自動車用フレグランス・空調システムの中国市場（2024年）

ユーザーがより質の高い、パーソナライズされたインテリジェントでシナリオに基づいたカーライフを求める中、車内の健康的な空気はますます注目されています。現在、自動車用空調システムは主にエアコン、エアフィルター（フィルターエレメント、PM2.5フィルター装置、AQS、物理吸着など）、空気清浄システム（マイナスイオン/プラズマ発生装置、紫外線発生装置、光触媒技術など）、フレグランスシステムを使用し、コックピットに心地よい香りをもたらし、ホルムアルデヒドと臭気を除去し、マイナスイオンで有害ガス粒子を浄化し、細菌を殺菌および抑制します。

車内空気質のモニタリングと管理に関する中国の標準には、国家標準GB/T 27630-2011 「Guideline for Air Quality Assessment of Passenger Car」、協会標準「Passenger Cars - In-car Air Quality Measurement and Odor Evaluation Methods」、工業標準QC/T 998-2023「Cabin Air Filter for Automobiles」、協会標準「Testing Specifications for Automotive Fragrance Capsules」、協会標準「Technical Specifications for Automotive Fragrance Systems」、協会標準「Key Chemical Substances Controlled by REACH in the Automotive Industry Part 2: Testing Specifications」があります。

空気質健康認証の面では、China Automotive Technology & Research Center（CATARC）とCAQCのCN95 Healthy Cockpit Certification（自動車用エアコンフィルターの粒子ろ過効率指数により、認証製品はCN60、CN70、CN80、CN90、CN95の5つの等級に分けられ、CN95は最高等級で、0.3μmの非油性粒子のろ過効率が95%を超えます）のほか、China Automotive Engineering Research Institute Co., Ltd.（CAERI）が導入した「China Automotive Health Index」もあります。（CAERI）が導入した「China Automotive Health Index」があり、揮発性有機化合物（VOC）、車両臭気強度（VOI）、電磁放射（EMR）、粒子状物質（PM）、車両アレルギーリスク（VAR）の5つの評価項目をカバーしています。

1. 自動車用空調機器の搭載数は増加しており、特に自動車用フレグランスは急激な伸びを示しています。

現在、自動車用空調機器には主にフレグランスシステム、空気清浄機、PM2.5フィルター装置、マイナスイオンシステムが含まれます。

2021年～2024年5月にかけて、自動車用空気清浄機とフレグランスシステムの搭載数は急速に増加しました。2023年、82万1,000台の自動車にフレグランスシステムが標準装備され、2024年1月～5月には、48万9,192台の自動車にフレグランスシステムが標準装備され、前年比122%の急増となっています。2024年には110万台以上に搭載されると予測されています。

一方、空気清浄機の搭載数は着実に伸びています。2022年は前年比14.8%増、2023年は前年比22.4%増が標準です。2024年1月～5月に空気清浄機が標準装備された車両は245万1,000台で、前年同期比7.8%増となっています。2024年に700万台以上の車両に空気清浄機が搭載されると予測されます。2024年1月～5月に、PM2.5フィルターが搭載された車両は633万3,600台で前年同期比12.1%増、マイナスイオンシステムが搭載された車両は102万5,600台で前年同期比5.7%減となっています。

当レポートでは、中国の自動車用フレグランス・空調システム市場について調査分析し、空気清浄技術、空気質の標準と認証、システムの搭載数、国内外のサプライヤーなどの情報を提供しています。

目次

第1章 自動車用フレグランス・空調システムの概要

• 自動車用空調システムの概要
• 自動車用フレグランスシステム
  • 自動車用フレグランスシステムのイントロダクション
  • 伝統的なフレグランスシステムの構造
  • 自動車用フレグランスシステムのインテリジェント化プロセス
  • 自動車用インテリジェントフレグランスの特徴
  • インテリジェントフレグランスシステムの構造
  • インテリジェントフレグランス技術（1）
  • インテリジェントフレグランス技術（2）：NFCチップ認識
  • インテリジェントフレグランス技術（3）
  • インテリジェントフレグランス技術（4）
• 空気清浄技術
  • 空気清浄技術の開発
  • 自動車用空気清浄機の分類
  • 空気清浄システムの主な構成
  • 空気清浄技術：マイナスイオン/プラズマシステム（1）
  • 空気清浄技術：マイナスイオン/プラズマシステム（2）
  • 空気清浄技術：マイナスイオン/プラズマシステム（3）
  • 空気清浄技術：紫外線
  • 空気清浄技術：光触媒（1）
  • 空気清浄技術：光触媒（2）
  • エアフィルター技術：AQSモニタリング/物理吸着（1）
  • エアフィルター技術：AQSモニタリング/物理吸着（2）
  • 空気清浄技術：フィルターエレメント/HEPAフィルター（1）
  • 空気清浄技術：フィルターエレメント/HEPAフィルター（2）
  • その他の空気清浄コンポーネント：超音波霧化装置
• 自動車の空気質の標準と認証
  • 自動車用フレグランス・空気清浄標準（1）
  • 自動車用フレグランス・空気清浄標準（2）
  • CN95 Filter Certification
  • CN95 Healthy Cockpit Certificationで5A評価を獲得したOEM
  • CN95 Healthy Cockpit Certificationで5A評価を獲得したモデル
  • Vehicle Health Index

第2章 自動車用フレグランス・空気清浄市場

• 自動車用エアコンの搭載
• 自動車用エアコンの搭載率
• 自動車用フレグランスシステム市場
  • 中国の自動車用フレグランスシステムの市場規模（2021年～2030年）
  • 自動車用フレグランスシステムの搭載率：価格帯別
  • 自動車用フレグランスシステムの搭載数の上位20モデル
  • 自動車用フレグランスシステムを搭載した上位20モデル
  • 自動車用フレグランスシステムの搭載数の内訳：価格帯別
  • 自動車用フレグランスシステムの搭載率：動力タイプ別
• 自動車用空気清浄機の搭載
  • 中国の自動車用空気清浄機の市場規模（2021年～2030年）
  • 自動車用空気清浄機の搭載率：価格帯別
  • 自動車用空気清浄機の搭載数の上位20ブランド
  • 自動車用空気清浄機を搭載した上位20モデル
  • 自動車用空気清浄機の搭載数の内訳：価格帯別
  • 自動車用空気清浄機の搭載率：動力タイプ別

第3章 自動車用フレグランス・空気清浄サプライヤー

• Beiduofen Technology
• KLOVEF
• Maiqian
• CARORI
• Maxmac
• Huaze Electronic
• Xiongjiang Technology
• BYD Semiconductor
• Sailing Technology
• CUBIC
• Goldensea Hi-Tech
• Dongjian Technology
• Valeo
• MAHLE
• Denso
• Hanon
• Freudenberg
• その他のサプライヤーのフレグランスシステムレイアウト

第4章 OEMのフレグランス・空気清浄システム

• AITO
• ZEEKR
• Denza
• Li Auto
• Chery
• BYD
• NIO
• Dongfeng Aeolus
• Fangchengbao
• Geely Galaxy
• Avatr
• Voyah
• Xpeng
• Geely
• IM Motors
• Tesla
• Mercedes-Benz
• BMW
• Audi

第5章 自動車用フレグランス・空調のサマリー/動向

• サマリー
  • OEMモデルのインテリジェントフレグランスシステム機能の比較（1）
  • OEMモデルのインテリジェントフレグランスシステム機能の比較（2）
  • 自動車用インテリジェントフレグランス/空気清浄サプライヤー（1）
  • 自動車用インテリジェントフレグランス/空気清浄サプライヤー（2）
  • 自動車用フレグランス材料のサプライヤーとOEMとの連携の事例
  • OEMが独自に開発したフレグランスシステム技術
  • 複数のOEMの自動車用フレグランスシステムの比較
  • OEMモデルのフレグランスコア価格
  • OEMモデルの空気清浄システムの技術的特徴
• 動向

Research on automotive fragrance/air purification: With surging installations, automotive olfactory interaction is being linked with more scenarios.

As users require higher quality of personalized, intelligent and scenario-based car life, the healthy air in cars receives ever more attention. At present, automotive air conditioning systems mainly use air conditioner, air filters (filter elements, PM2.5 filter devices, AQS, physical adsorption, etc.), air purification systems (negative ion/plasma generator, ultraviolet generator, photocatalyst technology, etc.), and fragrance systems to bring pleasant fragrance to cockpits, remove formaldehyde and odor, purify harmful gas particles with negative ions, and kill and inhibit bacteria.

Chinese standards for monitoring and managing in-car air quality include the national standard GB/T 27630-2011 "Guideline for Air Quality Assessment of Passenger Car", the association standard " Passenger Cars - In-car Air Quality Measurement and Odor Evaluation Methods", the industrial standard QC/T 998-2023 "Cabin Air Filter for Automobiles", the association standard "Testing Specifications for Automotive Fragrance Capsules", the association standard "Technical Specifications for Automotive Fragrance Systems" and the association standard "Key Chemical Substances Controlled by REACH in the Automotive Industry Part 2: Testing Specifications".

In the aspect of air quality health certification, besides the CN95 healthy cockpit certification of China Automotive Technology & Research Center (CATARC) & CAQC (by the particle filtration efficiency index of automotive air conditioner filters, the certified products are divided into five grades: CN60, CN70, CN80, CN90 and CN95, of which CN95 is the highest grade, that is, the filtration efficiency of 0.3μm non-oily particles exceeds 95%), there is also "China Automotive Health Index" introduced by China Automotive Engineering Research Institute Co., Ltd. (CAERI), covering five evaluation dimensions, namely, volatile organic compounds (VOC), vehicle odor intensity (VOI), electromagnetic radiation (EMR), particulate matter (PM) and vehicle allergy risk (VAR).

1. The installations of automotive air conditioning devices have increased, especially automotive fragrance having seen exponential growth.

At present, automotive air conditioning devices mainly include fragrance systems, air purifiers, PM2.5 filter devices and negative ion systems.

From 2021 to May 2024, the installations of automotive air purifiers and fragrance systems rose rapidly. In 2023, 821,000 cars were equipped with fragrance systems as standard; from January to May 2024, fragrance systems as a standard configuration were installed in 489,192 cars, a year-on-year spike of 122%. It is expected that over 1.1 million cars will carry such systems in 2024.

Meanwhile, the installations of air purifiers made steady growth. It increased by 14.8% year on year in 2022 and 22.4% year on year in 2023 as standard. From January to May 2024, 2.451 million vehicles were equipped with air purifiers as standard, a year-on-year increase of 7.8%. It is expected that air purifiers will be installed in over 7 million vehicles in 2024. From January to May 2024, 6.3336 million vehicles were installed with PM2.5 filters, a year-on-year increase of 12.1%; 1.0256 million vehicles carried negative ion systems, a year-on-year decrease of 5.7%.

2. Air purification technologies such as photocatalyst and ultraviolet ray are applied to more models.

On mainstream models, air purification systems are mainly used for disinfection and sterilization, for example, plasma purification, photocatalyst purification and ultraviolet sterilization. At present, air purification systems are often matched with air filters to build a complete automotive air purification management system. An automotive air purifier is an air purification device specifically used to purify PM2.5, toxic and harmful gases (formaldehyde, benzene, TVOC, etc.), odor, bacteria, viruses and other in-car pollutants.

For in-car air purification, ever more OEMs are trying to apply such technologies as ultraviolet disinfection and photocatalyst to improve the in-car air health index, in addition to negative ions/plasma. For example, AITO M9 uses UVC photocatalyst disinfection technology, and the high-configuration model of GAC Toyota Camry is equipped with photocatalyst air purifiers and Panasonic nanoe(TM) X, a nano negative ion air moisturizing purification system.

Photocatalyst, represented by nanometer titanium dioxide (TiO2), is a collective name for semiconductor materials that does not change under the irradiation of light but can promote chemical reactions and has catalytic function. The biggest feature of photocatalyst is that it strongly absorbs ultraviolet rays in light. After absorbing ultraviolet rays, the molecules of photocatalyst move violently and become active, but its substance remains unchanged. When odorous substances (formaldehyde, acetic acid, ammonia, etc.) in the air pass through the photocatalyst net, they collide with the active photocatalyst, absorb some energy, and become active as well. The molecules move violently and unsteadily, a series of chemical reactions (which are called photodissociation reactions) occur, and the odorous substances are transformed into odorless substances.

For example, AITO M9 uses a UVC photocatalyst disinfection system combined with air conditioning to not only efficiently filter out tiny particles such as PM2.5 and dust, but also actively eliminate viruses and bacteria in the air conditioning duct and internal air. According to the testing report issued by the authoritative organization "National Center of Quality Inspection and Testing on Air Purification Products", the photocatalyst air sterilizer assembled into AITO M9 can effectively kill the common influenza virus H1N1, with the removal rate higher than 99.99% within 15 minutes. The killing rate of Staphylococcus albus in 15 minutes goes beyond 99.9%. The extinction rate of natural bacteria in the air surpasses 94% within 30 minutes.

In addition, the principle of ultraviolet disinfection is to destroy the molecular structure of DNA or RNA in microbial cells by using ultraviolet rays with appropriate wavelength, resulting in the death of growing cells and/or regenerative cells, thus accomplishing disinfection. The automotive ultraviolet sterilization systems on market generally adopt the UVC wavelength band (200~275 nm).

3. Fragrance systems are heading in the direction of multimodal control.

The fragrance system releases the fragrance to the whole vehicle through the air conditioning system. The automotive intelligent fragrance system can control the switch according to the settings, and adjust the fragrance concentration, mode and working time interval through various intelligent methods such as WeChat applet, voice control or smart control panel. In general, an automotive intelligent fragrance system is composed of a fragrance container, IVI display, audio control system, fragrance controller and fragrance actuator.

As intelligent cockpit interaction technology develops, multiple control modes for intelligent fragrance systems come out, for example:

Voice control: NIO EC7, Neta GT, HiPhi Y, Voyah Passion, Changan Nevo A07, Livan 7, etc.

Gesture interaction: The intelligent fragrance system of Avatr 11 can be controlled by gesture recognition, emotion recognition, voice interaction and scenario modes.

Face recognition: When a tired driver is detected, NIO EC7 will automatically release the refreshing fragrance.

Remote control: The 2024 Xpeng G9 allows users to remotely turn on/off the air conditioner, adjust the temperature, and select the fragrance scent via their mobile phones. The 2024 AITO M9 lets users remotely turn on/off the air conditioner, adjust the temperature, and tweak the fragrance concentration through via mobile phones. The 2024 Zeekr 001 allows users to remotely turn on/off the air conditioner, adjust the temperature, select the fragrance scent, and tweak the fragrance concentration via mobile phones.

Biometrics: In the future, vehicles will release different scents according to users. For example, the patent issued by Meizu will make the car recognize the user's first odor information for automatic release. A patent issued by BMW can obtain the driver's psychological state by detecting his/her odor to give multiple assists (such as fragrance) or remind the driver, so as to detect whether he/she is tired of driving.

Emotion recognition: Hyundai Motor once unveiled a mini electric vehicle using Emotion Adaptive Vehicle Control (EAVC), a technology which can monitor facial expressions, heart rate and respiratory rate, and combines these readings with input from the vehicle including speed, acceleration, noise and vibration. The technology uses the information to control lighting, climate, music and fragrance dispenser. So far, the Real-time Emotion Adaptive Driving (R.E.A.D.) System has not been applied to the production models of Kia.

4. Automotive olfactory interaction is linked with more scenarios.

In the future, in-vehicle air conditioning is not only about air purification, odor removal and pleasant fragrance, but also about matching the users' application scenario through various scenario modes and intelligently adapting to meet the individual needs of users. In-vehicle olfactory interaction will enable scenario interaction, releasing different scents according to scenarios, for example, releasing appropriate fragrance (e.g., AION LX Plus' Chinese fragrance) in scenarios with babies or elderly people, and sending out the corresponding scent (e.g., the earthy smell when it is sunny after rain) according to the ambient atmosphere and music style.

The vehicle monitors the driver's status and reminds him/her via fragrance as soon as tired driving is detected. For example, when the driver is drowsy, the left front A-pillar camera of Livan 7 will capture facial information and give an audio prompt while releasing fragrance.

?When the user plays game, the combination of AR+fragrance can provide a better gaming experience; in different weather and seasons, corresponding fragrance is provided.

Fragrance can be linked with various scenario modes. In Nevo A07's case, in the leisure mode, the seat position/massage intensity, windows, fragrance type and concentration, music duration and volume, ambient lighting, etc. can be customized by users.

Table of Contents

1 Overview of Automotive Fragrance and Air Conditioning System

• 1.1 Overview of Automotive Air Conditioning System
• 1.2 Automotive Fragrance System
  • 1.2.1 Introduction to Automotive Fragrance System
  • 1.2.2 Structure of Traditional Fragrance System
  • 1.2.3 Intelligentization Process of Automotive Fragrance System
  • 1.2.4 Features of Automotive Intelligent Fragrance
  • 1.2.5 Structure of Intelligent Fragrance System
  • 1.2.6 Intelligent Fragrance Technology (1)
  • 1.2.7 Intelligent Fragrance Technology (2): NFC Chip Recognition
  • 1.2.8 Intelligent Fragrance Technology (3)
  • 1.2.9 Intelligent Fragrance Technology (4)
• 1.3 Air Purification Technology
  • 1.3.1 Development of Air Purification Technology
  • 1.3.2 Classification of Automotive Air Purifiers
  • 1.3.3 Main Components of Air Purification System
  • 1.3.4 Air Purification Technology: Negative Ion/Plasma System (1)
  • 1.3.5 Air Purification Technology: Negative Ion/Plasma System (2)
  • 1.3.6 Air Purification Technology: Negative Ion/Plasma System (3)
  • 1.3.7 Air Purification Technology: Ultraviolet Rays
  • 1.3.8 Air Purification Technology: Photocatalyst (1)
  • 1.3.9 Air Purification Technology: Photocatalyst (2)
  • 1.3.10 Air Filter Technology: AQS Monitoring/Physical Adsorption (1)
  • 1.3.11 Air Filter Technology: AQS Monitoring/Physical Adsorption (2)
  • 1.3.12 Air Cleaner Technology: Filter Element/HEPA Filter (1)
  • 1.3.13 Air Cleaner Technology: Filter Element/HEPA Filter (2)
  • 1.3.14 Other Air Purification Components: Ultrasonic Atomization Devices
• 1.4 Automotive Air Quality Standards and Certification
  • 1.4.1 Automotive Fragrance/Air Purification Standards (1)
  • 1.4.2 Automotive Fragrance/Air Purification Standards (2)
  • 1.4.3 CN95 Filter Certification
  • 1.4.4 OEMs with 5A Rating in CN95 Healthy Cockpit Certification
  • 1.4.5 Models with 5A Rating in CN95 Healthy Cockpit Certification
  • 1.4.6 Vehicle Health Index

2 Automotive Fragrance and Air Purification Market

• 2.1 Installations of Automotive Air Conditioners
• 2.2 Installation Rate of Automotive Air Conditioners
• 2.3 Automotive Fragrance System Market
  • 2.3.1 China's Automotive Fragrance System Market Size, 2021-2030E
  • 2.3.2 Installation Rate of Automotive Fragrance System (by Price Range)
  • 2.3.3 TOP20 Models by Installations of Automotive Fragrance System
  • 2.3.4 TOP20 Models with Automotive Fragrance System
  • 2.3.5 Breakdown of Automotive Fragrance System Installations (by Price Range)
  • 2.3.6 Installation Rate of Automotive Fragrance System (by Power Type)
• 2.4 Installation of Automotive Air Purifiers
  • 2.4.1 China's Automotive Air Purifier Market Size, 2021-2030E
  • 2.4.2 Installation Rate of Automotive Air Purifiers (by Price Range)
  • 2.4.3 TOP20 Brands by Installations of Automotive Air Purifiers
  • 2.4.4 TOP20 Models with Automotive Air Purifiers
  • 2.4.5 Breakdown of Automotive Air Purifier Installations (by Price Range)
  • 2.4.6 Installation Rate of Automotive Air Purifiers (by Power Type)

3 Automotive Fragrance and Air Purification Suppliers

• 3.1 Beiduofen Technology
  • 3.1.1 Parameters of Fragrance Diffusers
  • 3.1.2 Features of Fragrance Diffusers
  • 3.1.3 Control Modes of Fragrance Diffusers
  • 3.1.4 Fragrance Materials
  • 3.1.5 Models with Automotive Fragrance System
• 3.2 KLOVEF
  • 3.2.1 Air Purification & Fragrance System
  • 3.2.2 Features of Air Purification & Fragrance System
  • 3.2.3 Double-knob Solid Fragrance (Cup-type) Negative Ion Products (1)
  • 3.2.4 Double-knob Solid Fragrance (Cup-type) Negative Ion Products (2)
  • 3.2.5 Models Equipped with Fragrance System (1)
  • 3.2.6 Models with Automotive Fragrance System (2)
  • 3.2.7 Cases of Models with Automotive Fragrance System (1)
  • 3.2.8 Cases of Models with Automotive Fragrance System (2)
• 3.3 Maiqian
  • 3.3.1 Cases of Models with Intelligent Fragrance System (1)
  • 3.3.2 Cases of Models with Intelligent Fragrance System (2)
  • 3.3.3 Cases of Models with Intelligent Fragrance System (3)
  • 3.3.4 Cases of Models with Intelligent Fragrance System (4)
• 3.4 CARORI
  • 3.4.1 Production
  • 3.4.2 Air Purification and Intelligent Fragrance Diffusers (1)
  • 3.4.3 Air Purification and Intelligent Fragrance Diffusers (2)
  • 3.4.4 Dual Function Purifying Cream
  • 3.4.5 Cases of Intelligent Cockpits with Intelligent Fragrance System
• 3.5 Maxmac
  • 3.5.1 Development History
  • 3.5.2 Air Quality Monitoring Devices
  • 3.5.3 Air Quality Improvement Devices (1): Negative Ion/Plasma Module
  • 3.5.4 Air Quality Improvement Devices (2): Automotive Air Purifiers
  • 3.5.5 Cases of OEM Air Purifiers
  • 3.5.6 Air Quality Improvement Devices (Fragrance)
• 3.6 Huaze Electronic
  • 3.6.1 Fragrance System (1)
  • 3.6.2 Fragrance System (2)
• 3.7 Xiongjiang Technology
  • 3.7.1 Fragrance Negative Ion Comfort System (1)
  • 3.7.2 Fragrance Negative Ion Comfort System (2)
  • 3.7.3 Fragrance Negative Ion Comfort System (3)
  • 3.7.4 Fragrance Types
  • 3.7.5 Cases of Models with Intelligent Fragrance System (1): Tesla
  • 3.7.6 Cases of Models with Intelligent Fragrance System (2): Li L7/8
• 3.8 BYD Semiconductor
  • 3.8.1 Automotive Fragrance Control Module
  • 3.8.2 Automotive PM2.5 Speedometer
• 3.9 Sailing Technology
  • 3.9.1 Air System
  • 3.9.2 Cases of Models with Fragrance System (1)
  • 3.9.3 Cases of Models with Fragrance System (2)
  • 3.9.4 Cases of Models with Fragrance System (3)
  • 3.9.5 Electronic Fragrance Negative Ion System Interface
• 3.10 CUBIC
  • 3.10.1 Product Series
  • 3.10.2 Product Application
  • 3.10.3 Automotive Fragrance Generators & Negative Ion Generators
  • 3.10.4 Recent Designated Fragrance and Air Purification Projects
• 3.11 Goldensea Hi-Tech
  • 3.11.1 Product Series
  • 3.11.2 Automotive Filters (1)
  • 3.11.3 Automotive Filters (2)
  • 3.11.4 Automotive Filters (3)
• 3.12 Dongjian Technology
  • 3.12.1 Intelligent Automotive Air Purifiers
• 3.13 Valeo
  • 3.13.1 Integrated Air Management System
  • 3.13.2 Cockpit Air Filters
  • 3.13.3 PM Sensors
  • 3.13.4 Oxy'ZEN Purification System
• 3.14 MAHLE
  • 3.14.1 Layout in China
  • 3.14.2 Air Management Products: Filters + Fragrance System
• 3.15 Denso
  • 3.15.1 Layout in China
  • 3.15.2 Air Purification System Components
  • 3.15.3 Air Filters
  • 3.15.4 AiO BOX Air Quality Solutions
• 3.16 Hanon
  • 3.16.1 Global Layout
  • 3.16.2 Main Product Lines (1)
  • 3.16.3 Main Product Lines (2)
  • 3.16.4 Intelligent Air Quality Solutions
• 3.17 Freudenberg
  • 3.17.1 New MicronAir Series
  • 3.17.2 New MicronAir Series - Air Conditioning Filters (1)
  • 3.17.3 New MicronAir Series - Air Conditioning Filters (2)
• 3.18 Fragrance System Layout of Other Suppliers
  • 3.18.1 Desay SV: Fragrance Control System with Intelligent Recognition and Differentiated Fragrance Delivery
  • 3.18.2 PATEO CONNECT+: Scenario-based Fragrance Control System
  • 3.18.3 Sunlord Electronics: Fragrance Control System
  • 3.18.4 STMicroelectronics

4 OEM Fragrance and Air Purification System

• 4.1 AITO
  • 4.1.1 Installation of Automotive Fragrance and Air Purification System
  • 4.1.2 Air Purification & Fragrance System of M9
  • 4.1.3 Air Purification & Fragrance System of M7
  • 4.1.4 Air Purification & Fragrance System of M5
• 4.2 ZEEKR
  • 4.2.1 Installation of Automotive Fragrance and Air Purification System
  • 4.2.2 Fragrance Types of Intelligent Fragrance System
• 4.3 Denza
  • 4.3.1 Installation of Automotive Fragrance and Air Purification System
  • 4.3.2 Fragrance System of Some Models
• 4.4 Li Auto
  • 4.4.1 Installation of Automotive Fragrance and Air Purification System
  • 4.4.2 Fragrance and Air Purification System
  • 4.4.3 Comparison between Air Purification and Fragrance System of All Models
• 4.5 Chery
  • 4.5.1 Installation of Automotive Fragrance and Air Purification System
  • 4.5.2 Air Filtration System
• 4.6 BYD
  • 4.6.1 Installation of Automotive Fragrance and Air Purification System
  • 4.6.2 Green Purification System (1)
  • 4.6.3 Green Purification System (2)
  • 4.6.4 Fragrance System
• 4.7 NIO
  • 4.7.1 Installation of Automotive Fragrance and Air Purification System
  • 4.7.2 Air Purification System (1)
  • 4.7.3 Air Purification System (2)
  • 4.7.4 Intelligent Fragrance System (1)
  • 4.7.5 Intelligent Fragrance System (2)
  • 4.7.6 Intelligent Fragrance System (3)
  • 4.7.7 Intelligent Fragrance System (4)
  • 4.7.8 Intelligent Fragrance System (5)
  • 4.7.9 Fragrance Types of Intelligent Fragrance System
• 4.8 Dongfeng Aeolus
  • 4.8.1 Installation of Automotive Fragrance and Air Purification System
  • 4.8.2 Installation of Automotive Fragrance System
• 4.9 Fangchengbao
  • 4.9.1 Installation of Automotive Fragrance and Air Purification System
  • 4.9.2 Installation of Automotive Fragrance System in Leopard 5
• 4.10 Geely Galaxy
  • 4.10.1 Installation of Automotive Fragrance and Air Purification System
  • 4.10.2 Intelligent Fragrance System
• 4.11 Avatr
  • 4.11.1 Installation of Automotive Fragrance and Air Purification System
  • 4.11.2 Intelligent Fragrance System
• 4.12 Voyah
  • 4.12.1 Installation of Automotive Fragrance and Air Purification System
  • 4.12.2 Installations and Breakdown of Standard Automotive Fragrance System (by Model)
• 4.13 Xpeng
  • 4.13.1 Installation of Automotive Fragrance and Air Purification System
  • 4.13.2 Intelligent Fragrance System of G9
  • 4.13.3 Air Purification and Intelligent Fragrance System of X9
  • 4.13.4 Air Purification System of G6&P5
  • 4.13.5 Fragrance and Air Purification System
  • 4.13.6 Fragrance Types of Intelligent Fragrance System
• 4.14 Geely
  • 4.14.1 Installation of Automotive Fragrance and Air Purification System
  • 4.14.2 Fragrance System
  • 4.14.3 Intelligent Air Purification System
• 4.15 IM Motors
  • 4.15.1 Installation of Automotive Fragrance and Air Purification System
  • 4.15.2 Fragrance System
  • 4.15.3 Air Purification System
• 4.16 Tesla
  • 4.16.1 Installation of Automotive Fragrance and Air Purification System
  • 4.16.2 Air Purification System
• 4.17 Mercedes-Benz
  • 4.17.1 Installation of Automotive Fragrance and Air Purification System
  • 4.17.2 Air Balance System (1)
  • 4.17.3 Air Balance System (2)
• 4.18 BMW
  • 4.18.1 Installation of Automotive Fragrance and Air Purification System
  • 4.18.2 Fragrance Negative Ion System (1)
  • 4.18.3 Fragrance Negative Ion System (2)
  • 4.18.4 Air Purification System
• 4.19 Audi
  • 4.19.1 Installation of Automotive Fragrance and Air Purification System
  • 4.19.2 Fragrance and Air Purification System of SAIC Audi

5 Summary/Trend of Automotive Fragrance and Air Conditioning

• 5.1 Summary
  • 5.1.1 Comparison between Intelligent Fragrance System Features of OEM Models (1)
  • 5.1.2 Comparison between Intelligent Fragrance System Features of OEM Models (2)
  • 5.1.3 Automotive Intelligent Fragrance/Air Purification Suppliers (1)
  • 5.1.4 Automotive Intelligent Fragrance/Air Purification Suppliers (2)
  • 5.1.5 Automotive Fragrance Material Suppliers and Cooperation Cases with OEMs
  • 5.1.6 Fragrance System Technology Developed by OEMs Independently
  • 5.1.7 Comparison between Automotive Fragrance Systems of Some OEMs
  • 5.1.8 Fragrance Core Price of OEM models
  • 5.1.9 Technical Features of Air Purification Systems of OEM Models
• 5.2 Trends
  • 5.2.1 Trend 1
  • 5.2.2 Trend 2
  • 5.2.3 Trend 3
  • 5.2.4 Trend 4
  • 5.2.5 Trend 5