The combination of both the power makes the vehicle dynamic in nature. It provides its owner with advantages in fuel economy and environmental impact over conventional automobiles. Hybrid electric vehicles combine an electric motor, battery and power system with an internal combustion engine to achieve better fuel economy and reduce toxic emissions.
In HEV, the battery alone provides power for low-speed driving conditions where internal combustion engines are least efficient. In accelerating, long highways, or hill climbing the electric motor provides additional power to assist the engine. This allows a smaller, more efficient engine to be used. Besides it also utilizes the concept of regenerative braking for optimized utilization of energy. Energy dissipated during braking in HEV is used in charging battery. Thus the vehicle is best suited for the growing urban areas with high traffic. Initially the designing of the vehicle in CAD, simulations of inverter and other models are done. Equipment and their cost analysis are done. It deals with the fabrication of the vehicle. This includes assembly of IC Engine and its components. The next phase consists of implementing the electric power drive and designing the controllers. The final stage would consist of increasing the efficiency of the vehicle in economic ways.
Today transportation sector has facing many problems with conventional vehicles like petroleum and diesel vehicles which release most of the pollutants like CO2 and nitrogen oxide emissions which ultimately have an effect on human health. so to decrease this problem there is the invention of electrical vehicles but to fixed battery EVS the owner of the vehicle should wait for long hours to charge one vehicle and if the vehicle stops in any remote areas then it is difficult to charge the battery. So to reduce this problem and to increase electrical vehicle using the solution is to use autonomous battery swapping stations and producing mobile van technology for charging the vehicle in remote areas this idea ultimately increases EV adoption in the world which leads to having good human health.
Creating a PowerPoint presentation on the "Types of Electric Vehicles" can be a useful way to educate your audience about the various electric vehicle (EV) technologies available. Here's a short description for each type of electric vehicle that you can include in your presentation:
Slide 1: Title
Title: "Types of Electric Vehicles"
Slide 2: Introduction
Briefly introduce the topic and its importance.
Mention the environmental and economic benefits of electric vehicles.
Slide 3: Battery Electric Vehicles (BEVs)
Describe BEVs as vehicles that run solely on electric power.
Highlight their zero-emission nature.
Mention examples like Tesla Model 3 and Nissan Leaf.
Slide 4: Plug-in Hybrid Electric Vehicles (PHEVs)
Explain PHEVs as vehicles that combine an electric motor and an internal combustion engine.
Emphasize their ability to drive on electric power and gasoline.
Mention examples like the Chevrolet Volt.
Slide 5: Hybrid Electric Vehicles (HEVs)
Define HEVs as vehicles with both an electric motor and an internal combustion engine.
Explain how they use regenerative braking to charge the battery.
Mention examples like the Toyota Prius.
Slide 6: Fuel Cell Electric Vehicles (FCEVs)
Describe FCEVs as vehicles that use hydrogen fuel cells to generate electricity to power the electric motor.
Emphasize their zero-emission nature and fast refueling times.
Mention examples like the Toyota Mirai.
Slide 7: E-Bikes and E-Scooters
Explain that electric bicycles (e-bikes) and electric scooters (e-scooters) are becoming popular forms of electric mobility.
Discuss their role in last-mile transportation.
Slide 8: Commercial Electric Vehicles
Mention electric buses, trucks, and delivery vans.
Explain how commercial EVs contribute to reducing emissions in urban areas.
Slide 9: Electric Vehicle Charging Infrastructure
Highlight the importance of charging infrastructure for EV adoption.
Discuss the types of chargers (Level 1, Level 2, DC fast chargers).
Slide 10: Government Incentives
Explain government incentives and subsidies for electric vehicle adoption.
Mention tax credits, rebates, and other benefits.
Slide 11: Environmental Benefits
Discuss how electric vehicles contribute to reducing air pollution and greenhouse gas emissions.
Highlight the positive impact on local air quality.
Slide 12: Cost of Ownership
Compare the total cost of ownership of electric vehicles to traditional gasoline vehicles.
Mention savings on fuel and maintenance.
Slide 13: Challenges and Future Outlook
Address challenges such as range anxiety, charging infrastructure gaps, and battery disposal.
Discuss the future outlook of electric vehicles and advancements in technology.
Slide 14: Conclusion
BEV ( Battery Operated Electric Vehicles) PPTPranav Mistry
Presentation done on subject of BEV ( Battery Operated Electrical Vehicles) at ARAI ( Automobile Research Association Of India ,Pune) on 4 Th December .2019
Detailed presentation on the basics of an electric vehicle, comparison of different motors for EV application, comparison of different batteries for EV application, Charging infrastructure for EV in India and a brief on BMS(Battery Management System).
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
ELECTRIC VEHICLE PRESENTATION BY PRANAY GHATODE PranayGhatode
Electric vehicles are vehicles that are either partially or fully powered by electric power. The demand for EVs is increasing day by day. As we have several benefits for Electric Vehicles when compared to Gas Vehicles. Here in this informative essay on electric vehicles, we are giving complete details about them.
Electric Vehicles are means of transport that consume eclectic energy as fuel instead of traditional fuels such as petrol, diesel, and CNG. These vehicles may be powered through a collector system by electricity from off-vehicle sources or maybe inbuilt with a battery, solar panels, fuel cells, or an electric generator to convert fuel to electricity. Electric bikes, electric cars, electric rickshaws, etc are some examples.
plug in hybrid electrical vehicals seminar ppt by MD NAWAZMD NAWAZ
A 'gasoline-electric hybrid car' or 'Plug in hybrid electric vehicle' is a vehicle which relies not only on batteries but also on an internal combustion engine which drives a generator to provide the electricity and may also drive a wheel. It has great advantages over the previously used gasoline engine that drives the power from gasoline only. It also is a major source of air pollution. The objective is to design and fabricate a two wheeler hybrid electric vehicle powered by both battery and gasoline. The combination of both the power makes the vehicle dynamic in nature. It provides its owner with advantages in fuel economy and environmental impact over conventional automobiles. Hybrid electric vehicles combine an electric motor, battery and power system with an internal combustion engine to achieve better fuel economy and reduce toxic emissions.
In HEV, the battery alone provides power for low-speed driving conditions where internal combustion engines are least efficient. In accelerating, long highways, or hill climbing the electric motor provides additional power to assist the engine. This allows a smaller, more efficient engine to be used. Besides it also utilizes the concept of regenerative braking for optimized utilization of energy. Energy dissipated during braking in HEV is used in charging battery. Thus the vehicle is best suited for the growing urban areas with high traffic. Initially the designing of the vehicle in CAD, simulations of inverter and other models are done. Equipment and their cost analysis are done. It deals with the fabrication of the vehicle. This includes assembly of IC Engine and its components. The next phase consists of implementing the electric power drive and designing the controllers. The final stage would consist of increasing the efficiency of the vehicle in economic ways.
Today transportation sector has facing many problems with conventional vehicles like petroleum and diesel vehicles which release most of the pollutants like CO2 and nitrogen oxide emissions which ultimately have an effect on human health. so to decrease this problem there is the invention of electrical vehicles but to fixed battery EVS the owner of the vehicle should wait for long hours to charge one vehicle and if the vehicle stops in any remote areas then it is difficult to charge the battery. So to reduce this problem and to increase electrical vehicle using the solution is to use autonomous battery swapping stations and producing mobile van technology for charging the vehicle in remote areas this idea ultimately increases EV adoption in the world which leads to having good human health.
Creating a PowerPoint presentation on the "Types of Electric Vehicles" can be a useful way to educate your audience about the various electric vehicle (EV) technologies available. Here's a short description for each type of electric vehicle that you can include in your presentation:
Slide 1: Title
Title: "Types of Electric Vehicles"
Slide 2: Introduction
Briefly introduce the topic and its importance.
Mention the environmental and economic benefits of electric vehicles.
Slide 3: Battery Electric Vehicles (BEVs)
Describe BEVs as vehicles that run solely on electric power.
Highlight their zero-emission nature.
Mention examples like Tesla Model 3 and Nissan Leaf.
Slide 4: Plug-in Hybrid Electric Vehicles (PHEVs)
Explain PHEVs as vehicles that combine an electric motor and an internal combustion engine.
Emphasize their ability to drive on electric power and gasoline.
Mention examples like the Chevrolet Volt.
Slide 5: Hybrid Electric Vehicles (HEVs)
Define HEVs as vehicles with both an electric motor and an internal combustion engine.
Explain how they use regenerative braking to charge the battery.
Mention examples like the Toyota Prius.
Slide 6: Fuel Cell Electric Vehicles (FCEVs)
Describe FCEVs as vehicles that use hydrogen fuel cells to generate electricity to power the electric motor.
Emphasize their zero-emission nature and fast refueling times.
Mention examples like the Toyota Mirai.
Slide 7: E-Bikes and E-Scooters
Explain that electric bicycles (e-bikes) and electric scooters (e-scooters) are becoming popular forms of electric mobility.
Discuss their role in last-mile transportation.
Slide 8: Commercial Electric Vehicles
Mention electric buses, trucks, and delivery vans.
Explain how commercial EVs contribute to reducing emissions in urban areas.
Slide 9: Electric Vehicle Charging Infrastructure
Highlight the importance of charging infrastructure for EV adoption.
Discuss the types of chargers (Level 1, Level 2, DC fast chargers).
Slide 10: Government Incentives
Explain government incentives and subsidies for electric vehicle adoption.
Mention tax credits, rebates, and other benefits.
Slide 11: Environmental Benefits
Discuss how electric vehicles contribute to reducing air pollution and greenhouse gas emissions.
Highlight the positive impact on local air quality.
Slide 12: Cost of Ownership
Compare the total cost of ownership of electric vehicles to traditional gasoline vehicles.
Mention savings on fuel and maintenance.
Slide 13: Challenges and Future Outlook
Address challenges such as range anxiety, charging infrastructure gaps, and battery disposal.
Discuss the future outlook of electric vehicles and advancements in technology.
Slide 14: Conclusion
BEV ( Battery Operated Electric Vehicles) PPTPranav Mistry
Presentation done on subject of BEV ( Battery Operated Electrical Vehicles) at ARAI ( Automobile Research Association Of India ,Pune) on 4 Th December .2019
Detailed presentation on the basics of an electric vehicle, comparison of different motors for EV application, comparison of different batteries for EV application, Charging infrastructure for EV in India and a brief on BMS(Battery Management System).
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
Panasonic Corp is the biggest supplier of lithium-ion batteries used in electric cars - Panasonic will supply twp billion lithium-ion battery cells to Tesla Motors in the next four years per recently inked new agreement; through 2017
Emission Reductions from Electric Cars Will Increase Every Year – Isn’t that ...Katy Kidwell
Running a car on electricity today in Massachusetts or Rhode Island results in far fewer emissions because the mix of resources on the grid is cleaner than burning gas and electric motors move a car more efficiently than gas engines. That means electric vehicles will be come greener and greener over time! Get one today.
"The Future of the Automotive Industry", Automotive Session, POSCO EVI ForumYonki Hyungkeun PARK
The Future of the Automotive Industry and its Impact on Automotive Materials
Presentation on November 1st POSCO EVI Forum
New trends - Rise of EVs, Autonomous Vehicles, Sharing Econommy
Impact on Automotive Industry-
Changes in Value Chain, Business Model, Car Design
A lithium-ion battery (sometimes Li-ion battery or LIB) is a member of a family of rechargeable battery types in which lithium ions move from the negative electrode to the positive electrode during discharge and back when charging. Li-ion batteries use an intercalated lithium compound as one electrode material, compared to the metallic lithium used in a non-rechargeable lithium battery. The electrolyte, which allows for ionic movement, and the two electrodes are the constituent components of a lithium-ion battery cell.
Seminar given on 20 June, 2012 within the course: La comunicación intercultural euroasiática en las condiciones del proceso de Bolonia from the University of Granada
This slide is about the type of hybrid vehicle available in the market along with the case study of some hybrid cars. It is prepared from the study paper - presented at the SAE Research Paper competition, School of Technology, Pandit Deendayal Petroleum University. The Research Paper on the above topic which is renamed as "Hybrid Vehicle: A Study on Technology" is published at http://www.ijert.org/view.php?id=12126&title=hybrid-vehicle-a-study-on-technology.
Electric cars are automobiles, which are powered by the electric engine and electric energy. The development of the electric vehicles is a very perspective and important process. Scientists and engineers managed to create electric engines which are no less effective than the ordinary engines used today. It is obvious that electric cars are more ecologically safe and require less energy for work. EVs provide fast acceleration by delivering power instantly to the wheels by providing high torque at low speeds; they give a feel of smooth and quick responsiveness (Technology).
Recognizing such organizations, Insights Success brings to you, “The 10 Smart EV Charging Solution Providers, 2018” which have now strengthened their foothold in the EV industry and are unfailingly delivering contemporary EV charging solutions.
Background
India, the largest market for two-wheelers and the fifth-biggest market for passenger vehicles (cars, vans, and utility vehicles), has a negligible presence of electric vehicles at this point. The government has expressed intent to push manufactures to get into mass manufacturing of electric vehicles to meet its 2030 target in its bid to reduce dependence on imported fuel and control environmental pollution.
India launched its National Electric Mobility Mission Plan 2020 (NEMMP) in 2013 to ease dependence on foreign oil imports. The National Electric Mobility Mission Plan 2020, notified by the Department of Heavy Industry, Ministry of Heavy Industries and Public Enterprises, Government of India seeks to enhance national energy security, mitigate adverse environmental impacts from road transport vehicles and boost domestic manufacturing capabilities for Electric Vehicles (EVs). It is envisaged that EVs are expected to play a significant role in India’s transition to a low-carbon eco-system.
Government of India has formulated a scheme, titled Faster Adoption and Manufacturing of (Hybrid &) Electric Vehicles in India, under the National Electric Mobility Mission Plan 2020, to encourage the progressive induction of reliable, affordable and efficient electric and hybrid vehicles. The scheme is proposed to be implemented till 2020, wherein it is intended to support the hybrid/EVs market development and its manufacturing eco-system to achieve self-sustenance.
About EV
Electric vehicle (EV) is a mode of transport system that utilizes electricity to power their motors, instead of using conventional vehicle fuels. There are two basic types of EVs: all-electric vehicles (AEVs) and plug-in hybrid electric vehicles (PHEVs).
CALSTART Fuels Program Manager, Dr Jasna Tomic, presented on vehicle-to-grid (V2G) technology at Plug-In 2009, Long Beach, CA "Plug-in Vehicles as Sources of Power"
A Study on Customer Perception of Electric Vehicle and Its Impact on Traditio...ijtsrd
India traditionally has been belligerent to any changes. But with the need to curb environmental emissions it has been identified that there is a need to switch from ICE vehicles to Electric Vehicles. This switch is eminent and a necessity in order to fight the climatic and environmental changes which is affecting all living life whether in land, water or air. It is a fact that with substantial shift in the automobile industry towards Electric Vehicles disruption in the automobile supply Chain in imminent. It is true that for those suppliers who are heavily leveraged and unable to adapt it could spell a disastrous financial troubles ahead. This study is an attempt to identify how production and supply of electric vehicles will impact the traditional supply chain in India and suggest ways and methods to incorporate the changes. An attempt has also been made in this study to identify the perception of individuals regarding Electric Vehicle. Because it is the people's choice which will lead to boon or bane for this segment of automobiles. Anuj Vishwamohan Nair "A Study on Customer Perception of Electric Vehicle and Its Impact on Traditional Supply Chain in India" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-5 | Issue-6 , October 2021, URL: https://www.ijtsrd.com/papers/ijtsrd47516.pdf Paper URL : https://www.ijtsrd.com/engineering/automotive-engineering/47516/a-study-on-customer-perception-of-electric-vehicle-and-its-impact-on-traditional-supply-chain-in-india/anuj-vishwamohan-nair
[729.HK] FDG Electric Vehicles Corporate PresentationWinnie Lei
FDG Electric Vehicles is a vertically-integrated electric vehicles manufacturer based in China. FDG produces electric vehicles, the batteries and the cathode materials for batteries.
Electric Vehicles (EV) use a battery to store the electric energy that powers the motor. EV batteries are charged by plugging the vehicle into an electric power source. Hybrid electric vehicles (HEVs), plug-in hybrid electric vehicles (PHEVs) and all-electric vehicles (EVs)—also called electric drive vehicles collectively—use electricity either as their primary fuel or to improve the efficiency of conventional vehicle designs.
Reduced fuel consumption and emissions, optimized fuel efficiency and performance, lower operational cost, rising conventional fuel costs are some factors that make use of EVs advantageous. However, tech and other challenges are in front of EVs to make them popular selling asset among masses. High EV price limit the current customer group to consist of primarily tech savvy and environmental ideologists, however, new research indicates that charging time and driving range are most influencing the purchase decision. Due to scale of production and technological development, it seems likely that there will be significant price erosion related to EV batteries over the next 10 years. This will most likely influence EV prices and increase sales.
Moreover, along with the gradual emergence of EVs- innovators and entrepreneurs are introducing new and visionary business models. Incidentally, EVs are sold on subscription- and rental companies are beginning to include EVs as part of their fleet of program. For example, as integrators or mobility service providers, the EV value chain creates opportunities for newcomers to participate and create value on mobility market. The integrators are the future industry actors, who will handle the integration between EV charging and intelligent home billing etc. Reportedly, ECOtality partnered Sprint Nextel and Cisco to deliver wireless connectivity for charging stations and home energy management solutions/controllers.
This report aims to highlight the drivers and inhibitors that influence the roll-out of electric cars in terms of adoption speed, cost and user acceptance. The report is largely based on the general market data, which has been analysed and correlated with the data from fleet test of electric vehicles which was conducted in and around the metropolitan area of Copenhagen (Denmark). The report also explores an analysis of comparative advantages of plug-in hybrid electric vehicles over EVs.
Electric vehicles and electric utilities – a clear opportunity with many shapesCarlo Stella
While several stakeholders are supportive of the widespread adoption of electric vehicles, we have looked specifically at electric utilities to understand the opportunities that such a change in the transportation landscape can generate, and define the key questions to be addressed in order to embrace them. We have identified four business models – by no means evolutionary – that can be looked at independently, and eventually combined to fit the company’s strategy and the specific market conditions (e.g., regulation, competition, ecosystem, customer readiness). We strongly believe electric utilities are ideally positioned to leverage the opportunities offered by the adoption of electric vehicles on a mass-market scale, but they need to act fast, as many other players are addressing the same opportunity
Innovation needs for the integration of electric vehicles into the energy systemDrStefanWolf
The mitigation of climate change and the substitution of fossil energy sources is one of the greatest tasks of
our time. Electric mobility is the most promising solution to decarbonize the transport sector. As the market
for electric vehicles is quickly gaining momentum, an urgent need for intelligent integration of the
energy and mobility system arises. This integration leads to a multitude of technical, economic and social
challenges. Thus, this paper aims to identify the need for future research, development, standardization and
regulation to provide recommendations for action.
Presentation by:
Dr. Stefan Wolf and Roman Korzynietz
VDI/VDE Innovation + Technik GmbH
Presented at:
32nd International Electric Vehicle Symposium in Lyon (France)
Two-Wheelers Electric vehicles Outlook in India | Report RedSeer
It is unsurprising that the world is slowly but steadily encouraging a green planet amid heightened concern over climate change and pollution. Working along the same lines, governments all over the world are pushing the EV industry through subsidies and regulations. Further, consumers demand low-emission commuting instead of fossil fuel-driven vehicles, which endangers our planet.
Electric vehicles in India- scope and challengesAbhishek Kumar
Importance of EVs, Market Scenario and Government of India Initiatives. EVs will play an important role in moving towards the initiation of green energy and changing the economy around the world.
"Trans Failsafe Prog" on your BMW X5 indicates potential transmission issues requiring immediate action. This safety feature activates in response to abnormalities like low fluid levels, leaks, faulty sensors, electrical or mechanical failures, and overheating.
Comprehensive program for Agricultural Finance, the Automotive Sector, and Empowerment . We will define the full scope and provide a detailed two-week plan for identifying strategic partners in each area within Limpopo, including target areas.:
1. Agricultural : Supporting Primary and Secondary Agriculture
• Scope: Provide support solutions to enhance agricultural productivity and sustainability.
• Target Areas: Polokwane, Tzaneen, Thohoyandou, Makhado, and Giyani.
2. Automotive Sector: Partnerships with Mechanics and Panel Beater Shops
• Scope: Develop collaborations with automotive service providers to improve service quality and business operations.
• Target Areas: Polokwane, Lephalale, Mokopane, Phalaborwa, and Bela-Bela.
3. Empowerment : Focusing on Women Empowerment
• Scope: Provide business support support and training to women-owned businesses, promoting economic inclusion.
• Target Areas: Polokwane, Thohoyandou, Musina, Burgersfort, and Louis Trichardt.
We will also prioritize Industrial Economic Zone areas and their priorities.
Sign up on https://profilesmes.online/welcome/
To be eligible:
1. You must have a registered business and operate in Limpopo
2. Generate revenue
3. Sectors : Agriculture ( primary and secondary) and Automative
Women and Youth are encouraged to apply even if you don't fall in those sectors.
Core technology of Hyundai Motor Group's EV platform 'E-GMP'Hyundai Motor Group
What’s the force behind Hyundai Motor Group's EV performance and quality?
Maximized driving performance and quick charging time through high-density battery pack and fast charging technology and applicable to various vehicle types!
Discover more about Hyundai Motor Group’s EV platform ‘E-GMP’!
Things to remember while upgrading the brakes of your carjennifermiller8137
Upgrading the brakes of your car? Keep these things in mind before doing so. Additionally, start using an OBD 2 GPS tracker so that you never miss a vehicle maintenance appointment. On top of this, a car GPS tracker will also let you master good driving habits that will let you increase the operational life of your car’s brakes.
Why Is Your BMW X3 Hood Not Responding To Release CommandsDart Auto
Experiencing difficulty opening your BMW X3's hood? This guide explores potential issues like mechanical obstruction, hood release mechanism failure, electrical problems, and emergency release malfunctions. Troubleshooting tips include basic checks, clearing obstructions, applying pressure, and using the emergency release.
𝘼𝙣𝙩𝙞𝙦𝙪𝙚 𝙋𝙡𝙖𝙨𝙩𝙞𝙘 𝙏𝙧𝙖𝙙𝙚𝙧𝙨 𝙞𝙨 𝙫𝙚𝙧𝙮 𝙛𝙖𝙢𝙤𝙪𝙨 𝙛𝙤𝙧 𝙢𝙖𝙣𝙪𝙛𝙖𝙘𝙩𝙪𝙧𝙞𝙣𝙜 𝙩𝙝𝙚𝙞𝙧 𝙥𝙧𝙤𝙙𝙪𝙘𝙩𝙨. 𝙒𝙚 𝙝𝙖𝙫𝙚 𝙖𝙡𝙡 𝙩𝙝𝙚 𝙥𝙡𝙖𝙨𝙩𝙞𝙘 𝙜𝙧𝙖𝙣𝙪𝙡𝙚𝙨 𝙪𝙨𝙚𝙙 𝙞𝙣 𝙖𝙪𝙩𝙤𝙢𝙤𝙩𝙞𝙫𝙚 𝙖𝙣𝙙 𝙖𝙪𝙩𝙤 𝙥𝙖𝙧𝙩𝙨 𝙖𝙣𝙙 𝙖𝙡𝙡 𝙩𝙝𝙚 𝙛𝙖𝙢𝙤𝙪𝙨 𝙘𝙤𝙢𝙥𝙖𝙣𝙞𝙚𝙨 𝙗𝙪𝙮 𝙩𝙝𝙚 𝙜𝙧𝙖𝙣𝙪𝙡𝙚𝙨 𝙛𝙧𝙤𝙢 𝙪𝙨.
Over the 10 years, we have gained a strong foothold in the market due to our range's high quality, competitive prices, and time-lined delivery schedules.
Symptoms like intermittent starting and key recognition errors signal potential problems with your Mercedes’ EIS. Use diagnostic steps like error code checks and spare key tests. Professional diagnosis and solutions like EIS replacement ensure safe driving. Consult a qualified technician for accurate diagnosis and repair.
What Exactly Is The Common Rail Direct Injection System & How Does It WorkMotor Cars International
Learn about Common Rail Direct Injection (CRDi) - the revolutionary technology that has made diesel engines more efficient. Explore its workings, advantages like enhanced fuel efficiency and increased power output, along with drawbacks such as complexity and higher initial cost. Compare CRDi with traditional diesel engines and discover why it's the preferred choice for modern engines.
What Does the PARKTRONIC Inoperative, See Owner's Manual Message Mean for You...Autohaus Service and Sales
Learn what "PARKTRONIC Inoperative, See Owner's Manual" means for your Mercedes-Benz. This message indicates a malfunction in the parking assistance system, potentially due to sensor issues or electrical faults. Prompt attention is crucial to ensure safety and functionality. Follow steps outlined for diagnosis and repair in the owner's manual.
What Does the Active Steering Malfunction Warning Mean for Your BMWTanner Motors
Discover the reasons why your BMW’s Active Steering malfunction warning might come on. From electrical glitches to mechanical failures and software anomalies, addressing these promptly with professional inspection and maintenance ensures continued safety and performance on the road, maintaining the integrity of your driving experience.
In this presentation, we have discussed a very important feature of BMW X5 cars… the Comfort Access. Things that can significantly limit its functionality. And things that you can try to restore the functionality of such a convenient feature of your vehicle.
5 Warning Signs Your BMW's Intelligent Battery Sensor Needs AttentionBertini's German Motors
IBS monitors and manages your BMW’s battery performance. If it malfunctions, you will have to deal with an array of electrical issues in your vehicle. Recognize warning signs like dimming headlights, frequent battery replacements, and electrical malfunctions to address potential IBS issues promptly.
2. Thailand
Economy
Green Economy
Technology
Finance & F/X
Politicians
Local Politicians
Social Changes
Globalization and Trade Regulations
NBT
Consumer’s
behavior
“Something new and
better
Global
Warming
Environmental ControlGreen Technology
Political Transparency
Government
Offices
Local influencers
3D Printing
Bio-Engineering
Digital Technology and
Robotic
Digital
Communications
Unbalance of incomes
Aging
People
Urbanization
Multi-nationalitiesLabor mobility
2Dr.Banja JunhasavasdikulInnovation Group (Thailand)
3. http://www.alternative-energy-news.info/technology/transportation/electric-cars/
Internal Combustion Engine (ICE) Battery Electrical Vehicle(BEV)
BEV is an electric car that is propelled by electric motors, using electrical energy stored in rechargeable batteries.
Electric motor are more quite than ICE and generate much lower heat and pollutants.
Not only Internal combustion engine but fuel system are not necessary also for BEV.
Internal Combustion Engine (ICE) vs. Battery Electrical Vehicle (BEV)
Electric cars are a variety of electric vehicle (EV). The term "electric vehicle" refers to any vehicle
that uses electric motors for propulsion.
Innovation Group (Thailand) Dr.Banja Junhasavasdikul 3
4. Innovation Group (Thailand) Dr.Banja Junhasavasdikul 4
Why
Electric
Vehicles??
The Transport sector
is responsible for one
quarter of total
Greenhouse Gas
(GHG) Emissions
Major Emmissions of
Pollution – especially
in Megacities
(Urbanisation)
One Quarter of total
consumption of fossil
raw materials
Noise Pollution
5. Losses : about 40% hot exhaust
gases
20% motor cooling
(water)
10% motor cooling
(radiation, convection)
10% other losses
Energy Efficiency
ICE
20 % propulsion
Energy Efficiency
EV
85 % propulsion
Losses : about 5% battery
10% other losses
Innovation Group (Thailand) Dr.Banja Junhasavasdikul 5
10. Today oil demand is 92.4 mbd and automotive accounts for 75% of oil product
consumption in transporting system or 50% of final oil consumption
By 2023, w/w will consume 100 mbd of oil, EV could replace 2 mbd of oil
demand as early as 2023
China is the strongest growing country in EV
Current price of battery in mid-sized car cost $ 15,000. makes EV car very
expensive. But price of battery is coming down.
While cost of producing ICE to meet environmental controlling standard will
becoming more expensive than EV which meet the standard
10Dr.Banja JunhasavasdikulInnovation Group (Thailand)
11. HEV
FCEV
PHEV
EREV
HEV: Hybrid Electric Vehicle PHEV: Plug-in Hybrid Electric vehicle BEV: Battery Electric Vehicle
EREV: Extended Range Electric Vehicle FCEV: Fuel cell Electric Vehicle
11Dr.Banja JunhasavasdikulInnovation Group (Thailand)
BEV
12. HEV PHEV BEV EREV FCEV
Engine Y Y N N Fuel cell
Regen.
brake
Y Y Y Y Y
External N Y Y Y N
Engine
M/G
Battery
Fuel tank
Engine
Fuel tank
M/G
Battery
Engine
Fuel tank
M/G
Battery
M/G
Battery
Fuel cell
M/G
Battery
H2 tank
Charged by
engine/fuel
cell
Charged by
regenerative
braking
Charged by
external
power source
Large battery capacity for long range travelling -> Charging by external power
source is definitely necessary
12Dr.Banja JunhasavasdikulInnovation Group (Thailand)
13. AC (Normal and fast charge) DC (Quick charge)
Phase/Voltage 1 P/230 V 3 P/400 V -/400-500 V
Power 3.3-7.4 kW 10-43 kW ≥ 50 kW
Charging time
(Ex. Battery capacity 24 kWh)
3-7 hr.
(Full charge)
0.5-2 hr.
(Full charge)
< 30 min.
(80% charge only)
13Dr.Banja JunhasavasdikulInnovation Group (Thailand)
14. Global cumulative number of PEVs* (BEV+PHEV) has reached 1.2 millions in 2015
PEVs
BEV
1 million
*PEVs: Plug-in Electric Vehicles (BEV + PHEV)
14Dr.Banja JunhasavasdikulInnovation Group (Thailand)
15. Global cumulative number of EV charging outlets, 2010-2015, has reached
1.45 millions outlets.
• As of 2015,the numbers of private charger are 1.3 millions outlets, publicly low charger are ∼162,000 outlets and publicly
fast charger are ∼28,000 outlets respectively.
• Top 3 countries: US, China and Japan
Note: Slow chargers include AC
chargers with charging power
≤22 kW. Fast chargers include
AC chargers with charging power
43 kW, DC chargers, Tesla
Superchargers and inductive
chargers.
(thousands)
15Dr.Banja JunhasavasdikulInnovation Group (Thailand)
16. Level Target Scope Type Tool
• National
• State/
provincial
• Municipal
• Private
customers
• Industry
• Public sector
• Vehicle
• Charging
infrastructure
• Financial
• Target/bans/
mandates
• Public
procurement
• Others
• Fiscal-Tax
incentive/
penalty
• Direct financial
subsidy
• Mandates
&Targets
• Product
standards
• Public
expenditure
• Electricity
rates
• Etc.
A key driver to boost the EV ecosystem – THE POLICY
Ex:
A federal funding programme that contributed to 36,500 publicly accessible charging
outlets in place in 2015.
A partnership with a retailer for the installation of 500 fast chargers and 650 standards
chargers at its stores, providing 2/3 of funding.
From March 2015, the CH government has mandated that parking spaces in new
residential bldg. & at least 10% of public parking should have EV charging infrastructure.
16Dr.Banja JunhasavasdikulInnovation Group (Thailand)
17. *Hawkins, Troy R.; Singh, Bhawna; Majeau-Bettez, Guillaume; Strømman, Anders Hammer (February 2012).
"Comparative Environmental Life Cycle Assessment of Conventional and Electric Vehicles". Journal of
Industrial Ecology. 17 (1): 53–64
Innovation Group (Thailand) Dr.Banja Junhasavasdikul 17
High cost of Li-ion battery. Besides Li, Cd is relatively expensive and
toxic.
Critical Raw Materials (Rare Earths (for example neodymium,
dysprosium; Special Metals etc.) – many of them not available in
Europe
Range small compared to ICE cars and temperature dependant
Low Comfort Level (Heating ; other energy consumers..)
Long Loading Times
18. Innovation Group (Thailand) Dr.Banja Junhasavasdikul 18
Mobility of the
Future
Shared
Mobility
Connected
Autonomous
Driving
E-Mobility
19. Emerging new service platforms of
transportation is customized and
convenient for consumers.
Driverless system must be relied on
safety and convenient in driving
including effectively connecting with
other cars.
Car Emission would be reduced with
electrification system both vehicle
technologies (PHEV/BEV) and traffic
management in urban areas.
Infrastructure and
transportation should
support digital driving
system.
Connectivity in supply
chain by digital system will
come into play.
Share services
Autonomous or
self-driving vehicle
Automotive Industry
of the Future
Green mobility
Digitalization of automotive
products and process
management
1 2
3
4
Source : Mckinsey & Company , Mercedes-Benz , PWC
Innovation Group (Thailand) Dr.Banja Junhasavasdikul 19
26. Innovation Group (Thailand) Dr.Banja Junhasavasdikul 26
B 250 eSLS AMG
Coupé Electric
Drive
smart fortwo
electric drive
smart electric drive -
fortwo and forfour
Mercedes-Benz GLC F-CELL
Battery-electric vehicle
with up to 500 km range
Intelligent EV-Architecture
27. 2010: Underfloor package
206 g Platinum
4 kW / m2 active area Screw
compressor
2017: Compartment
package
20 g Platinum
9 kW / m2 active area
Electric turbo charger with
turbine
reduction of
Platinum
Dr.Banja Junhasavasdikul
30%
30%
higher mileage
reduction fuel
cell engine size
higher electric
range in future
vehicles
27Innovation Group (Thailand)
90%
40%
33. Innovation Group (Thailand) Dr.Banja Junhasavasdikul 33
Electric Vehicle
Charging Infrastructure
Digital Services
Friends
Airport
Super market
Stadium
Cinema
Bakery
Parking lot
Restaurant
Park
Private trip
Daily
business
Holidays
POI
Zoo
Mall
Parking lot
Parking lot
Gym
Rest stop
Customer
requirements
available fast
intelligent
comfortable
@home
highway
public
@work
34. 2nd plant start of operations:
mid 2018
Production of Li-Ion batteries
for hybrid as well as electric
vehicles and energy storage
systems
Production space stocked up
from 20,000 to 60,000 m2
Extension
Deutsche ACCUMOTIVE GmbH & Co.
KG, Kamenz, Germany
Dr.Banja Junhasavasdikul 34Innovation Group (Thailand)
37. EV needs light martials for its chassis and body. Aluminum alloys
and carbon composites are replacing heavy steel
Li-ion battery uses Li as the anode. Graphite as the cathode .
Li is sensitive to air and moisture to ignite.
Copper will be heavily consumed , 80 kilos per car. If in 2035, 140
million EV on the road ( 8% of total fleets of light vehicles). EV will
consume 1/3 of total global copper demand .
By 2025, . EV could replace 2 million barrel a day of oil demand and
increasing (w/w will consume 100 million barrel of oil per day)
Innovation Group (Thailand) Dr.Banja Junhasavasdikul 37
38. Lithium-ion batteries are main battery for all
rechargeable applications from cell phones to electrical
cars to renewable energy farm.
Graphite is used in the other electrode 99.9%) purity as
anode-grade. Graphene is ideal for use in in battery
because of its net-like structure that allow Li atoms
through, speeding up charge and discharge times.
Most Li-ion battery contain graphite 55% more than Li
(55 pounds in large EV battery)
Innovation Group (Thailand) Dr.Banja Junhasavasdikul 38
39. Lithium Cobalt Oxide ( 60% Co has highest density, using
mainly in cell phone and lab top)
Lithium Nickel Manganese Cobalt Oxide(10-20% Co has
lower density but can handle larger energy loading and
makes it safer in large batteries in EV)
And finally Lithium NickleCobalt Aluminium Oxide ( 9%
Co, lower density, high load battery , good for large scale
project )
Co is found in mining of Ni. Cobalite ( CoAsS) is
important deposite in Congo. Mining of Co causes
poisonous of Arsenic to steam and Arsenic fume in
smelting
Innovation Group (Thailand) Dr.Banja Junhasavasdikul 39
40. World is looking to use non-Cobalt in Li compound
Li-battery station provides peak hour electrical power
plant to cover times of excess demand..300 megawatts
of battery storage is building in California.
Innovation Group (Thailand) Dr.Banja Junhasavasdikul 40
41. Tier 2 & 3Tier 1Assembly Group
Auto parts Producers 450,000 people
Supporting Industries 100,000 people
Car and Pickup truck
Assembly
17 companies,
23 firms
Motorcycle
Assembly
8 Companies
8 firms
Small and Medium
Auto parts producers
(1,700 companies)
Stamping, plastics, rubber, machining,
casting, forging, function, electrical,
trimming
Engines, Drivetrains, Steering, Suspension,
Brake Wheel, Tire, Bodyworks,
Interiors, Electronics Systems
Auto parts Producers
(386 companies)
Motorcycle parts Producers
(201 companies)
*Car Assembly
100,000 people
•Distributor,
•Service center
200,000 people
Cluster structure and supply chain in Thailand automotive industry
- Distribution W/H
- Finance
- Assess
- Specific Adviser
- Logistic
- Leasing, Banking
Entrepreneur Associations and
Institutions
Academic and Technical
Institution
Government
Upstream industries
Iron and Steel, Plastics, Rubber, Electronics, glass and mirror,
Textile and Leather, Petrochemical, Painting and Coating
Policy group and supporting organizations
Services
industries
Supporting industries
Machinery, Tools and Mechanical devices, Molding etc.
World
Ranking
12th
Production
Base
Target
More than 2,500 companies
42. 42
THAILAND AUTOMOTIVE
AND MOTORCYCLE
EXPORT VALUE
(MILLION BAHT)
Export value of Thailand automotive and auto parts industries
THAILAND AUTO PARTS
EXPORT VALUE
(MILLION BAHT)
2015 Total export value
1.2 Trillion Baht
Source : TAI/ TAPMA
MB.
MB.
43. Thai automotive production is close to 2 million cars. It is the 12th world’s car
production of 91 million cars.
It accounts to almost 1.5 trillion baht in total value chain.
Always, Automotive industry is key driver in development of
steel, petrochemical and rubber industries.
Automotive and tire industries consume 65% of total rubber. And Thailand
is the largest NR producer, at 4.5 mil. tons.
65% of Innovation Group’s revenue is generated from products and service
to automotive industry.
Innovation Group (Thailand) Dr.Banja Junhasavasdikul 43
46. Innovation Group (Thailand) Dr.Banja Junhasavasdikul 46
Brake-Clutch parts
Anti vibration parts
Hoses and Fuel Hoses
Engine Mount
Dustproof cover
Bush
Oil Seal
Intake hoses
48. Comparison of RM cost for ICE vs. BEV
Part Weigth (g) Kind of Rubber
RM cost (� / car)
ICE BEV
wind shield & weather strip 4,300 EPDM 390
Brake 250 EPDM 30
Air condition hose 220
EPDM , FKM
Polyamide
70
Grommet 410 EPDM 35
Wiper Blade 75 NR 10
O-Ring & Seal 120 NBR, EPDM 60
Brake 260 EPDM 35
Body Cushion 300 NR 30
Boot 1,000 EPDM, CR 130
Strut 2,000 NR 200
other rubber 200 NR, EPDM 20
Belt 400 CR/HNBR 60
Fuel hose 960 FKM, ECO, CSM 200
Power steering hose 900 FKM, CSM, CR 500
Air intake hose 500 ACM, ECO 175
Turbo charger 500 FKM/Silicone 300
Radiator hose 500 EPDM 100
Oil seal & gasket 240 NBR/FKM 240
Engine mount 410 NR/CR 40
Engine Cushion 515 NR 80
Total 2,705 1,010
49. ICE car consists of rubber part for 14 kg
approximately (not including tires).
BEV has no combustion engine and fuel
system. So, rubber part around an
engine, fuel transferring system and fuel tank
are not necessary.
Discarding rubber part in engine and fuel
system, 70% of rubber part still be remained.
However, those parts that disappear are the
high performance rubber parts which always
challenge technical development in rubber.
These rubber parts are high value products for
improvement of engine performance, bio-fuel
and environmental regulations
ICE BEV
Total weight of rubber part in car
wind shield & weather strip Cooling system
Brake Grommet
Wiper Blade Suspension
Anti-Vibration Others rubber
Engine Fuel system
30% Reduced
14 KGs
Innovation Group (Thailand) Dr.Banja Junhasavasdikul 49
50. • Oil and high temperature resistant materials will decrease
in usage in BEV.
• Inflammable and high voltage resistant materials will be
required for the part that connect to electrical
equipment, motor and battery in BEV.
• Heat generated in motor and battery storage area is less
than ICE, rubber part is probably replaced by new
composite materials in plastic and rubber. “TPV” is a new
challenging materials will be using more in those areas.
Materials
Innovation Group (Thailand) Dr.Banja Junhasavasdikul 50
54. No Flat Tire
No need to carry spare
Low rolling-resistance
Recyclable flexible materials
Applicable to heavy duty tires
Innovation Group (Thailand) Dr.Banja Junhasavasdikul 54
55. tough materials of Polyurethane
and glass reinforced are used
Michelin X Tweel
Innovation Group (Thailand) Dr.Banja Junhasavasdikul 55
56. Generate electric for EV
By converting friction
heat of tire and road and
tire flex into electric
It can also collect heat
from sun in hot air to
generate electric when
car is not running.
Innovation Group (Thailand) Dr.Banja Junhasavasdikul 56