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市場調查報告書
商品編碼
1857187
2025-2030年全球以物聯網為基礎的暖通空調服務市場:協助建築永續性IoT-Based HVAC Services Enabling Sustainability of Buildings, Global, 2025-2030 |
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利用智慧暖通空調服務提升建築能源效率並實現氣候目標
本研究檢驗了以物聯網為基礎的暖通空調(HVAC)服務在促進建築業永續性的新興角色。研究重點闡述了即時數據、預測性維護以及與能源、IT和建築系統的整合在實現保固期外維護和維修等服務方面所發揮的作用。暖通空調系統與居住感應器、再生能源來源和智慧電網訊號的整合有助於實現脫碳,並符合全球永續性目標,特別是永續發展目標7(經濟適用的清潔能源)和目標13(氣候行動)。
基於物聯網的暖通空調服務正在快速發展,它能夠直接存取用戶數據,並支援諸如「暖通空調即服務」(HVACaaS)之類的服務模式。這些模式強調以節能和系統運作為核心的成果導向合約。因此,服務提供者可以提供數據主導的客製化解決方案,從而提升效能、降低成本並改善客戶體驗。為了保持競爭力,暖通空調公司必須採用開放標準,投資人工智慧和物聯網技術,並從傳統的設備銷售模式轉向互聯互通、基於績效的服務模式。在這個低碳、數位化優先的市場中,提陞團隊技能和建立策略夥伴關係也至關重要。最終,物聯網主導的暖通空調服務正在透過實現更智慧、更有效率、更永續的建築營運,再形成整個產業格局。
三大戰略重點對基於物聯網的暖通空調服務的影響
產業融合
- 原因:基於物聯網的暖通空調服務的成功取決於與能源、IT 和建築系統的整合。這種融合能夠實現即時數據共用、預測性維護和能源最佳化,從而提高效率並減少排放。
- 弗羅斯特的觀點:市場參與企業應該投資於可互通、數據驅動的暖通空調解決方案,這些解決方案應與智慧建築系統整合,採用開放標準,應用人工智慧和物聯網進行預測性維護和能源最佳化,並與 ESG 和永續性目標保持一致。
壓縮客戶價值鏈
- 原因:基於物聯網的 HVAC 服務能夠實現更快的部署、直接存取用戶資料以及更快速響應的服務模式(如 HVAC 即服務),從而節省成本、提高系統效能並加快創新週期。
- 弗若斯特的觀點:客戶期望獲得直接存取權、即時洞察以及基於結果的評估,例如節能和運作。這些需求正促使供應商提供更快、更智慧、更具成本效益的解決方案。
創新經營模式
- 原因:諸如暖通空調即服務 (HVACaaS) 之類的經營模式正在推動基於物聯網的暖通空調服務的發展。物聯網能夠實現即時監控、預測性維護以及以節能和正常運行時間為重點的基於運作的合約。
- 弗若斯特的觀點:市場參與企業必須從銷售設備轉向提供互聯互通、基於效能的服務。物聯網能夠實現即時監控、預測性維護和能源最佳化。客戶期望獲得更好的決策支援、無縫整合和可衡量的成果。
成長促進因素
- 嚴格的法規著重於提高能源效率、減少排放和永續建築營運,這將推動對永續性解決方案和基於物聯網的暖通空調服務的大規模投資。
- 隨著設施管理人員將營運效率、居住者福祉和即時建築效能分析放在首位,智慧建築平台和基於物聯網的能源和暖通空調管理系統的採用率將會提高。
- 企業淨零排放承諾和與環境、社會及公司治理 (ESG) 相關的投資要求將加速永續性解決方案和智慧建築技術的採用,因為企業將優先考慮減少排放、提高營運效率和增強資產的長期韌性。
- 財政獎勵、政府補貼和能源績效合約正日益推動對永續維修和基於物聯網的暖通空調解決方案的投資,尤其是在成熟市場。
- 人工智慧主導的自主建築營運平台的出現,可望透過即時最佳化暖通空調和能源系統,最大限度地減少人為干預,從而重新定義設施管理。
成長限制因素
- 實施基於永續性和物聯網的暖通空調解決方案,其高昂的初始資本投入和較長的投資回收期仍然是一個重大障礙,尤其對於中小型建築業主而言更是如此。
- 互聯建築環境中的網路安全風險和資料隱私問題正在減緩基於物聯網的服務和雲端建築管理平台的普及。
- 維修市場高度分散,其特點是基礎設施陳舊且缺乏標準化的物聯網通訊協定,這持續限制了可互通的永續性解決方案的部署。供應商鎖定和專有建築管理系統進一步限制了市場擴張以及與第三方解決方案的整合。
- 市場成長受到缺乏具備數位建築技術、物聯網服務管理和永續暖通空調營運專業知識的熟練暖通空調專業人員的阻礙。
目錄
調查範圍
- 分析範圍
戰略問題
- 為什麼成長變得越來越難?
- The Strategic Imperative 8(TM)
- 三大戰略要務對基於物聯網的暖通空調服務的影響
成長機會分析
- 成長促進因素
- 成長抑制因素
- 預測假設
- 已安裝的暖通空調設備
- 基於物聯網的暖通空調服務收入預測
- 概述以物聯網為基礎的暖通空調服務如何協助建築永續性
- 節能型暖通空調和照明維修
- 基於物聯網的能源管理系統
- 人工智慧驅動的自主運作平台
- 現場可再生能源併網
- 室內空氣品質監測和通風最佳化
支持永續性的生態系統
- 建築生態系概覽
- ABM 工業公司和博世建築科技
- 開利和世邦魏理仕
- 大金和台達控制
- 迪斯泰克控制公司和霍尼韋爾
- Jacobs 和 JLL
- 江森自控和施耐德電氣
- 西門子和昕諾飛
- 斯堪斯卡和特靈科技
成長機會領域
- 成長機會1:老建築維修
- 成長機會2:促進淨零排放
- 成長機會3:健康建築認證與ESG掛鉤融資
- 成長機會 4:室內空氣品質即服務及暖通空調即服務
附錄與後續步驟
- 成長機會帶來的益處和影響
- 下一步
- 附件清單
- 免責聲明
Transforming Building Efficiency and Climate Goals Through Intelligent HVAC Services
This study examines the emerging role of IoT-based HVAC services in promoting sustainability within the building industry. It highlights the role of real-time data, predictive maintenance, and integration with energy, IT, and building systems in enabling services, including maintenance and repair beyond warranty periods. The convergence of HVAC with occupancy sensors, renewable energy sources, and smart grid signals supports decarbonization and aligns with global sustainability goals, specifically SDG 7 (Affordable and Clean Energy) and SDG 13 (Climate Action).
As IoT-based HVAC services evolve rapidly, they offer direct access to user data and enable service models such as HVAC-as-a-service. These models emphasize outcome-based contracts focused on energy savings and system uptime. As a result, providers can deliver tailored, data-driven solutions that enhance performance, reduce costs, and improve customer experience. To stay competitive, HVAC firms must adopt open standards, invest in AI and IoT technologies, and transition from traditional equipment sales approaches to connected, performance-based services. Upskilling teams and forming strategic partnerships are also essential for success in this low-carbon, digital-first market. Ultimately, IoT-driven HVAC services are reshaping the industry by enabling smarter, more efficient, and sustainable building operations.
The Impact of the Top 3 Strategic Imperatives on IoT-Based HVAC Services
Industry Convergence
- Why: The success of IoT-based HVAC services depends on their integration with energy, IT, and building systems. This convergence enables real-time data sharing, predictive maintenance, and energy optimization, improving efficiency and reducing emissions.
- Frost Perspective: Market participants should invest in interoperable, data-driven HVAC solutions that integrate with smart building systems. They need to adopt open standards, apply AI and IoT for predictive maintenance and energy optimization, and align with ESG and sustainability goals.
Customer Value Chain Compression
- Why: IoT-based HVAC services are witnessing faster deployment, direct access to user data, and more responsive service models such as HVAC-as-a-service. They reduce costs, improve system performance, and accelerate innovation cycles.
- Frost Perspective: Customers expect direct access, real-time insights, and outcome-based results such as energy savings or uptime. These needs press providers to deliver faster, smarter, and more cost-effective solutions.
Innovative Business Models
- Why: Business models such as HVAC-as-a-service (HVACaaS) are driving the advancement of IoT-based HVAC services. IoT enables real-time monitoring, predictive maintenance, and outcome-based contracts focused on energy savings or uptime.
- Frost Perspective: Market participants must shift from selling equipment to delivering connected, performance-based services. IoT enables real-time monitoring, predictive maintenance, and energy optimization. Customers expect better decisions, seamless integration, and measurable outcomes.
Growth Drivers
- Stringent regulatory mandates focused on energy efficiency, emissions reduction, and sustainable building operations drive significant investment in sustainability solutions and IoT-based HVAC services.
- The adoption of smart building platforms and IoT-based energy and HVAC management systems is set to rise as facility managers prioritize operational efficiency, occupant health, and real-time building performance analytics.
- Corporate net-zero commitments and ESG-linked investment mandates accelerate the adoption of sustainability solutions and smart building technologies, as businesses prioritize emissions reduction, operational efficiency, and long-term asset resilience.
- Financial incentives, government subsidies, and energy performance contracts increasingly support investments in sustainable retrofits and IoT-based HVAC solutions, particularly in mature markets.
- The emergence of AI-driven autonomous building operations platforms is poised to redefine facility management by enabling real-time optimization of HVAC and energy systems with minimal human intervention.
Growth Restraints
- High upfront capital investment and long payback periods for implementing sustainability and IoT-based HVAC solutions remain a significant barrier, particularly for small and mid-sized building owners.
- Concerns over cybersecurity risks and data privacy in connected building environments are slowing the adoption of IoT-based services and cloud-enabled building management platforms.
- The highly fragmented retrofit market opportunity, characterized by legacy infrastructure and a lack of standardized IoT protocols, continues to limit the deployment of interoperable sustainability solutions. Vendor lock-in and proprietary building management systems further constrain market expansion and integration with third-party solutions.
- Shortage of skilled HVAC professionals with expertise in digital building technologies, IoT service management, and sustainable HVAC operations hinders market growth.
Table of Contents
Research Scope
- Scope of Analysis
Strategic Imperatives
- Why is it Increasingly Difficult to Grow?
- The Strategic Imperative 8™
- The Impact of the Top 3 Strategic Imperatives on IoT-Based HVAC Services
Growth Opportunity Analysis
- Growth Drivers
- Growth Restraints
- Forecast Assumption
- Installed Base of Connected HVAC Devices
- Revenue Forecast of IoT-Based HVAC Services
- Overview of IoT-Based HVAC Services Enabling Sustainability of Buildings
- Energy-Efficient HVAC and Lighting Retrofits
- IoT-Based Energy Management Systems
- AI-Powered Autonomous Operations Platforms
- On-Site Renewable Energy Integration
- IAQ Monitoring and Ventilation Optimization
Ecosystem Supporting Sustainability of Buildings
- Overview of the Buildings Ecosystem
- ABM Industries and Bosch Building Technologies
- Carrier and CBRE
- Daikin and Delta Controls
- Distech Controls and Honeywell
- Jacobs and JLL
- Johnson Controls and Schneider Electric
- Siemens and Signify
- Skanska and Trane Technologies
Growth Opportunity Universe
- Growth Opportunity 1: Retrofit for Aging Building Stock
- Growth Opportunity 2: Advancing Net Zero
- Growth Opportunity 3: Healthy Building Certifications and ESG-Linked Financing
- Growth Opportunity 4: IAQ as a Service and HVAC as a Service
Appendix & Next Steps
- Benefits and Impacts of Growth Opportunities
- Next Steps
- List of Exhibits
- Legal Disclaimer
