1 序文
2 調査範囲と方法論
2.1 調査の目的
2.2 ステークホルダー
2.3 データソース
2.3.1 一次情報源
2.3.2 二次情報源
2.4 市場推定
2.4.1 ボトムアップ・アプローチ
2.4.2 トップダウンアプローチ
2.5 予測方法
3 エグゼクティブ・サマリー
4 はじめに
4.1 概要
4.2 主要産業動向
5 世界のアロエベラ産業
5.1 市場概要
5.2 市場パフォーマンス
5.2.1 数量動向
5.2.2 金額動向
5.3 COVID-19の影響
5.4 価格分析
5.4.1 主要価格指標
5.4.2 価格構造
5.4.3 価格動向
5.5 製品別市場構成
5.6 形態別市場構成比
5.7 用途別市場構成比
5.8 地域別市場構成比
5.9 市場予測
5.10 SWOT分析
5.10.1 概要
5.10.2 強み
5.10.3 弱点
5.10.4 機会
5.10.5 脅威
5.11 バリューチェーン分析
5.11.1 原材料調達
5.11.2 製造
5.11.3 マーケティング
5.11.4 流通
5.11.5 輸出
5.11.6 最終用途
5.12 ポーターのファイブフォース分析
5.12.1 概要
5.12.2 買い手の交渉力
5.12.3 供給者の交渉力
5.12.4 競争の程度
5.12.5 新規参入の脅威
5.12.6 代替品の脅威
5.13 主な市場促進要因と成功要因
6 製品別市場構成
6.1 アロエベラジェルエキス
6.1.1 市場動向
6.1.2 市場予測
6.2 アロエベラ全葉エキス
6.2.1 市場動向
6.2.2 市場予測
6.3 その他
6.3.1 市場動向
6.3.2 市場予測
7 形態別市場
7.1 濃縮物
7.1.1 市場動向
7.1.2 市場予測
7.2 ジェル
7.2.1 市場動向
7.2.2 市場予測
7.3 ドリンク
7.3.1 市場動向
7.3.2 市場予測
7.4 粉末
7.4.1 市場動向
7.4.2 市場予測
7.5 カプセル
7.5.1 市場動向
7.5.2 市場予測
8 用途別市場
8.1 医薬品産業
8.1.1 市場動向
8.1.2 市場予測
8.2 化粧品産業
8.2.1 市場動向
8.2.2 市場予測
8.3 食品産業
8.3.1 市場動向
8.3.2 市場予測
9 地域別市場内訳
9.1 タイ
9.1.1 市場動向
9.1.2 市場予測
9.2 メキシコ
9.2.1 市場動向
9.2.2 市場予測
9.3 ドミニカ共和国
9.3.1 市場動向
9.3.2 市場予測
9.4 米国
9.4.1 市場動向
9.4.2 市場予測
9.5 コスタリカ
9.5.1 市場動向
9.5.2 市場予測
9.6 その他
9.6.1 市場動向
9.6.2 市場予測
10 競争環境
10.1 市場構造
10.2 主要プレイヤー
11 アロエベラジェルの製造工程
11.1 製品概要
11.2 詳細なプロセスフロー
11.3 関係する様々な種類の単位操作
11.4 マスバランスと原材料の要件
12 プロジェクトの詳細、必要条件および関連費用
12.1 土地要件と支出
12.2 建設要件と費用
12.3 工場レイアウト
12.4 工場機械
12.5 機械写真
12.6 原材料所要量と支出
12.7 原材料と最終製品の写真
12.8 包装の要件と支出
12.9 輸送要件と支出
12.10 ユーティリティの要件と支出
12.11 人員要件と支出
12.12 その他の設備投資
13 ローンと資金援助
14 プロジェクトの経済性
14.1 プロジェクトの資本コスト
14.2 技術経済パラメータ
14.3 サプライチェーンの各段階における製品価格とマージン
14.4 課税と減価償却
14.5 収入予測
14.6 支出予測
14.7 財務分析
14.8 利益分析
15 主要プレーヤーのプロフィール

[図一覧］
図1：世界：アロエベラ市場：主な促進要因と課題
図2：世界：アロエベラ市場：数量推移（単位：百万トン）、2019年～2024年
図3：世界：アロエベラ市場金額推移（単位：百万米ドル）、2019年～2024年
図4：世界：アロエベラ市場平均価格推移（単位：米ドル/トン）、2019年～2024年
図5：アロエベラ市場価格構造
図6：世界：アロエベラ市場アロエベラの世界市場：地域別生産内訳（単位
図7：世界：アロエベラ市場図7：アロエベラの世界市場：製品別消費内訳（%）、2024年
図8: アロエベラの世界市場：アロエベラの世界市場：形態別消費内訳（%）、2024年
図9：アロエベラの世界市場：形態別消費内訳(%)アロエベラの世界市場：用途別消費内訳（単位
図10: アロエベラの世界市場：アロエベラの世界市場：地域別消費内訳（%）、2024年
図11：アロエベラの世界市場予測：数量推移（単位：百万トン）、2025年～2033年
図12：アロエベラの世界市場予測：金額推移（単位：百万米ドル）、2025年～2033年
図13: 世界のアロエベラ産業：SWOT分析
図14: 世界: アロエベラ産業：バリューチェーン分析
図15: 世界: アロエベラ産業：ポーターのファイブフォース分析
図16: タイ：タイ：アロエベラ市場（単位：百万米ドル）、2019年および2024年
図17: タイ：アロエベラ市場予測（単位：百万USドル）、2025年～2033年
図18: メキシコ：アロエベラ市場（単位：百万USドル）、2019年・2024年
図19: メキシコ：アロエベラ市場の予測（単位：百万USドル）、2025-2033年
図20: ドミニカ共和国：アロエベラ市場（単位：百万USドル）、2019年・2024年
図21: ドミニカ共和国：アロエベラ市場の予測（単位：百万USドル）、2025-2033年
図22: 米国：アロエベラ市場（単位：百万USドル）、2019年・2024年
図23: 米国：アロエベラ市場の予測（単位：百万USドル）、2025-2033年
図24: コスタリカ：アロエベラ市場（単位：百万USドル）、2019年・2024年
図25：コスタリカ：アロエベラ市場予測アロエベラ市場の予測（単位：百万USドル）、2025年～2033年
図26：その他アロエベラ市場（単位：百万USドル）、2019年および2024年
図27：その他：アロエベラ市場予測アロエベラ市場の予測（単位：百万米ドル）、2025年～2033年
図28：その他世界：アロエベラ市場：アロエベラジェルエキス（単位：百万米ドル）、2019年・2024年
図29：世界：アロエベラ市場予測：アロエベラジェルエキス（単位：百万米ドル）、2025年～2033年
図30：世界：アロエベラ市場アロエベラ全葉エキス（単位：百万米ドル）、2019年・2024年
図31：世界：アロエベラ市場予測：アロエベラ全葉エキス（単位：百万米ドル）、2025年～2033年
図32：世界：アロエベラ市場その他（単位：百万米ドル）、2019年・2024年
図33：世界：アロエベラ市場予測：その他（単位：百万米ドル）、2025年～2033年
図34：世界：アロエベラ濃縮物市場（単位：百万米ドル）、2019年・2024年
図35：アロエベラ濃縮物の世界市場世界：アロエベラ濃縮物の市場予測（単位：百万米ドル）、2025年～2033年
図36：世界：アロエベラジェルの市場（単位：百万米ドル）、2019年・2024年
図37：アロエベラジェルの世界市場世界：アロエベラジェルの市場予測（単位：百万USドル）、2025年～2033年
図38：世界：アロエベラ飲料市場（単位：百万米ドル）、2019年・2024年
図39：アロエベラドリンク世界：アロエベラドリンク市場予測（単位：百万USドル）、2025年～2033年
図40：世界：アロエベラ粉末市場（単位：百万米ドル）、2019年・2024年
図41：世界：アロエベラパウダーの市場予測（単位：百万USドル）、2025年～2033年
図42：世界：アロエベラカプセル市場（単位：百万USドル）、2019年・2024年
図43：アロエベラカプセルの世界市場世界：アロエベラカプセルの市場予測（単位：百万USドル）、2025年～2033年
図44：アロエベラカプセルの世界市場世界：アロエベラ市場医薬品産業（単位：百万米ドル）、2019年および2024年
図45：アロエベラの世界市場予測世界：アロエベラ市場予測：医薬品産業（単位：百万米ドル）、2025年～2033年
図46：世界：アロエベラ市場：化粧品産業（単位：百万米ドル）、2019年・2024年
図47：アロエベラの世界市場予測世界：アロエベラ市場予測：化粧品産業（単位：百万米ドル）、2025年～2033年
図48：世界：アロエベラ市場：食品産業（単位：百万米ドル）、2019年・2024年
図49：アロエベラの世界市場予測世界：アロエベラ市場予測：食品産業（単位：百万米ドル）、2025年～2033年

[表一覧］
表1：世界：アロエベラ市場：主要産業のハイライト、2024年および2033年
表2：世界：アロエベラ市場予測：製品別内訳（単位：百万米ドル）、2025年〜2033年
表3：アロエベラの世界市場予測：形態別構成比（単位：百万米ドル）、2025年～2033年
表4：世界のアロエベラ市場予測：用途別構成比（単位：百万米ドル）、2025-2033年
表5：世界のアロエベラ市場予測：地域別構成比（単位：百万米ドル）、2025-2033年
表6：アロエベラの世界市場競争構造
表7：世界のアロエベラ市場：主要プレイヤー
表8：アロエベラジェル製造工場：レンタルコスト（単位：米ドル）
表9：アロエベラジェル製造工場：機械関連コスト（単位：米ドル）
表10: アロエベラジェル製造工場：原材料の所要量
表11: アロエベラジェル製造工場：給与・賃金関連コスト（単位：米ドル）
表12: アロエベラジェル製造工場：その他の設備投資に関するコスト（単位：米ドル）
表13：アロエベラジェル製造工場：金融機関による資金援助の詳細
表14：アロエベラジェル製造工場：資本コスト（単位：米ドル）
表15：アロエベラジェル製造工場：技術経済パラメーター
表16：アロエベラジェル製造工場：課税と減価償却費（単位：米ドル）
表17：アロエベラジェル製造工場：収入予測（単位：米ドル）
表18：アロエベラジェル製造工場：支出予測（単位：米ドル）
表19: アロエベラジェル製造工場：所得税負担を考慮しないキャッシュフロー分析（単位：米ドル）
表20: アロエベラジェル製造工場：所得税負担を考慮したキャッシュフロー分析（単位：米ドル）
表21: アロエベラジェル製造工場：損益勘定（単位：米ドル）

The global aloe vera market size reached USD 890 Million in 2024. Looking forward, IMARC Group expects the market to reach USD 1,530 Million by 2033, exhibiting a growth rate (CAGR) of 6.3% during 2025-2033. Rising demand for natural and organic ingredients in cosmetics, escalating awareness regarding the therapeutic properties of aloe vera, expansion of e-commerce platforms, the implementation of various government initiatives promoting natural ingredients, increasing disposable incomes, advancements in processing technologies, and collaborations among industry players are accelerating the market growth.

Airport passenger screening systems refer to the comprehensive array of technologies and procedures employed at airports to ensure the safety and security of passengers, baggage, and airport personnel. These systems play a critical role in detecting and preventing the transport of prohibited items, such as weapons and explosives, onto commercial aircraft. Modern Airport Passenger Screening Systems encompass a combination of advanced technologies, including X-ray scanners, metal detectors, explosive trace detectors, and body scanners. These technologies are used to thoroughly inspect both passengers and their belongings. The screening process is designed to be efficient and non-intrusive, while maintaining the highest levels of security. Furthermore, these systems adhere to strict regulatory standards and guidelines set by international aviation authorities, such as the International Civil Aviation Organization (ICAO) and the Transportation Security Administration (TSA). As a result, they contribute significantly to enhancing overall airport security, minimizing potential threats, and ensuring the safety of air travel for millions of passengers worldwide

The steady rise in global air travel has prompted airports to enhance their security infrastructure. As passenger volumes grow, the demand for efficient and effective screening systems to ensure safety has become paramount. Additionally, the constantly evolving nature of security threats requires continuous technological advancements. As new types of threats emerge, the need for sophisticated screening systems capable of detecting a wider range of prohibited items becomes essential. Other than this, while ensuring security remains paramount, airports are also aiming to streamline passenger processes. Advanced screening technologies like body scanners that maintain privacy while enhancing security contribute to a smoother passenger experience. Besides this, expanding and modernizing airports in both developed and emerging economies drives the adoption of advanced passenger screening systems. These systems are considered an integral part of infrastructure upgrades to support increased passenger flow. In line with this, ongoing global concerns regarding terrorism and acts of violence continue to underscore the need for effective screening measures. Airport Passenger Screening Systems are considered a frontline defense against potential security breaches. Furthermore, increased awareness among the general public regarding safety measures has led to higher expectations for robust security practices. Airports are under pressure to employ state-of-the-art screening solutions to instill confidence in travelers. Moreover, governments and aviation regulatory bodies around the world are imposing rigorous security mandates to counter evolving security threats. This compels airports to adopt advanced screening technologies to comply with these regulations and safeguard passengers.

Airport Passenger Screening Systems Market Trends/Drivers:
Increase in Air Travel

With a rising number of passengers traversing airports worldwide, the need to ensure their safety while maintaining efficient operations has become paramount. The increasing demand for faster screening processes, combined with stringent security checks, has prompted airports to invest in advanced screening technologies. This not only helps in managing larger passenger volumes but also contributes to minimizing delays and enhancing the overall passenger experience.

Stringent Security Regulations

Governments and aviation regulatory bodies globally have established strict security regulations in response to evolving threats to aviation security. Compliance with these regulations is non-negotiable, compelling airports to adopt cutting-edge screening solutions. The International Civil Aviation Organization (ICAO) and national aviation authorities lay down comprehensive security standards, mandating the deployment of state-of-the-art screening technologies. The need to prevent potential security breaches, combined with the risk of penalties for non-compliance, drives airports to invest in sophisticated screening systems to meet these regulatory requirements effectively.

Emergence of New Threats

Traditional screening methods may not effectively detect new types of threats, such as concealed non-metallic explosives or innovative smuggling techniques. As a result, the airport passenger screening systems witness continuous innovation to stay ahead of emerging threats. The demand for systems that can detect a wider range of prohibited items, including non-metallic and organic materials, has led to the development of advanced technologies like millimeter-wave body scanners and explosive trace detectors. This adaptability is crucial in maintaining the effectiveness of security measures against evolving threats.

Airport Passenger Screening Systems Industry Segmentation:
IMARC Group provides an analysis of the key trends in each segment of the global airport passenger screening systems market report, along with forecasts at the global and regional levels for 2025-2033. Our report has categorized the market based on product, technology, and end-user.

Breakup by Product:

• Passenger Screening
• Carry-On Baggage Screening

Carry-on baggage screening represents the most popular product

The report has provided a detailed breakup and analysis of the market based on the product. This includes passenger screening and carry-on baggage screening. According to the report, carry-on baggage screening represented the largest segment.

Passenger screening involves technologies and procedures designed to ensure the safety of individuals traveling through airports. This segment encompasses a range of advanced solutions such as body scanners, metal detectors, and full-body imaging systems. These technologies are employed to detect concealed prohibited items on passengers, including weapons, explosives, and other potential threats. Passenger screening technologies are continually evolving to strike a balance between effective security measures and passenger privacy, while adhering to stringent regulatory guidelines. The demand for accurate, efficient, and non-intrusive passenger screening systems remains high, driven by the need to provide robust security protocols while maintaining a seamless passenger experience.

Carry-on screening pertains to the examination of passengers' hand baggage and personal items. This comprises X-ray scanners, explosive trace detectors, and advanced imaging technologies. The primary objective of carry-on screening is to identify concealed dangerous items within passengers' belongings that could pose a threat to aviation safety. The technologies used in this segment focus on high-resolution imaging, material identification, and explosive detection. The increasing sophistication of smuggling techniques necessitates constant innovation in carry-on screening technologies to stay ahead of potential threats. This segment is crucial in preventing prohibited items from being brought onto aircraft and contributes significantly to maintaining the integrity of air travel security.

Breakup by Technology:

• Metal and Explosive Detection Systems
• Advanced Imaging Systems

Metal and explosive detection systems hold the largest share in the market

A detailed breakup and analysis of the market based on technology has also been provided in the report. This includes metal and explosive detection systems and advanced imaging systems. According to the report, metal and explosive detection systems accounted for the largest market share.

These systems are at the forefront of safeguarding air travel, as they provide reliable and efficient means to detect both metallic and non-metallic threats. The prevalence of metal-based weapons and explosive devices underscores the critical importance of these technologies in preventing potential acts of terrorism or violence on commercial aircraft. Metal and explosive detection systems encompass a range of technologies such as X-ray scanners, electromagnetic scanners, and trace detectors. Their prominence can be attributed to their versatility – they can be employed in both passenger and carry-on screening, ensuring comprehensive security coverage. Furthermore, the continuous evolution of these technologies, marked by advancements in detection accuracy, speed, and the ability to identify a broader range of materials, has solidified their dominant position in the market. Their proven track record in preventing security breaches and their central role in complying with international aviation regulations further contribute to their status as the largest segment in the Airport Passenger Screening Systems market.

Breakup by End-User:

• Civil Airports
• Military Airports

Civil airports dominate the market

The report has provided a detailed breakup and analysis of the market based on the end-user. This includes civil airports and military airports. According to the report, civil airports represented the largest segment.

Civil airports handle commercial flights, accommodating millions of passengers annually. The demand for advanced passenger screening technologies in civil airports is driven by the imperative to ensure the safety and security of a diverse and constantly growing number of travelers. Passenger screening systems, carry-on screening technologies, and other security measures are essential to meet stringent regulatory requirements and to instill confidence in travelers. The emphasis on maintaining an efficient and smooth passenger experience, alongside robust security measures, propels civil airports to continually invest in cutting-edge screening solutions.

Military airports are crucial for defense and national security purposes, accommodating military aircraft and personnel. The screening needs of military airports often extend beyond those of civil airports, encompassing specialized technologies tailored to military threats and requirements. While metal and explosive detection systems remain relevant, military airports might also prioritize technologies capable of identifying unconventional threats and detecting specific materials relevant to defense operations. The unique nature of military airport operations results in a niche demand for advanced screening systems that align with their specific security mandates.

Breakup by Region:

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

North America exhibits a clear dominance in the market

The report has also provided a comprehensive analysis of all the major regional markets, which include North America, Europe, Asia Pacific, Latin America and the Middle East and Africa. According to the report, North America was the largest market.

North America’s extensive air travel network, encompassing numerous major international airports handling substantial passenger volumes. The heightened security concerns following incidents such as the September 11 attacks have led to stringent regulatory measures and increased investments in advanced screening technologies. Additionally, North America's commitment to technological innovation and substantial research and development activities in the field of aviation security have propelled the adoption of cutting-edge screening systems. The region's economic prosperity, coupled with a strong focus on maintaining a secure and efficient air travel environment, has fostered a robust demand for state-of-the-art screening solutions, positioning North America at the forefront of the global Airport Passenger Screening Systems market.

Competitive Landscape:
Leading companies have heavily invested in research and development to introduce cutting-edge technologies that offer improved detection accuracy, faster throughput, and enhanced passenger experience. Collaboration with technology providers, academic institutions, and research centers has facilitated the integration of artificial intelligence, machine learning, and data analytics into screening systems, resulting in more sophisticated threat detection algorithms. Additionally, strategic partnerships with airports and aviation authorities have enabled key players to tailor their solutions to meet specific security requirements, ensuring seamless integration into existing airport operations. Moreover, the continuous refinement of screening technologies to address emerging threats, such as non-metallic explosives, has been a focal point for innovation.

The market research report has provided a comprehensive analysis of the competitive landscape in the market. Detailed profiles of all major companies have also been provided. Some of the key players in the market include:

• Analogic Corporation
• CEIA S.p.A.
• Cobalt Light Systems
• Garrett Metal Detectors
• Ketech Systems Ltd.
• Kromek Group PLC
• L-3 Security & Detection Systems Inc.
• Morpho Detection Inc.
• Optosecurity Inc.
• Rapiscan System Ltd.
• Reveal Imaging Technologies Inc.
• Smiths Detection

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