Automotive Filter Market: Perspective on Upcoming Impacts and Forecast Analysis (2021-2027) by Vehicle Type, Power Capacity, Operating Miles, and Region.

  • Automotive Filter Market size was valued at US$ 20.05 Billion in 2021 and the total Automotive Filter Market revenue is expected to grow at 3.65% through 2022 to 2027, reaching nearly US$ 24.86 Billion.

  • Format : PDF | Report ID : SMR_484

Automotive Filter Market Overview:

Automotive filters are generally used to remove dust particles and air pollutants from vehicles in order to increase fuel efficiency and power output. It helps to increase airflow and reduce engine damage, extending the life of the vehicle. It has a wide range of applications in the automotive industry. Automobile filters keep harmful pollutants, contaminants, and toxins from entering the vehicle. These filters capture pollen, dust particles, and foul-smelling gases that enter the car through the heating, ventilation, and air conditioning (HVAC) system. Keeping the windscreen from quickly condensing helps to keep the environment healthy and clean while also avoiding visual problems. Automotive Filter market is expected to register CAGR of 3.65% during the forecast period.

 

Automotive Filter Market Dynamics:

Regulatory Laws Enacted by the Government in the Interest of Emissions

Pollens, exhaust fumes, germs, and other dirt particles are prevented from entering the carburetor and engine by using an automotive filter. This reduces the amount of pollution released by automobiles, lowers maintenance costs, and extends the vehicle's service life. Vehicles that release hazardous gases such as hydrocarbons (HC), nitrogen oxide (NOx), carbon monoxide (CO), and others are subject to strict emission restrictions enacted by the government and emission agencies. The Environmental Protection Agency (EPA) in the United States, for example, has updated requirements such as the national programme for greenhouse gas emissions (GHG) and light-duty vehicle fuel economy guidelines (passenger cars and trucks).

 

COVID-19 has caused a drop in car production, which has a direct impact on the automotive filter market. However, the automotive filters market is expected to rise in the next years due to a forecast steady rebound in vehicle production in Q1-Q2 of 2021. The passenger automobile segment in Europe is likely to see increased demand for gasoline engines and gasoline filters as a result of environmental concerns and rigorous emission standards. The market for vehicle filters is likely to grow further as people become more aware of the quality of the air in their cars. The replacement cycle of filters per vehicle has been optimized thanks to technological breakthroughs in filter media types. However, as the number of vehicles on the road grows, so will the demand for automobile filters.

 

The ACEA (European Automobile Manufacturers' Association) estimates that passenger car production reached 78.6 million in 2018, with Asia Pacific and North America leading the way. The automotive filter market is predicted to rise because to a steady rebound in car manufacturing following the COVID-19 impact.

 

All types of automobiles come with a variety of filters, including air, oil, fuel, and cabin filters. The market will rise as a result of this, as well as an increase in car production. Furthermore, future developments in automobile filters, such as brake dust filters and transmission filters for automated transmission systems, are likely to boost the automotive filter market's growth.

 

Advancements in filter media/technology provide opportunities:

A filter's essential component is the filter medium. It's utilised to catch any alien or undesired particles. Depending on the application, it is mostly composed of cellulose, synthetic, glass fibre, and activated carbon. In the coming years, advancements in filter media types or technology will provide a tremendous growth potential for Automotive Filter Market. Cabin filters are currently available to prevent dust particles from entering the car. Most dust filters capture 100 percent of particles 3 microns and larger, and 95–99 percent of particles 1–3 microns in size. Dust and odour filters, on the other hand, will have a mainstream market in the coming years. A coating of is applied to the dust and odour filters.

 

Nonreplaceable filters can be washed and reused for longer periods of time. Cleaning the filters, on the other hand, necessitates the use of a specialised cleaning kit. K&N Engineering replacement air filters can last up to 50,000 miles between cleanings, depending on driving conditions. Air filters may be simply cleaned and re-oiled with the K&N Air Filter Cleaning Kit, restoring them to new condition and preparing them for another 50,000 miles of use. Because there is no need for replacement, this is a cost-effective choice for car owners in the long run. Volkswagen Jetta and Toyota Fortuner are two vehicles that employ OE-fitted nonreplaceable filters. K&N Engineering, AIRAID, and AEM are among the companies that make these non-replaceable car filters.

 

Automotive Filter Market Segmentation:

Based Filters Type, The market is Segmeted as Air Filter, Fuel Filter, Cabin Filter, Coolant Filter, and Others based on filter type. In 2021, the air and fuel filters segment held the highest proportion of the global automotive filter market. An air filter cleans the air before it enters the engine for burning. Before the fuel enters the engine to be burned, it is cleaned by the fuel filter. Automotive air filters are made of a variety of materials, including foam, paper, and cotton. Leading auto filter manufacturers are investing in research and development to improve cabin filter efficiency and protect drivers from fine dust and hazardous viruses. For example, in April 2020, MANN+HUMMEL, a leading filter maker based in Germany, said that it was investigating the effectiveness of their filters to help with viral infection management. The need for cabin filters is projected to expand as people's health awareness grows.

 

The automotive filter market is divided into two types of media: cellulose and synthetic media. In most cases, disposable oil filters are made of cellulose filter material. This media may capture particles as small as 8 to 10 microns and remove up to 40% of the motor oil. These oil filters should be checked and replaced every 3,000 miles. Higher-quality oil filters use synthetic media. This media is capable of removing 50% of particles with a diameter of 20 to 40 microns and 24% of particles with an 8 to 10 micron diameter. These oil filters should be checked and replaced every 5,000 to 7,000 miles.

Automotive Filter Market

based on application: passenger cars, commercial vehicles, and two-wheelers. Because of the hub-spoke layout of metropolitan cities and suburban areas, the passenger vehicle segment is expected to drive demand growth in the automotive filter market throughout the forecast period, owing to each country's continuous increase in miles travelled per year. The increase of automotive filters is mostly due to the ongoing expansion of passenger car manufacture. Due to the need to keep commercial vehicles in functioning order, a high replacement rate is expected to be a major driving force in this market. By value, the BEV filter market is expected to be larger than the PHEV filter market, with a greater CAGR expected over the forecast period. One of the biggest downsides of BEVs was their limited driving range at first. However, technological developments have substantially expanded the driving range of BEVs. The average battery range of the Nissan LEAF and Tesla Models, for example, is 253 miles. BEV sales are also on the rise, thanks to government incentives for OEMs to increase the number of electric vehicles in their fleets. The market for battery dryer cartridges will be fueled by rising investments in battery technology development.

 

Automotive Filter Market Regional Insights:

North American Region is expected to grow at a significant rate:

During the forecast period, North America is expected to be the largest car filters market. The automotive filter market in this region is being pushed by the huge vehicle parc and high average annual miles driven in nations like the United States and Mexico. The large vehicle parc in North America is attributed to passenger cars and light commercial vehicles (LCVs). However, in Asia Pacific and Europe, the contribution of passenger vehicles dominates the vehicle parc, as LCV sales are quite low in these regions. The OE value market for vehicle filters is smaller than the aftermarket market for filters. In the original equipment market, filters are fitted in automobiles only once, during the manufacturing process. After a specific number of miles travelled in the aftermarket, filters are replaced on a regular basis. As a result, the aftermarket for filters in North America grows faster than the OE market.

 

The objective of the report is to present a comprehensive analysis of the Automotive Filter Market to the stakeholders in the industry. The report provides trends that are most dominant in the Automotive Filter Market and how these trends will influence new business investments and market development throughout the forecast period. The report also aids in the comprehension of the market dynamics and competitive structure of the market by analyzing market leaders, market followers, and regional players.

 

The qualitative and quantitative data provided in the Automotive Filter Market report is to help understand which market segments, regions are expected to grow at higher rates, factors affecting the market, and key opportunity areas, which will drive the industry and market growth through the forecast period. The report also includes the competitive landscape of key players in the industry along with their recent developments in the Automotive Filter Market. The report studies factors such as company size, market share, market growth, revenue, production volume, and profits of the key players in the global market.

 

The report provides Porter's Five Force Model, which helps in designing the business strategies in the market. The report helps in identifying how many rivals are existing, who they are, and how their product quality is in the Market. The report also analyses if the Automotive Filter Market is easy for a new player to gain a foothold in the market, do they enter or exit the market regularly if the market is dominated by a few players, etc.

 

The report also includes a PESTEL Analysis, which aids in the development of company strategies. Political variables help in figuring out how much a government can influence the Market. Economic variables aid in the analysis of economic performance drivers that have an impact on the Market. Understanding the impact of the surrounding environment and the influence of environmental concerns on the Automotive Filter Market is aided by legal factors.

 

Automotive Filter Market Scope:

Automotive Filter Market

Segmentation

Market Indicators:

Details

by Filter Type

  • Air Filter
  • Fuel Filter
  • Cabin Filter
  • Coolant Filter
  • Others

by Media Type

  • Cellulose Media
  • Synthetic Media

Historical Data:

2017-2020

By Application

  • Passenger car
  • Light commercial vehicle
  • Bus
  • Truck
  • BEV
  • PHEV

CAGR

3.65%

Market Size in 2021:

US $ 20.05 Bn.

Market size in 2027:

US $ 24.86 Bn.

 

Automotive Filter Market Regional Analysis:

  • North America
  • Europe
  • Asia Pacific
  • South America
  • Middle East and Africa

 

Automotive Filter Market Players:

  • MANN+HUMMEL (Germany)
  • MAHLE (Germany)
  • Donaldson (US)
  • Sogefi (Italy)
  • Robert Bosch (Germany)
  • Denso (Japan)
  • AHLSTROM-MUNKSJÖ (Sweden)
  • ACDelco (US)
  • Hengst SE(Germany)
  • &N Engineering (US).


Frequently Asked Questions

Automotive Filter Market revenue is expected to grow at 3.65% through 2022 to 2027

Chapter 1 Scope of the Report
Chapter 2 Research Methodology

      2.1.Research Process
      2.2.Global Automotive Filter Market: Target Audience
      2.3.Global Automotive Filter Market: Primary Research (As per Client Requirement)
      2.4.Global Automotive Filter Market: Secondary Research
Chapter 3 Executive Summary
Chapter 4 Competitive Landscape

      4.1. Market Share Analysis, By Region, 2021-2027(In %)
            4.1.1.North America Market Share Analysis, By Value, 2021-2027 (In %)
            4.1.2.Europe Market Share Analysis, By Value, 2021-2027 (In %)
            4.1.3.Asia Pacific Market Share Analysis, By Value, 2021-2027 (In %)
            4.1.4.South America Market Share Analysis, By Value, 2021-2027 (In %)
            4.1.5.Middle East and Africa Market Share Analysis, By Value, 2021-2027 (In %)
      4.2. Market Dynamics
            4.2.1.Market Drivers
            4.2.2.Market Restraints
            4.2.3.Market Opportunities
            4.2.4.Market Challenges
            4.2.5.PESTLE Analysis
            4.2.6.PORTERS Five Force Analysis
            4.2.7.Value Chain Analysis
      4.3. Global Automotive Filter Market Segmentation Analysis, 2021-2027 (Value US$ MN) 
            4.3.1.Global Market Share Analysis, By Media Type, 2021-2027 (Value US$ MN)
                  4.3.1.1.Air Filter
                  4.3.1.2.Fuel Filter
                  4.3.1.3.Cabin Filter
                  4.3.1.4.Coolant Filter
                  4.3.1.5.Others
            4.3.2.Global Market Share Analysis, By Filter Type, 2021-2027 (Value US$ MN)
                  4.3.2.1.Cellulose media 
                  4.3.2.2.Synthetic media
            4.3.3. Global Market Share Analysis, By Application, 2021-2027 (Value US$ MN)
                  4.3.3.1.Passenger car
                  4.3.3.2.Light commercial vehicle
                  4.3.3.3.Bus
                  4.3.3.4.Truck
                  4.3.3.5.BEV
                  4.3.3.6.PHEV
      4.4. North America Automotive Filter Market Segmentation Analysis, 2021-2027 (Value US$ MN) 
            4.4.1.North America Market Share Analysis, By Media Type, 2021-2027 (Value US$ MN)
                  4.4.1.1.Air Filter
                  4.4.1.2.Fuel Filter
                  4.4.1.3.Cabin Filter
                  4.4.1.4.Coolant Filter
                  4.4.1.5.Others
            4.4.2.North America Market Share Analysis, By Filter Type, 2021-2027 (Value US$ MN)
                  4.4.2.1.Cellulose media 
                  4.4.2.2.Synthetic media
            4.4.3.North America Market Share Analysis, By Application, 2021-2027 (Value US$ MN)
                  4.4.3.1.Passenger car
                  4.4.3.2.Light commercial vehicle
                  4.4.3.3.Bus
                  4.4.3.4.Truck
                  4.4.3.5.BEV
                  4.4.3.6.PHEV
            4.4.4.North America Market Share Analysis, By Country, 2021-2027 (Value US$ MN)
                  4.4.4.1.US
                  4.4.4.2.Canada
                  4.4.4.3.Mexico
      4.5. Europe Automotive Filter Market Segmentation Analysis, 2021-2027 (Value US$ MN) 
            4.5.1.Europe Market Share Analysis, By Media Type, 2021-2027 (Value US$ MN)
            4.5.2.Europe Market Share Analysis, By Filter Type, 2021-2027 (Value US$ MN)
            4.5.3.Europe Market Share Analysis, By Application, 2021-2027 (Value US$ MN)
            4.5.4.Europe Market Share Analysis, By Country, 2021-2027 (Value US$ MN)
                  4.5.4.1.UK
                  4.5.4.2.France
                  4.5.4.3.Germany
                  4.5.4.4.Italy
                  4.5.4.5.Spain
                  4.5.4.6.Sweden
                  4.5.4.7.Austria
                  4.5.4.8.Rest Of Europe
      4.6. Asia Pacific Automotive Filter Market Segmentation Analysis, 2021-2027 (Value US$ MN) 
            4.6.1.Asia Pacific Market Share Analysis, By Media Type, 2021-2027 (Value US$ MN)
            4.6.2.Asia Pacific Market Share Analysis, By Filter Type, 2021-2027 (Value US$ MN)
            4.6.3.Asia Pacific Market Share Analysis, By Application, 2021-2027 (Value US$ MN)
            4.6.4.Asia Pacific Market Share Analysis, By Country, 2021-2027 (Value US$ MN)
                  4.6.4.1.China
                  4.6.4.2.India
                  4.6.4.3.Japan
                  4.6.4.4.South Korea
                  4.6.4.5.Australia
                  4.6.4.6.ASEAN
                  4.6.4.7.Rest Of APAC
      4.7. South America Automotive Filter Market Segmentation Analysis, 2021-2027 (Value US$ MN) 
            4.7.1.South America Market Share Analysis, By Media Type, 2021-2027 (Value US$ MN)
            4.7.2.South America Market Share Analysis, By Filter Type, 2021-2027 (Value US$ MN)
            4.7.3.South America Market Share Analysis, By Application, 2021-2027 (Value US$ MN)
            4.7.4.South America Market Share Analysis, By Country, 2021-2027 (Value US$ MN)
                  4.7.4.1.Brazil
                  4.7.4.2.Argentina
                  4.7.4.3.Rest Of South America
      4.8. Middle East and Africa Automotive Filter Market Segmentation Analysis, 2021-2027 (Value US$ MN) 
            4.8.1.Middle East and Africa Market Share Analysis, By Media Type, 2021-2027 (Value US$ MN)
            4.8.2.Middle East and Africa Market Share Analysis, By Filter Type, 2021-2027 (Value US$ MN)
            4.8.3.Middle East and Africa Market Share Analysis, By Application, 2021-2027 (Value US$ MN)
            4.8.4.Middle East and Africa Market Share Analysis, By Country, 2021-2027 (Value US$ MN)
                  4.8.4.1.South Africa
                  4.8.4.2.GCC
                  4.8.4.3.Egypt
                  4.8.4.4.Nigeria
                  4.8.4.5.Rest Of ME&A
Chapter 5 Stellar Competition Matrix
      5.1.Global Stellar Competition Matrix
      5.2.North America Stellar Competition Matrix
      5.3.Europe Stellar Competition Matrix
      5.4.Asia Pacific Stellar Competition Matrix
      5.5.South America Stellar Competition Matrix
      5.6.Middle East and Africa Stellar Competition Matrix
      5.7.Key Players Benchmarking 
            5.7.1.Key Players Benchmarking By Media Type, Pricing, Market Share, Investments, Expansion Plans, Physical Presence and Presence in the Market.
      5.8.Mergers and Acquisitions in Application
            5.8.1.M&A by Region, Value and Strategic Intent
Chapter 6 Company Profiles
      6.1.Key Players
            6.1.1.Ballard Power Systems (Canada)
                  6.1.1.1.Company Overview
                  6.1.1.2.Source Portfolio
                  6.1.1.3.Financial Overview
                  6.1.1.4.Business Strategy
                  6.1.1.5.Key Developments
            6.1.2.Toyota Motor Corporation (Japan)
            6.1.3.Hyundai Group (South Korea)
            6.1.4.Hyster Yale (US)
            6.1.5.Cummins (US)
            6.1.6.Toshiba India Pvt. Ltd. (India)
            6.1.7.ITM Power (UK)
            6.1.8.PLUG POWER INC. (USA)
            6.1.9.Ceres Power Holdings plc (UK)
            6.1.10.Nedstack Fuel Cell Technology BV (Netherlands)
            6.1.11.NUVERA FUEL CELLS, LLC (USA)
            6.1.12.American Honda Motor Co., Inc. (USA)
            6.1.13.Hyundai Motor Company (South Korea)
            6.1.14.Daimler AG (Germany)
            6.1.15.Nissan (Japan)
            6.1.16.TW Horizon Fuel Cell Technologies (Singapore)
            6.1.17.Altergy (USA)
            6.1.18.Intelligent Energy Limited (UK)
            6.1.19.K- Pas Instronic Engineers India Private Limited (India)
            6.1.20.Fuji Electric Co. (Japan)
      6.2. Key Findings
      6.3. Recommendations

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