BMW R NineT by Gasoline Motor Co.

Cho Gue Sung x Elle Magazine

David Dunbar Buick was born at 26 Green Street, Arbroath on September 17th in 1854.

He emigrated to the USA with his parents at the age of two. Although he founded the Buick Manufacturing Company which later became General Motors, Buick’s early success was largely due to his patented process for bonding porcelain to iron, a process that helped fuel the craze for white porcelain bathtubs.But Buick wasn’t all about tubs.

In 1899, after becoming engrossed in this new technology known as gasoline engines for automobiles, Buick established the Auto Vim and Power Co. to produce engines for farm and stationary use. He sold his plumbing business for $100,000 to raise capital for his new venture and began tinkering with using the engines he produced to power four-wheeled vehicles. Two years later, he founded the Buick Manufacturing Company to make engines for various car makers and to make cars himself.

Unfortunately Buick,although a brilliant craftsman was a terrible businessman, he actually only made 120 cars along with his partner Ben Briscoe, before selling his remaining share to William C. Durant who insured that the company grew successfully, so although countless cars have bore his name David Buick died of cancer on March 5, 1929. At the times of his death he was working as an inspector at a Detroit trade school. Buick, the man, was all but forgotten. Briscoe wrote in 1921 that had Buick been able to keep his shares in the firm, they would have been worth more than $10 million at that time. Their value today would be almost incalculable.

Buicks are still made, according to wiki they sold over 1.2 million vehicles in 2015, the main market nowadays is China! The cars baring the Scotsman's name are also sold, mainly in the USA, Canada, and Mexico.

Hydrogen Fuel Cell Vehicle Market - Forecast(2024 - 2030)

A Hydrogen Fuel Cell Vehicle (HFCV) is a type of electric vehicle that uses a hydrogen fuel cell to generate electricity, powering an electric motor. Unlike battery electric vehicles (BEVs), which store energy in large battery packs, HFCVs create their electricity onboard through a chemical reaction between hydrogen and oxygen. Here’s a detailed breakdown of how they work, their advantages, and some challenges associated with them.

1. How Hydrogen Fuel Cell Vehicles Work

Hydrogen Fuel Cell: At the heart of an HFCV is the fuel cell, which is a device that converts chemical energy into electrical energy. The most common type of fuel cell used in these vehicles is a Proton Exchange Membrane (PEM) fuel cell.

Reaction: The fuel cell combines hydrogen stored in the vehicle’s tank with oxygen from the air to produce electricity, water vapor, and heat. The basic chemical reaction in a hydrogen fuel cell is:

2H2+O2→2H2O+Energy\text{2H}_2 + \text{O}_2 \rightarrow 2\text{H}_2\text{O} + \text{Energy}2H2​+O2​→2H2​O+Energy

Hydrogen molecules (H₂) split into protons and electrons. The protons pass through the membrane, while the electrons travel through an external circuit, creating electricity that powers the electric motor.

Electric Motor: The generated electricity drives the electric motor, which propels the vehicle. Excess energy can be stored in a small onboard battery for later use, like in acceleration.

Water Vapor: The only by-product from this process is water vapor, making HFCVs emission-free at the tailpipe.

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2. Components of an HFCV

Hydrogen Fuel Tank: The vehicle stores hydrogen gas under high pressure (usually around 700 bar or 10,000 psi) in a secure tank.

Fuel Cell Stack: The fuel cell stack is composed of several individual fuel cells stacked together to generate sufficient power.

Battery: Some HFCVs have a small auxiliary battery to store excess electricity generated by the fuel cell or captured from regenerative braking.

Electric Motor: This is the same as in any other electric vehicle and is powered by the electricity generated in the fuel cell.

3. Advantages of Hydrogen Fuel Cell Vehicles

Zero Emissions: The only emission from HFCVs is water vapor, making them a highly clean alternative to internal combustion engine (ICE) vehicles.

Refueling Time: Refueling an HFCV takes a similar amount of time as filling up a gasoline vehicle, usually around 3–5 minutes, compared to hours for recharging a BEV.

Long Range: HFCVs typically offer a range similar to conventional cars (about 300–400 miles) on a full tank of hydrogen, potentially exceeding the range of many battery electric vehicles.

Reduced Battery Dependency: HFCVs don’t require large lithium-ion battery packs like BEVs, reducing the demand for battery raw materials like lithium, cobalt, and nickel.

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4. Challenges of Hydrogen Fuel Cell Vehicles

Hydrogen Infrastructure: One of the biggest obstacles to the widespread adoption of HFCVs is the lack of hydrogen refueling infrastructure. While some regions (e.g., California, Japan, and parts of Europe) are investing in hydrogen stations, the global network is limited compared to gasoline stations or electric vehicle charging points.

Hydrogen Production: Although hydrogen is the most abundant element in the universe, producing pure hydrogen is energy-intensive. Most hydrogen today is produced from natural gas in a process called steam methane reforming (SMR), which emits CO₂. However, green hydrogen production using electrolysis powered by renewable energy is seen as a more sustainable future alternative.

Cost: Hydrogen fuel cells are currently expensive to produce due to the use of precious metals like platinum in the fuel cell catalysts. As production scales and technology improves, these costs are expected to decrease, but for now, they make HFCVs pricier than BEVs and ICE vehicles.

Energy Efficiency: While hydrogen can be produced and stored efficiently, the full “well-to-wheel” efficiency of HFCVs is lower than that of BEVs. This is because hydrogen production, compression, and fuel cell electricity generation all involve energy losses.

5. Current Examples of Hydrogen Fuel Cell Vehicles

Several automakers have developed hydrogen fuel cell vehicles, including:

Toyota Mirai: One of the most well-known HFCVs, it has been on the market since 2014 and is available in certain regions with hydrogen refueling infrastructure.

Hyundai Nexo: A hydrogen-powered SUV with a range of around 380 miles, available in limited markets.

Honda Clarity Fuel Cell: Another sedan that runs on hydrogen, but its production has been paused due to limited infrastructure.

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6. Future of Hydrogen Fuel Cell Vehicles

Heavy-Duty Transport: While passenger HFCVs have struggled to gain mass-market traction due to infrastructure issues, hydrogen fuel cells are seen as particularly promising for heavy-duty applications like trucks, buses, ships, and even trains. These vehicles often require longer ranges and faster refueling times, making hydrogen an attractive option over batteries.

Green Hydrogen: With the global push for decarbonization, investments in green hydrogen (produced via renewable energy) are increasing. This could help make hydrogen production cleaner and more cost-effective, improving the viability of HFCVs.

Fuel Cell Hybrids: Some experts suggest the future may lie in hybrid systems, where smaller hydrogen fuel cells are paired with batteries to optimize performance and efficiency.

7. Comparison to Battery Electric Vehicles (BEVs)

Refueling vs. Charging: HFCVs offer quick refueling times similar to gasoline vehicles, while BEVs require longer charging times, though fast-charging infrastructure is improving.

Range: HFCVs generally have longer ranges than most BEVs, making them ideal for long-distance travel.

Infrastructure: BEVs currently benefit from a more widespread charging network compared to hydrogen refueling stations.

Energy Source: BEVs directly use electricity from the grid, while HFCVs use hydrogen, which needs to be produced, stored, and transported, introducing additional energy losses in the process.

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Conclusion

Hydrogen Fuel Cell Vehicles offer an exciting alternative to traditional internal combustion engines and battery-electric vehicles. While they provide the benefits of zero emissions, long range, and quick refueling, challenges such as hydrogen infrastructure, production costs, and energy efficiency need to be addressed for widespread adoption. HFCVs may play a crucial role in the future of clean transportation, especially in sectors where batteries are less practical, such as heavy-duty vehicles and long-distance transport.

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Automotive Exhaust Systems Market: Comprehensive Analysis and Growth Prospects

The automotive exhaust systems market is a crucial component of the global automotive industry, responsible for controlling vehicle emissions and reducing environmental impact. As governments enforce stricter emission regulations and consumers demand more environmentally friendly vehicles, the role of exhaust systems in automobiles has expanded significantly. This article provides an in-depth analysis of the automotive exhaust systems market, covering key trends, technological advancements, and the factors driving market growth.

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Introduction to Automotive Exhaust Systems

Automotive exhaust systems are critical for managing vehicle emissions, improving fuel efficiency, and enhancing overall engine performance. The system typically consists of several components, including the manifold, catalytic converter, muffler, and tailpipe, each designed to reduce harmful emissions and optimize the vehicle's functionality.

Key Functions of Exhaust Systems:

Emission Reduction: Converts toxic gases such as carbon monoxide (CO), nitrogen oxides (NOx), and hydrocarbons into less harmful substances.

Noise Reduction: Minimizes engine noise through components like the muffler.

Improved Engine Performance: Enhances fuel efficiency and optimizes the vehicle’s power output.

Market Overview and Growth Trends

The global automotive exhaust systems market has witnessed significant growth due to rising environmental concerns and stringent government regulations aimed at reducing vehicle emissions. The market is expected to grow steadily over the next few years, driven by the increasing adoption of electric vehicles (EVs) and advancements in exhaust system technologies.

Key Market Drivers:

Stringent Emission Regulations: Governments worldwide have introduced stricter emission standards, particularly in developed regions like North America and Europe. Compliance with these standards has led to increased demand for advanced exhaust systems that can meet regulatory requirements.

Growing Electric Vehicle Market: Although electric vehicles (EVs) do not have traditional exhaust systems, hybrid vehicles that combine internal combustion engines (ICE) with electric motors still require efficient exhaust management. The rise of hybrid vehicles will contribute to the demand for exhaust systems.

Technological Advancements: Innovations in aftertreatment technologies, such as selective catalytic reduction (SCR) and gasoline particulate filters (GPF), have enhanced the performance of modern exhaust systems. These advancements enable automakers to meet stricter emissions regulations while maintaining fuel efficiency.

Challenges in the Market:

Shift to Electric Vehicles: The transition to fully electric vehicles (EVs) presents a challenge to the automotive exhaust systems market, as EVs do not require traditional exhaust systems. However, the continued demand for hybrid vehicles may offset this trend in the short to medium term.

Cost Pressures: Developing and implementing advanced exhaust systems that meet stringent regulatory requirements can be expensive. Automakers must balance the cost of these technologies with consumer demand for affordable vehicles.

Electric Two-Wheeler Market Size is Expected to Reach USD 109.5 Billion By 2032 | CAGR: 11.5%

Electric Two-Wheeler Market Size is Expected to Reach USD 109.5 Billion By 2032 | CAGR: 11.5% Stay Trendy with URBTNews.com (Subscribe Today Free!)   SHERIDAN, WY, UNITED STATES, September 17, 2024 /EINPresswire.com/ -- IMARC Group's report titled "Electric Two-Wheeler Market Report" details various aspects of the electric two-wheeler market dynamics. The report categorizes data by vehicle type, battery type, voltage type, peak power, battery technology, motor placement, and region for the period from 2024 to 2032. The electric two-wheeler market attained a size of US$ 39.9 billion in 2023 and is projected to grow to US$ 109.5 billion by 2032, showcasing an impressive 11.5% CAGR during the forecast period. For an in-depth analysis, interested individuals can obtain a sample report here: https://www.imarcgroup.com/electric-two-wheeler-market/requestsample Key Factors Driving Electric Two-Wheeler Market Growth Increased awareness of environmental issues significantly impacts demand for electric two-wheelers. Growing concern about climate change, especially regarding carbon emissions, motivates individuals and policymakers to adopt greener options. Traditional gasoline vehicles notably contribute to air pollution, leading to a search for cleaner alternatives, such as electric two-wheelers, which produce zero tailpipe emissions. As urban centers experience worsening air quality, the shift towards electric mobility accelerates. Consequently, manufacturers invest in electric two-wheeler technologies to meet rising consumer expectations. Technological Innovations Impacting Electric Two-Wheelers Recent advancements in lithium-ion battery technology revolutionize the electric vehicle market by offering superior range, swift charging capabilities, and enhanced performance. Manufacturers address critical barriers to electric vehicle adoption, such as range anxiety and time-consuming charging durations. Continuous research and development initiatives lead to more efficient and cost-effective battery solutions, further improving electric two-wheeler attractiveness. Additionally, innovations in electric motors, regenerative braking systems, and lightweight materials contribute to overall vehicle enhancement, promoting wider market acceptance. Impact of Fuel Prices on Electric Two-Wheeler Adoption Rising gasoline prices significantly influence consumers' transportation preferences, pushing them towards electric two-wheelers. With increasing fuel costs, electric two-wheelers emerge as more cost-effective options. They feature lower operating costs due to the lower price of electricity compared to gasoline, along with reduced maintenance expenses. Over time, these financial benefits become even more attractive for daily commuting and local travel. In regions with high or volatile fuel prices, the cost savings associated with electric two-wheelers amplify. Prominent Players in the Electric Two-Wheeler Market Several leading companies operate within the global electric two-wheeler industry, including: - AIMA Technology Co. Ltd. - Ampere Vehicles Pvt. Ltd. - BMW AG - Energica Motor Company S.p.A. - GOVECS AG - Hero Electric Vehicles Pvt. Ltd. - Mahindra GenZe - Terra Motors Corporation - Vmoto Limited - Yadea Technology Group Co. Ltd. - Zero Motorcycles, Inc. For further inquiries, you can request a sample report directly through this link: https://www.imarcgroup.com/request?type=report&id=2215&flag=C Market Segmentation of Electric Two-Wheelers The electric two-wheeler market undergoes segmentation based on several factors, including: - Vehicle Type: Electric Scooter/Moped, Electric Motorcycle - Battery Type: Lithium-Ion, Sealed Lead Acid (SLA) - Voltage Type: 96V - Peak Power: 10 kW - Battery Technology: Removable, Non-Removable - Motor Placement: Hub Type, Chassis Mounted Regional Analysis of the Electric Two-Wheeler Market The electric two-wheeler market spreads across various regions, including: - North America (United States, Canada) - Asia Pacific (China, Japan, India, South Korea, Australia, Indonesia, others) - Europe (Germany, France, United Kingdom, Italy, Spain, Russia, others) - Latin America (Brazil, Mexico, others) - Middle East and Africa Each region displays unique trends and growth opportunities that manufacturers analyze for strategic decision-making. Emerging Trends in the Global Electric Two-Wheeler Market Governments across various nations implement incentives and policies to boost electric vehicle adoption. These measures include subsidies, tax reductions, and rebates for purchasing electric two-wheelers, which enhance affordability for consumers. Furthermore, regulatory bodies establish stricter emission standards, promoting the development of electric alternatives. Investments in necessary infrastructure, like charging stations, support the burgeoning electric vehicle market. The combination of monetary incentives and a supportive regulatory environment creates a positive landscape for electric two-wheeler manufacturers. Possible customization options are available for specific requests beyond the report's current scope. Related Reports by IMARC Group - Peer-to-Peer P2P Lending Market: https://www.imarcgroup.com/peer-to-peer-lending-market - Dry Eye Syndrome Market: https://www.imarcgroup.com/dry-eye-syndrome-market - Commercial Seaweeds Market: https://www.imarcgroup.com/commercial-seaweeds-market - Fitness App Market: https://www.imarcgroup.com/fitness-app-market IMARC Group provides strategic insights and a comprehensive suite of services to assist ambitious organizations, aiding in impactful market expansion initiatives. For further details, contact: Elena AndersonIMARC Services Private Limited+1 631-791-1145email us here Legal Disclaimer: EIN Presswire provides this news content "as is" without warranty of any kind. The platform does not accept any responsibility for the accuracy or reliability of the information contained in this article. If you have any complaints or copyright issues related to this article, please reach out to the author. Read the full article

Mercedes-Benz E-Class Is Coming To India On October 9

The most recent version of the E-class sedan, which is presently available in regions like China, will be the only one available with its long-wheelbase specification.

Highlights

On October 9, Mercedes-Benz will introduce the most recent version of the E-class.

To only be available with a long wheelbase.

Will compete in India with the brand-new BMW 5 Series LWB.

On October 9, 2024, Mercedes-Benz will introduce the most recent version of the E-class long-wheelbase sedan in India. The E-Class made its worldwide premiere more than a year after it was introduced in India. The new E-class sedan will only be available in the long-wheelbase body type, much like its predecessor. The all-new BMW 5 Series LWB, which is being offered in a long-wheelbase version for the first time in India, will present new competition for the E-Class, which has been Mercedes-Benz's best-selling model here, upon its debut.

The New E-Class will have a completely new style, with redesigned headlights that have modern-looking DRLs. The front end now has a bigger grille than before, giving it a more commanding look. The new E-class shares a similar profile to the previous model, but with some softening of the preceding model's sharp features. It receives redesigned tail lamps on the back that are more in keeping with the company's most recent models.

The new E-Class LWB is 18 mm longer and 20 mm wider than the previous model, with dimensions of 5,092 mm in length, 1,880 mm in width, and 1,493 mm in height. Of the 18 mm length gain, 15 mm have been added to the wheelbase, bringing it to 3,094 mm.

The top variant of the E-Class LWB will come with an MBUX Superscreen inside. Up to three integrated screens can be found behind a single curved glass panel on the dashboard, which is called the Superscreen. This consists of a co-driver-specific display, a central infotainment touchscreen, and a digital instrument cluster. Additional amenities include motorized rear sunblinds, a panoramic sunroof, four-zone temperature control, power-adjustable rear outer seats, a 730W Burmester 4D sound system, and 64-color ambient lighting.

Mercedes Benz has announced that the new E will have two four-cylinder gasoline and diesel engines as standard equipment. A 2.0-liter gasoline unit produces around 195 horsepower, and a 2.0-liter diesel unit produces roughly 200 horsepower. The basic transmission will be a 9-speed automatic.

For more information visit our Website Wheelsbingo.

The Future of E-Mobility

Introduction to E-Mobility

What is E-Mobility?

E-mobility, short for electric mobility, refers to the use of electric vehicles (EVs) and related infrastructure for transportation. This includes electric cars, buses, bikes, scooters, and any other vehicle powered by electricity rather than traditional internal combustion engines.

Why E-Mobility is the Future of Transportation

E-mobility represents a shift towards sustainable, low-emission transportation, driven by advances in technology and the urgent need to reduce carbon emissions. As the world grapples with climate change, the shift from fossil-fuel-powered vehicles to electric ones is becoming more critical than ever.

The Growth of E-Mobility in Recent Years

In recent years, the adoption of electric vehicles has skyrocketed. With more governments introducing incentives for EV buyers and automakers investing heavily in electric technology, the future of transportation is undeniably electric. The global e-mobility market is expected to grow exponentially, with millions of EVs on the road by 2030.

Key Technologies Driving E-Mobility

Electric Vehicles (EVs)

At the heart of e-mobility are electric vehicles. These vehicles run on electric motors powered by batteries, which produce zero emissions, making them a cleaner alternative to traditional vehicles.

Charging Infrastructure

Types of Charging Stations

To support the growing fleet of electric vehicles, various charging stations have been developed. These range from slow chargers, ideal for home use, to ultra-fast chargers, which can charge a car in under 30 minutes.

Smart Charging Systems

Smart charging systems allow for more efficient energy use by adjusting the charging speed based on grid demand. These systems are pivotal in ensuring that EVs don't overload the power grid during peak hours.

Battery Technologies

Lithium-ion Batteries

Lithium-ion batteries are the most common type used in electric vehicles today. They are lightweight, rechargeable, and offer a high energy density, making them ideal for powering EVs.

Solid-State Batteries

The future of battery technology lies in solid-state batteries, which promise to offer greater energy storage and safety compared to traditional lithium-ion batteries. They are seen as a game-changer for extending the range of electric vehicles.

Vehicle-to-Grid (V2G) Technology

V2G technology allows electric vehicles to not only draw power from the grid but also return stored energy back to the grid when needed. This bi-directional energy flow could transform how we manage energy during peak times and improve grid stability.

Environmental Impact of E-Mobility

Reduction in Carbon Emissions

One of the most significant benefits of e-mobility is the drastic reduction in carbon emissions. Unlike gasoline or diesel-powered vehicles, EVs produce zero tailpipe emissions, contributing to cleaner air and a healthier environment.

E-Mobility’s Role in Fighting Climate Change

The adoption of electric vehicles is a crucial component of global efforts to combat climate change. By reducing our dependence on fossil fuels, e-mobility helps lower greenhouse gas emissions, making it an essential part of the sustainable energy transition.

Challenges Facing E-Mobility

Charging Infrastructure Challenges

Despite the growth of charging networks, there are still significant challenges in building sufficient infrastructure to support the rising number of electric vehicles. Many regions lack the necessary charging stations, especially in rural areas.

Battery Production and Sustainability Issues

While EVs are environmentally friendly, the production of batteries is resource-intensive and has its own environmental footprint. Sourcing materials like lithium and cobalt can be harmful to the environment and workers if not managed responsibly.

Range Anxiety in Electric Vehicles

Range anxiety—the fear that an electric vehicle will run out of power before reaching a charging station—is one of the main concerns among potential EV buyers. However, advancements in battery technology and the expansion of charging networks are gradually alleviating this issue.

Government Policies and E-Mobility

Global Government Incentives for EV Adoption

Governments worldwide are offering incentives such as tax credits, rebates, and subsidies to encourage EV adoption. These policies aim to make electric vehicles more affordable and accessible to a broader audience.

Regulations Pushing for Zero-Emission Vehicles

Europe’s Green Deal

Europe is leading the charge with ambitious policies, including the European Green Deal, which aims to have zero emissions by 2050. This includes banning the sale of new gas-powered vehicles by 2035.

U.S. EV Tax Credits and Policies

In the U.S., the government is also stepping up its efforts with various tax credits for EV purchases and investments in charging infrastructure. States like California are implementing strict emission regulations, pushing the transition toward electric mobility.

E-Mobility in the Urban Environment

How Smart Cities are Embracing E-Mobility

Smart cities are at the forefront of the e-mobility revolution, integrating electric vehicles into urban planning. From EV-friendly public transportation systems to installing charging stations in strategic locations, cities are evolving to support electric transport.

The Role of Public Transport in E-Mobility

Public transport systems are increasingly incorporating electric buses and trains into their fleets. This shift reduces emissions and makes cities more livable by cutting down on noise and air pollution.

Future Innovations in E-Mobility

Autonomous Electric Vehicles

Autonomous driving technology is set to transform e-mobility by making electric vehicles self-driving. This combination promises safer, more efficient transport solutions in the future.

Wireless Charging for EVs

Wireless charging is an exciting innovation that could eliminate the need for plugging in vehicles. By embedding charging pads into roads or parking spaces, EVs can charge automatically when parked or even while driving.

Solar-Powered Vehicles

While still in the early stages of development, solar-powered electric vehicles could revolutionize transportation by reducing dependence on charging stations and fossil fuels altogether.

Artificial Intelligence in E-Mobility

AI is playing an increasingly vital role in optimizing the performance of electric vehicles, from improving battery efficiency to enabling self-driving capabilities.

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Ignition Coil Market Technological Trends and Future Threats Analysis by 2024-2032

The Reports and Insights, a leading market research company, has recently releases report titled “Ignition Coil Market: Global Industry Trends, Share, Size, Growth, Opportunity and Forecast 2023-2031.” The study provides a detailed analysis of the industry, including the global Ignition Coil Market Size share, trends, and growth forecasts. The report also includes competitor and regional analysis and highlights the latest advancements in the market.

Report Highlights:

How big is the Ignition Coil Market?

The global ignition coil market size was US$ 2.7 Billion in 2022. Furthermore, the market is expected to register a revenue CAGR of 4.8% during the forecast period and reach a market size of US$ 4.1Bn in 2031.

What are Ignition Coil?

An ignition coil plays a vital role in the ignition system of an internal combustion engine, converting the low voltage from the battery into the high voltage necessary to produce a spark in the spark plugs. This spark initiates the combustion process by igniting the fuel-air mixture in the engine's cylinders, powering the vehicle. Operating on electromagnetic induction principles, the ignition coil comprises a primary coil winding that receives the low voltage and a secondary coil winding that generates the high voltage.

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What are the growth prospects and trends in the Ignition Coil industry?

The ignition coil market growth is driven by various factors and trends. The ignition coil market is on a stable growth trajectory globally, propelled by the growing automotive industry worldwide. These coils are indispensable for ensuring efficient engine ignition in gasoline-powered vehicles. Technological advancements, including the introduction of sophisticated ignition systems that enhance fuel efficiency and lower emissions, are further fueling market growth. Moreover, the increasing popularity of electric vehicles is opening up new avenues for ignition coil manufacturers, as these vehicles still rely on ignition systems for specific functions. With the automotive sector evolving towards more efficient and environmentally friendly vehicles, the ignition coil market is poised for continued expansion. Hence, all these factors contribute to ignition coil market growth.

What is included in market segmentation?

The report has segmented the market into the following categories:

Conventional Ignition Coils

Distributor Ignition Coils

Coil-on-Plug Ignition Coils

Smart Ignition Coils

Vehicle Type:

Passenger Cars

Light Commercial Vehicles (LCVs)

Heavy Commercial Vehicles (HCVs)

Electric Vehicles (EVs)

Technology:

Conventional Ignition Systems

Capacitive Discharge Ignition (CDI) Systems

Electronic Ignition Systems

Distributorless Ignition Systems (DIS)

Sales Channel:

Original Equipment Manufacturers (OEMs)

Aftermarket

Application:

Gasoline Engines

Diesel Engines

Compressed Natural Gas (CNG) Engines

Others

Segmentation By Region:

North America:

United States

Canada

Europe:

Germany

The U.K.

France

Spain

Italy

Russia

Poland

BENELUX

NORDIC

Rest of Europe

Asia Pacific:

China

Japan

India

South Korea

ASEAN

Australia & New Zealand

Rest of Asia Pacific

Latin America:

Brazil

Mexico

Argentina

Middle East & Africa:

Saudi Arabia

South Africa

United Arab Emirates

Israel

Who are the key players operating in the industry?

The report covers the major market players including:

Bosch

Denso Corporation

Delphi Technologies (now part of BorgWarner)

NGK Spark Plug Co., Ltd.

Valeo

Standard Motor Products, Inc.

Hitachi Automotive Systems

Federal-Mogul (now part of Tenneco)

Mitsubishi Electric Corporation

ACDelco (a division of General Motors)

Bremi Fahrzeug-Elektrik GmbH & Co. KG

Hella GmbH & Co. KGaA

Continental AG

SMP Deutschland GmbH (formerly BERU)

Mitsubishi Electric Automotive America, Inc.

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Electric Vehicle (EV) Platform Market Estimated to Reach Revenue of US$ 65.5 Billion by the End of 2031

The global electric vehicle (EV) platform market is likely to grow at a CAGR of 24.6% from 2022 to 2031. The EV platform is a charging station consisting of underbody components and suspension. The vehicle's body and chassis are merged into the flooring, thereby ensuring that the EV remains lightweight. Increase in adoption of EVs across the world is projected to be a key factor propelling global electric platform (EV) platform industry.

Customizable EV platforms are being designed, modified, and constructed to support different EV models. EVs have now become more affordable owing to this technology. Customized EV platforms have low material cost offering superior performance. This is because modular electric vehicle platforms are designed, built, and modified for accommodating different variety of electric car models. Low operational and maintenance costs of EVs are projected to increase sales. This presents significant business opportunities in the electric vehicle (EV) platform market owing to the projected increase in the sales rate of EVs in the next few years.

According to TMR report, the global electric vehicle (EV) platform market stood at US$ 7.2 Bn in 2021 and is anticipated to reach US$ 65.5 Bn by the end of 2031. Rise in government support to set up charging stations for EVs is projected to bolster market expansion in the near future.

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Key Findings of Study

Imposition of Regulations on Internal Combustion Engines: Governments across the world have imposed strict emission standards on vehicles to minimize the harmful effects of exhaust fumes. Deployment of federal regulations that restrict gasoline and diesel-powered automobiles is one of the primary reasons for customers' shift toward EVs. This is projected to create significant business opportunities in the electric vehicle (EV) platform market during the forecast period.

Continuous Efforts in R&D to Lower Cost of Battery for EVs: The need for long lasting battery backup when the EV is on road is increasing as all EVs run on batteries. Rise in demand for zero-emission vehicles is projected to bolster the need for batteries in vehicles. This, in turn, is likely to bolster the electric vehicle (EV) platform market during the forecast period. Most manufacturers of the EV platform are investing significantly in research & development of better battery performance and battery packs that are affordable. This is likely to augment the global market for EV platform during the forecast period.

Key Drivers

Rise in demand for zero-emission vehicles is expected to boost the global market during the forecast period

Increase in adoption of new technologies for emission control is likely to augment the need for EV platform, thereby driving the global market

Regional Growth Dynamics

Asia Pacific accounted for dominant share of the global electric vehicle (EV) platform market in 2021. The trend is anticipated to continue during the forecast period owing to the presence of major vehicle manufacturers and OEMs in the region.

Expansion of production units and increase in focus on technological advancements in the EVs industry are projected to drive the electric vehicle (EV) platform market development during the forecast period

Key Players

Notable players in the global electric vehicle (EV) platform market are Zoyte, Volvo Cars, Volkswagen AG, Toyota Motor Corporation, SAIC Motor Corporation Limited, Rivian, Nissan Motor Corporation, Kia America Inc., JAC Motors, Hyundai Motor Company, Honda Motor Co. Ltd., Mercedes-Benz Group, Byton, BYD Company, BMW AG, BAIC Group, Tesla, Chery, Faraday &Future, Inc., Geely Auto, Honda Motor, and Fisker, Inc.

Electric Vehicle (EV) Platform Market Segmentation

Component

Chassis

Battery

Suspension System

Steering System

Drivetrain

Vehicle Interior

Others

Electric Vehicle (EV) Type

Battery Electric Vehicle (EV)

Hybrid Electric Vehicle (EV)

Platform

P0

P1

P2

P3

P4

Vehicle Type

Passenger Vehicle

Hatchback

Sedan

Utility Vehicle

Light Commercial Vehicle

Heavy Duty Truck

Bus & Coach

Sales Channel

OEM

Aftermarket

Region

North America

Europe

Asia Pacific

Middle East & Africa

South America

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Outdoor Power Equipment 2022 Industry Report Potential Growth, Share, Demand And Forecast to 2030

Outdoor Power Equipment Industry Overview

The global outdoor power equipment market size was USD 46.53 billion in 2021 and is expected to reach USD 76.61 billion by 2030, expanding at a CAGR of 5.9% from 2022 to 2030. The market growth can be credited to increasing demand for cordless outdoor power equipment as people are inclining more toward greater flexibility and portability.

Furthermore, the technological advancements of several companies in outdoor power equipment are also expected to drive market growth. For instance, in February 2020, Robert Bosch GmbH launched Indego M 700 and Indego M+ 700, two autonomous lawn mowers. These two connected lawn mowers feature 18 V lithium batteries with brushless DC motors that can cut of medium size gardens up to 700 square meters on a single charge.

Gather more insights about the market drivers, restrains and growth of the Outdoor Power Equipment Market

The increasing urbanization, disposable income, and infrastructure activities coupled with rising demand for the landscaping services are the factors expected to augment growth of the outdoor power equipment market. Furthermore, growing awareness of environmental issues leads to increasing adoption of the outdoor power equipment using lithium-ion batteries, as they are environment friendly and maximize energy output. Several companies are focused on innovation in lithium-ion batteries. For instance, in 2021, Techtronic's Industries started using red lithium-ion batteries for its cordless power tools, as they work faster and deliver more than expected from the battery's life.

The gardening trend has increased rapidly, mainly among younger generations. Most young people are inclined toward growing vegetables, fruits, and herbs. As young people are more likely to live in smaller yard lots, the type of equipment, plant and tools they require should work in tighter spaces. The gardening and lawn industry is changing to adapt to various consumer requirements by launching equipment that is lighter in weight and makes work comfortable.

Furthermore, the growing popularity of home improvement projects bodes well for the growth of the outdoor power equipment and garden tools market during the forecast period. Companies such as The Toro Company, Husqvarna, ANDREAS STIHL AG & Co. KG, and others gained profits from the stay-at-home trend due to the pandemic, which has extended the gardening season.

The pandemic in 2020 did cast a gloomy outlook on almost all industries, worldwide. The outbreak of COVID-19 impacted market growth during the initial few months of 2020. However, in later months, demand for various outdoor power equipment has witnessed strong growth with the resumption of operations in multiple industries. A considerable increase in the market for Do-it-yourself (DIY) equipment and do-it-for-me (DIFM) services in the commercial and residential segments are expected to drive market growth.

For instance, according to the Outdoor December forecast report in 2021, the commercial lawn mower grew by more than 15.0 % in 2020, with shipping of nearly 7.7 billion units. Furthermore, rising concern about the gasoline fumes and engine noise due to the COVID-19 has also increased the demand for energy-efficient outdoor power equipment.

Although the prospects look promising, the industry is still faced with several challenges regarding high maintenance costs. For accurate operations, one must inspect outdoor power equipment at various intervals. The factors to be reviewed regularly include inspecting cords, checking for damaged switches, sharpening, oiling, and other repairs needed for properly working of the equipment. Hence, the maintenance cost of outdoor power equipment is relatively high, which is expected to hamper the market’s growth.

Browse through Grand View Research's HVAC & Construction Industry Research Reports.

• The Middle East steel utility poles market size was valued at USD 5.29 billion in 2023 and is projected to grow at a CAGR of 5.3% from 2024 to 2030.

• The global electric water heater market size was valued at USD 14.67 billion in 2023 and is expected to expand at a CAGR of 8.5% from 2024 to 2030.

Global Outdoor Power Equipment Market Report Segmentation

This report forecasts revenue growth at the global, regional, and country levels and analyzes the latest industry trends from 2018 to 2030 in each sub-segment. For this study, Grand View Research has segmented the global outdoor power equipment market report based on power source, end-use, type, and region.

Power Source (Revenue, USD Million, 2018 - 2030)

Gasoline

Battery

Electric Corded

End-use (Revenue, USD Million, 2018 - 2030)

Residential

Commercial/ Government

Type (Revenue, USD Million; Volume, Thousand Units, 2018 - 2030)

Lawn Mower

Walk-Behind Lawn Mowers

Ride-on Lawn Mowers

Robotic Lawn Mowers

Zero -Turn Mowers

Chainsaw

Trimmer & Edger

Trimmers & Brush Cutter

Hedge Trimmers

Walk-Behind Edgers & Trimmers

Blowers

Snow

Leaf

Tillers & Cultivators

Snow Throwers

Others

Regional Outlook (Revenue, USD Million; Volume, Thousand Units, 2018 - 2030)

North America

US

Canada

Europe

UK

Germany

France

Italy

Netherlands

Denmark

Finland

Spain

Russia

Rest of Europe

Asia Pacific

China

India

Japan

South Korea

Singapore

Australia

Rest of Asia Pacific

Latin America

Brazil

Mexico

Argentina

Rest of Latin America

Middle East & Africa

UAE

Saudi Arabia

South Africa

Rest of Middle East & Africa

Key Companies & Market Share Insights

The market is fragmented and characterized by high competition with companies such as Makita Corp, Techtronic Industries Ltd, Robert Bosch, Ariens Company, and more. These companies focus on acquisitions, launching innovative products, and investing in research and development. For instance, in January 2020, The Toro Company announced the acquisition of Venture Products, Inc., an articulating turf, snow, and ice management equipment. The acquisition was carried out to expand its business in the professional market.

Several companies focus on providing cost-effective and ergonomic products as an integral part of their product offerings. Similarly, In January 2022, Robert Bosch GmbH launched Keo a cordless garden saw. Keo is one of the products of 18V Power for All System, the alliance formed with Husqvarna Group. The product is acquainted with a powerful interchangeable battery pack with replaceable saw blades designed for DIY applications. Some of the prominent players in the global outdoor power equipment market include:

Husqvarna AB

Makita Corp

Honda Motors Co. Ltd

Briggs & Stratton Corp.

Andreas Stihl AG & Company KG

MTD Holdings Inc.

Stanley Black and Decker Inc.

Andreas Stihl AG & Company KG

CHERVON (China) Trading Co., Ltd

Techtronic Industries Ltd.

Yamabiko Corporation

Robert Bosch

AL-KO Kober Group

Ariens Company

The Toro Company

Deere & Company

Order a free sample PDF of the Outdoor Power Equipment Market Intelligence Study, published by Grand View Research.

BMW R NineT by Gasoline Motor Co.

High-yield savings accounts (HYSA) and certificates of deposit (CDs) offer different advantages for savers, with varying interest rates, accessibility, and terms. High-yield savings accounts typically provide more flexibility and easier access to funds, while CDs often offer higher interest rates for fixed terms. Understanding these differences can help individuals choose the best option based on their financial goals and liquidity needs.

Today's Stocks & Topics: ROKU - Roku Inc. Cl A, Market Wrap, HIG - Hartford Financial Services Group Inc., GM - General Motors Co., "High-Yield Savings vs. CDs: Which is Best for Your Money?", RCL - Royal Caribbean Group, Key Benchmark Numbers and Market Comments for: Treasury Yields, Gold, Silver, Oil and Gasoline, PCE and Consumer Spending, Balancing a Portfolio, VRT - Vertiv Holdings LLC, PCAR - Paccar Inc., Insider Buying, OMF – One Main Holdings Inc., BMY - Bristol Myers Squibb Co., Passive Investing.

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David Dunbar Buick the founder of the Buick Motor Company passed away on March 5th 1929.

Buick was born at 26 Green Street, Arbroath on September 17th  in 1854, young David emigrated to the USA with his parents at the age of two. Although he founded the Buick Manufacturing Company which later became General Motors, Buick’s early success was largely due to his patented process for bonding porcelain to iron, a process that helped fuel the craze for white porcelain bathtubs.But Buick wasn’t all about tubs.

In 1899, after becoming engrossed in this new technology known as gasoline engines for automobiles, Buick established the Auto Vim and Power Co. to produce engines for farm and stationary use. He sold his plumbing business for $100,000 to raise capital for his new venture and began tinkering with using the engines he produced to power four-wheeled vehicles. Two years later, he founded the Buick Manufacturing Company to make engines for various car makers and to make cars himself. 

Unfortunately Buick,although a brilliant craftsman was a terrible businessman, he actually only made 120 cars along with his partner Ben Briscoe, before selling his remaining share to William C. Durant who insured that the company grew successfully.

David Buick died of cancer on on this day 1929, at the times of his death he was working as an inspector at a Detroit trade school. Buick, the man, was all but forgotten. Briscoe wrote in 1921 that had Buick been able to keep his shares in the firm, they would have been worth more than $10 million at that time. Their value today would be almost incalculable.

Buicks are still made, according to wiki they sold over 1.2 million vehicles in 2015, the main market nowadays is China! The cars baring the Scotsman’s name are also sold, mainly in the USA, Canada, and Mexico.

At the turn of the millennium, over 35,000,000 motor cars had been built in his name, which will never be lost to history.

A statue to honour Buick was unveiled in Michigan, as seen in the pic, another was planned for Arbroath as far back as 2018, but as yet so far it has not been erected.

Exploring Terrain: The Evolving Landscape of the ATV and UTV Market

The global ATV and UTV market, valued at US$ 10.42 billion in 2023, is on a robust growth trajectory, projected to reach US$ 19.63 billion by 2031, reflecting a CAGR of 8.41% from 2024 to 2031. This comprehensive research study delves into the nuances of this dynamic sector, providing an in-depth analysis of market trends, prominent drivers, and future growth prospects, equipping readers with the knowledge necessary for informed decision-making.

Market Forecast and Trends

The report provides precise market forecasts and highlights emerging trends, enabling readers to anticipate industry developments and strategize for the coming years. Understanding these trends is crucial for gaining a competitive edge in a rapidly evolving business landscape.

Request For Sample: https://www.kingsresearch.com/request-sample/atv-and-utv-market-556

Regional and Segment Analysis

The study offers a thorough examination of the ATV and UTV market, identifying high-growth regions and profitable segments through detailed region-specific and segment-by-segment analyses. This information is essential for implementing effective marketing strategies and developing product lineups that cater to the diverse preferences and needs of various target audiences. Key regions covered include North America, Europe, Asia Pacific, Latin America, and the Middle East & Africa.

Investment and Expansion Opportunities

The research report is a valuable tool for strategic decision-making, revealing potential areas for investment and business growth within the global ATV and UTV market. It identifies markets poised for substantial growth, aiding readers in expanding into new territories or launching innovative products.

Competitive Analysis

An in-depth competitive analysis profiles major market competitors, evaluating their strategies, weaknesses, and market shares. Key players, such as Polaris Inc., Honda Motor Co., Ltd., Yamaha Motor Co., Ltd., and others, employ top business strategies including partnerships, alliances, mergers, acquisitions, and product innovations to gain a competitive advantage. This analysis enables industry participants to benchmark their performance against rivals and develop effective strategies for market differentiation.

Why Buy This Report?

In-depth Understanding of Market Trends and Growth Catalysts: Gain comprehensive insights into market dynamics.

Precise Market Forecasts: Make informed decisions based on accurate projections.

Extensive Competitive Analysis: Outperform competitors with strategic insights.

Profitable Regional and Segment Prospects: Identify and capitalize on high-growth areas.

Strategic Investment and Expansion Planning: Plan for future growth in the ATV and UTV market.

Key Players in the ATV and UTV Market:

Polaris Inc.

Honda Motor Co., Ltd.

Yamaha Motor Co., Ltd.

Kawasaki Heavy Industries, Ltd.

BRP

Textron Specialized Vehicles

Kubota Corporation

CFMOTO Powersports

Massimo Motor Sports

Deere & Company

Market Segmentation

By Vehicle Type

All-Terrain Vehicle (ATV)

Utility Task Vehicle (UTV)

By Fuel Type

Gasoline/Petrol

Electric

By Displacement

Less Than 400 CC

401 CC to 799 CC

More Than 800 CC

By Region

North America: U.S., Canada, Mexico

Europe: France, U.K., Spain, Germany, Italy, Russia, Rest of Europe

Asia-Pacific: China, Japan, India, South Korea, Rest of Asia-Pacific

Middle East & Africa: GCC, North Africa, South Africa, Rest of Middle East & Africa

Latin America: Brazil, Argentina, Rest of Latin America

This report is an essential resource for anyone looking to deepen their understanding of the ATV and UTV market, offering a comprehensive overview of current trends, future growth prospects, and strategic insights.

Electric Two-Wheeler Market Size is Expected to Reach USD 109.5 Billion By 2032 | CAGR: 11.5%

Electric Two-Wheeler Market Size is Expected to Reach USD 109.5 Billion By 2032 | CAGR: 11.5% Stay Trendy with URBTNews.com (Subscribe Today Free!)   SHERIDAN, WY, UNITED STATES, September 17, 2024 /EINPresswire.com/ -- IMARC Group's report titled "Electric Two-Wheeler Market Report" details various aspects of the electric two-wheeler market dynamics. The report categorizes data by vehicle type, battery type, voltage type, peak power, battery technology, motor placement, and region for the period from 2024 to 2032. The electric two-wheeler market attained a size of US$ 39.9 billion in 2023 and is projected to grow to US$ 109.5 billion by 2032, showcasing an impressive 11.5% CAGR during the forecast period. For an in-depth analysis, interested individuals can obtain a sample report here: https://www.imarcgroup.com/electric-two-wheeler-market/requestsample Key Factors Driving Electric Two-Wheeler Market Growth Increased awareness of environmental issues significantly impacts demand for electric two-wheelers. Growing concern about climate change, especially regarding carbon emissions, motivates individuals and policymakers to adopt greener options. Traditional gasoline vehicles notably contribute to air pollution, leading to a search for cleaner alternatives, such as electric two-wheelers, which produce zero tailpipe emissions. As urban centers experience worsening air quality, the shift towards electric mobility accelerates. Consequently, manufacturers invest in electric two-wheeler technologies to meet rising consumer expectations. Technological Innovations Impacting Electric Two-Wheelers Recent advancements in lithium-ion battery technology revolutionize the electric vehicle market by offering superior range, swift charging capabilities, and enhanced performance. Manufacturers address critical barriers to electric vehicle adoption, such as range anxiety and time-consuming charging durations. Continuous research and development initiatives lead to more efficient and cost-effective battery solutions, further improving electric two-wheeler attractiveness. Additionally, innovations in electric motors, regenerative braking systems, and lightweight materials contribute to overall vehicle enhancement, promoting wider market acceptance. Impact of Fuel Prices on Electric Two-Wheeler Adoption Rising gasoline prices significantly influence consumers' transportation preferences, pushing them towards electric two-wheelers. With increasing fuel costs, electric two-wheelers emerge as more cost-effective options. They feature lower operating costs due to the lower price of electricity compared to gasoline, along with reduced maintenance expenses. Over time, these financial benefits become even more attractive for daily commuting and local travel. In regions with high or volatile fuel prices, the cost savings associated with electric two-wheelers amplify. Prominent Players in the Electric Two-Wheeler Market Several leading companies operate within the global electric two-wheeler industry, including: - AIMA Technology Co. Ltd. - Ampere Vehicles Pvt. Ltd. - BMW AG - Energica Motor Company S.p.A. - GOVECS AG - Hero Electric Vehicles Pvt. Ltd. - Mahindra GenZe - Terra Motors Corporation - Vmoto Limited - Yadea Technology Group Co. Ltd. - Zero Motorcycles, Inc. For further inquiries, you can request a sample report directly through this link: https://www.imarcgroup.com/request?type=report&id=2215&flag=C Market Segmentation of Electric Two-Wheelers The electric two-wheeler market undergoes segmentation based on several factors, including: - Vehicle Type: Electric Scooter/Moped, Electric Motorcycle - Battery Type: Lithium-Ion, Sealed Lead Acid (SLA) - Voltage Type: 96V - Peak Power: 10 kW - Battery Technology: Removable, Non-Removable - Motor Placement: Hub Type, Chassis Mounted Regional Analysis of the Electric Two-Wheeler Market The electric two-wheeler market spreads across various regions, including: - North America (United States, Canada) - Asia Pacific (China, Japan, India, South Korea, Australia, Indonesia, others) - Europe (Germany, France, United Kingdom, Italy, Spain, Russia, others) - Latin America (Brazil, Mexico, others) - Middle East and Africa Each region displays unique trends and growth opportunities that manufacturers analyze for strategic decision-making. Emerging Trends in the Global Electric Two-Wheeler Market Governments across various nations implement incentives and policies to boost electric vehicle adoption. These measures include subsidies, tax reductions, and rebates for purchasing electric two-wheelers, which enhance affordability for consumers. Furthermore, regulatory bodies establish stricter emission standards, promoting the development of electric alternatives. Investments in necessary infrastructure, like charging stations, support the burgeoning electric vehicle market. The combination of monetary incentives and a supportive regulatory environment creates a positive landscape for electric two-wheeler manufacturers. Possible customization options are available for specific requests beyond the report's current scope. Related Reports by IMARC Group - Peer-to-Peer P2P Lending Market: https://www.imarcgroup.com/peer-to-peer-lending-market - Dry Eye Syndrome Market: https://www.imarcgroup.com/dry-eye-syndrome-market - Commercial Seaweeds Market: https://www.imarcgroup.com/commercial-seaweeds-market - Fitness App Market: https://www.imarcgroup.com/fitness-app-market IMARC Group provides strategic insights and a comprehensive suite of services to assist ambitious organizations, aiding in impactful market expansion initiatives. For further details, contact: Elena AndersonIMARC Services Private Limited+1 631-791-1145email us here Legal Disclaimer: EIN Presswire provides this news content "as is" without warranty of any kind. The platform does not accept any responsibility for the accuracy or reliability of the information contained in this article. If you have any complaints or copyright issues related to this article, please reach out to the author. Read the full article