市場調查報告書
商品編碼
1379544
節能建築市場 - 按建築類型、組件類型(通風系統、照明技術、能源管理系統和控制)、地區、競爭細分的全球行業規模、佔有率、趨勢、機會和預測 2018-2028Energy-Efficient Building Market-Global Industry Size, Share, Trends, Opportunity, & Forecast Segmented by Building Type, Component Type (Ventilation Systems, Lighting Technologies, Energy Management Systems, & Controls), Region, Competition 2018-2028 |
2022 年,全球節能建築市場價值為 1,227 億美元,預計到 2028 年,預測期內將出現強勁成長,複合CAGR為6.98%。節能建築在供暖、製冷、照明和照明方面使用的能源顯著減少。與傳統建築相比的其他營運需求。這種減少是透過設計策略、先進材料和節能技術的結合來實現的。這些建築物透過採用有效的通風系統、低排放材料和空氣過濾技術來優先考慮室內空氣品質。改善空氣品質有助於居住者的健康和舒適。建築圍護結構,包括牆壁、窗戶、屋頂和隔熱材料,旨在最大限度地減少熱傳遞、防止空氣洩漏並保持穩定的室內溫度。這有助於減少加熱和冷卻的需要。 LED(發光二極體)燈具等節能照明系統通常用於最大限度地減少照明用電量。智慧照明控制進一步增強節能效果。
節能建築旨在最大限度地減少能源消耗並最佳化其整個生命週期的資源利用率。他們採用各種策略和技術來減少供暖、冷氣、照明和其他建築營運的能源需求。這些策略包括高效隔熱、高性能窗戶、節能 HVAC(暖氣、通風和空調)系統、智慧控制、再生能源整合和先進的建築自動化系統。由於環境問題日益嚴重以及對永續解決方案的需求,節能建築市場正在不斷擴大。各國政府、監管機構和國際組織已經制定了法律和規則來鼓勵提高能源效率,因為他們了解降低建築物能源使用的重要性。這些措施包括建築規範、能源效率標準以及 LEED 和能源之星等認證,這些認證已成為永續建築設計和營運廣泛採用的基準。另一個重要的促進因素是節省成本的潛力。節能建築在其使用壽命內可帶來巨大的經濟效益。透過減少能源消耗,建築物業主和居住者可以節省水電費和營運成本。節能建築中的暖氣、通風和空調 (HVAC) 系統通常採用熱泵、變速風扇和能量回收系統等先進技術,以最佳化溫度控制,同時最大限度地減少能源消耗。智慧建築技術和自動化系統相整合,可根據佔用情況、天氣條件和一天中的時間等因素最佳化能源使用。這確保了高效的操作和舒適度。通常採用節水裝置和系統,包括低流量廁所和節水景觀,以減少用水量。節能建築通常採用永續且環保的建築材料,包括回收材料、低VOC(揮發性有機化合物)塗料和環保飾面。
市場概況 | |
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預測期 | 2024-2028 |
2022 年市場規模 | 1,227 億美元 |
2028 年市場規模 | 1932.3億美元 |
2023-2028 年CAGR | 6.98% |
成長最快的細分市場 | 商業的 |
最大的市場 | 北美洲 |
此外,政府的激勵措施、退稅以及節能升級和改造補助金進一步激勵了節能實踐的採用。技術進步在節能建築市場的成長中發揮了至關重要的作用。建築材料、施工技術、節能電器和智慧建築系統的創新使得設計、建造和改造節能建築變得更加容易且更具成本效益。這些進步擴大了可用選項的範圍,並提高了節能解決方案的市場可行性。
此外,市場需求和消費者偏好已轉向節能建築。購屋者、租戶和企業在決定在哪裡生活、工作和投資時,越來越重視永續性和節能。節能建築不僅能帶來環境效益,還能改善室內空氣品質、熱舒適度和採光,進而增強居住者的健康、福祉和生產力。因此,推動了節能建築市場的收入。
節能建築的高實施成本是其主要缺點之一。此外,建築用品並不總是可用的。迄今為止,環境問題是節能建築的最大缺點。雖然它對環境的危害較小,碳排放量也較少,但對人們的健康產生的負面影響不大。由於房屋的隔熱性較高,通風和空氣過濾較少,化學物質無處可去,只能聚集在那裡,導致許多疾病。
節能建築需要綜合設計方法。建築師、工程師和其他利害關係人必須通力合作,最佳化建築各個參數的性能,例如能源使用、熱舒適度、照明和室內空氣品質。節能暖通空調系統、建築自動化和再生能源等先進技術的整合增加了設計和施工過程的複雜性。這些技術需要無縫地協同工作,才能使建築高效運作。建築圍護結構(包括隔熱層、窗戶和屋頂)的設計和施工對於控制熱傳遞和維持能源效率至關重要。實現所需的絕緣和氣密性等級可能很複雜。節能建築通常是根據該地區的特定需求和氣候進行客製化的。這種客製化需要仔細考慮當地的天氣條件、建築方向和材料。
缺乏在節能建築實務和技術方面具有專業知識的熟練專業人員。這種稀缺性可能會導致設計不理想和施工過程效率低。實現最佳化能源效率的綜合設計需要多個學科之間的密切協調,包括建築、工程和室內設計。溝通不良或缺乏協作可能導致效率低落。複雜的節能技術的整合可能具有挑戰性。相容性問題、技術故障和施工團隊缺乏知識可能會阻礙這些系統的成功實施。許多消費者和業主並沒有意識到節能建築的好處。提高意識並促進長期成本節約可能是一項挑戰。
隨著全球各國政府更加重視節能,對節能建築的需求量大。近年來,由於基礎設施和開發機構採取的措施增多,節能建築的受歡迎程度迅速上升。這迫使企業將綠建築措施放在首位。由於綠建築數量的成長、對有效建築能源管理的更高要求以及智慧建築和永續解決方案的採用等多種因素,預計全球節能建築市場將逐漸成長。政府促進資源節約和能源效率的措施正在全球推動市場發展。
通風系統、照明技術、能源管理系統、控制、暖通空調、水效率、水加熱和建築圍護結構是這項研究涵蓋的關鍵組成部分。由於不同最終用戶對裝備精良的系統的需求激增,能源管理領域預計將在評估時間內實現最高成長。
基於建築類型的節能建築市場細分包括住宅、商業和工業。商業領域主導市場,佔市場收入的47%。節能技術和策略為商業建築業主和營運商節省了大量成本。節能建築市場的商業部分佔據市場主導地位,佔市場收入的47%。這是因為商業建築通常比住宅或工業建築更大、更耗能。商業建築業主和營運商可以實施多種節能技術和策略來節省能源成本。一些最常見的包括: LED 照明比傳統白熾燈或螢光燈明顯更節能。高效 HVAC 系統使用更少的能源來加熱和冷卻建築物。在牆壁、閣樓和其他區域添加隔熱材料可以幫助建築物冬暖夏涼,從而減少能源消耗。智慧恆溫器可以了解建築物居住者的暖氣和冷氣偏好,並相應地調節溫度,從而節省能源。除了這些技術和策略之外,商業建築業主和營運商還可以透過實施簡單的改變來節省能源,例如在不使用時關閉燈光和設備,以及在充滿電時拔掉電子設備的插頭。
透過實施節能技術和策略,商業建築業主和營運商可以節省大量能源成本。這可以提高獲利能力和競爭力,並減少對環境的影響。
北美地區已成為全球節能建築市場的領導者,並在 2022 年佔據了可觀的收入佔有率。北美節能建築市場在 2022 年佔據了該市場的主導地位(45.80%)。美國在聯邦和州兩級實施了嚴格的建築能源法規,鼓勵採用節能實踐和技術。此外,美國節能建築市場佔有最大的市場佔有率,加拿大裝甲材料市場是北美地區成長最快的市場。預計北美市場在未來幾年將以最快的速度成長。該產業利用物聯網、大資料、雲端運算、資料分析、深度學習和人工智慧等尖端技術,開發了最現代的智慧建築解決方案。節約能源、降低營運成本、提高建築舒適度以及遵守更嚴格的國際法和永續發展標準是該地區目前的重點領域。由於該地區的企業迅速採用新技術,北美也是世界上技術最先進的地區。此外,美國和加拿大是幫助該地區技術進步的兩個重要國家。
由於嚴格的永續發展能源效率法,歐洲擁有巨大的市場佔有率。節能是這兩個地區永續成長的重要優先事項,這推動了對節能結構的需求。由於歐洲建築業的擴張,包括高科技建築和修復項目,智慧建築的獲利解決方案也得到了發展。人均能源價格的上漲,特別是在商業和工業建築中,可以歸咎於高採用率。亞太地區太陽能變壓器的一些主要市場包括中國、印度、日本、韓國和澳洲。這些國家的太陽能市場正在快速成長,這推動了對太陽能變壓器的需求。預計亞太地區將在未來幾年繼續主導節能建築市場。這是由於該地區太陽能市場的持續成長、該地區主要節能建築製造商的存在、政府對太陽能的支持政策以及對太陽能產業的投資不斷增加。亞太地區是節能建築市場的主導地區。這是由於該地區對太陽能的需求不斷成長、該地區主要節能建築製造商的存在、政府對太陽能的支持政策以及對太陽能產業的投資不斷增加。預計亞太地區將在未來幾年繼續主導節能建築市場。
Global Energy-Efficient Building Market has valued at USD 122.7 Billion in 2022 and is anticipated to project robust growth in the forecast period with a CAGR of 6.98 % through 2028. Energy-efficient buildings use significantly less energy for heating, cooling, lighting, and other operational needs compared to traditional buildings. This reduction is achieved through a combination of design strategies, advanced materials, and energy-efficient technologies. These buildings prioritize indoor air quality by incorporating effective ventilation systems, low-emission materials, and air filtration technologies. Improved air quality contributes to occupant health and comfort. The building envelope, including walls, windows, roofs, and insulation, is designed to minimize heat transfer, prevent air leaks, and maintain a stable indoor temperature. This helps reduce the need for heating and cooling. nergy-efficient lighting systems, such as LED (Light Emitting Diode) fixtures, are commonly used to minimize electricity consumption for illumination. Smart lighting controls further enhance energy savings.
Energy-efficient buildings are designed to minimize energy consumption and optimize resource utilization throughout their lifecycle. They employ various strategies and technologies to reduce energy demand for heating, cooling, lighting, and other building operations. These strategies include efficient insulation, high-performance windows, energy-efficient HVAC (heating, ventilation, and air conditioning) systems, smart controls, renewable energy integration, and advanced building automation systems. The market for energy-efficient buildings is expanding as a result of rising environmental concerns and the demand for sustainable solutions. Governments, regulatory agencies, and international organizations have put laws and rules in place to encourage energy efficiency because they understand how important it is to lower energy use in buildings. These measures include building codes, energy efficiency standards, and certifications like LEED and ENERGY STAR, which have become widely adopted benchmarks for sustainable building design and operation. Another significant driver is the potential for cost savings. Energy-efficient buildings offer substantial financial benefits over their lifespan. By reducing energy consumption, building owners and occupants can save on utility bills and operational costs. Heating, ventilation, and air conditioning (HVAC) systems in energy-efficient buildings often incorporate advanced technologies like heat pumps, variable-speed fans, and energy recovery systems to optimize temperature control while minimizing energy use. Smart building technologies and automation systems are integrated to optimize energy usage based on factors such as occupancy, weather conditions, and time of day. This ensures efficient operations and comfort. Water-saving fixtures and systems, including low-flow toilets and water-efficient landscaping, are commonly incorporated to reduce water consumption. Energy-efficient buildings often utilize sustainable and eco-friendly construction materials, including recycled content, low-VOC (Volatile Organic Compounds) paints, and environmentally responsible finishes.
Market Overview | |
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Forecast Period | 2024-2028 |
Market Size 2022 | USD 122.7 Billion |
Market Size 2028 | USD 193.23 Billion |
CAGR 2023-2028 | 6.98% |
Fastest Growing Segment | Commercial |
Largest Market | North America |
Additionally, government incentives, tax rebates, and grants for energy-efficient upgrades and renovations further incentivize the adoption of energy-efficient practices. Technological advancements have played a crucial role in the growth of the energy-efficient building market. Innovations in building materials, construction techniques, energy-efficient appliances, and smart building systems have made it easier and more cost-effective to design, construct, and retrofit energy-efficient buildings. These advancements have expanded the range of available options and increased the market feasibility of energy-efficient solutions.
Furthermore, market demand and consumer preferences have shifted towards energy-efficient buildings. Homebuyers, tenants, and businesses are increasingly prioritizing sustainability and energy savings when making decisions about where to live, work, and invest. Energy-efficient buildings not only provide environmental benefits but also offer improved indoor air quality, thermal comfort, and daylighting, which can enhance occupant health, well-being, and productivity. Thus, driving the Energy-Efficient Building market revenue.
The high implementation costs of energy-efficient buildings are one of their main drawbacks. Additionally, building supplies are not always accessible. Environmental concerns are by far the biggest drawback of energy-efficient buildings. Although it is less harmful to the environment and emits fewer carbon emissions, it has a modest negative impact on people's health. As a result of the house's high thermal insulation, there is less ventilation and air filtration, the chemicals have nowhere to go but gather there, which can lead to a number of ailments.
Energy-efficient buildings require an integrated design approach. Architects, engineers, and other stakeholders must work collaboratively to optimize the building's performance across various parameters, such as energy use, thermal comfort, lighting, and indoor air quality. The integration of advanced technologies, such as energy-efficient HVAC systems, building automation, and renewable energy sources, adds complexity to the design and construction process. These technologies need to work seamlessly together for the building to perform efficiently. The design and construction of the building envelope, including insulation, windows, and roofing, is crucial for controlling heat transfer and maintaining energy efficiency. Achieving the desired level of insulation and airtightness can be complex. Energy-efficient buildings are often customized to suit the specific needs and climate of the region. This customization requires careful consideration of local weather conditions, building orientation, and materials.
There is a shortage of skilled professionals with expertise in energy-efficient building practices and technologies. This scarcity can lead to suboptimal designs and inefficient construction processes. Achieving an integrated design that optimizes energy efficiency requires close coordination among multiple disciplines, including architecture, engineering, and interior design. Miscommunication or a lack of collaboration can lead to inefficiencies. The integration of sophisticated energy-efficient technologies can be challenging. Compatibility issues, technical glitches, and a lack of knowledge among construction teams can hinder the successful implementation of these systems. Many consumers and property owners are unaware of the benefits of energy-efficient buildings. Raising awareness and promoting long-term cost savings can be a challenge.
Buildings that are energy efficient are in great demand as governments put more emphasis on energy conservation globally. Due to an increase in measures done by infrastructure and development organisations, the popularity of energy-efficient buildings has risen quickly in recent years. This forces businesses to give green building initiatives top priority. Due to a number of factors, including a growth in the number of green buildings, a greater requirement for effective building energy management, and the adoption of smart building and sustainable solutions, the global market for energy-efficient buildings is predicted to grow gradually. Government initiatives to promote resource conservation and energy efficiency are advancing the market on a global scale.
In order to promote the use of energy efficient buildings as well as the transformation of both existing and newly constructed structures, green building codes, policies, and programmes are continuously adjusted and updated. Increasing environmental concerns, stringent building code requirements, and a growing need for energy conservation are just a few of the elements creating attractive prospects for vendors in the global market for energy-efficient buildings.
Ventilation systems, Lighting technology, Energy management system, Control, HVAC, Water efficiency, Water heating, and Building envelope are the key components covered in the study. The energy management segment can anticipate recording the highest growth over the assessment timeline due to the surging need for highly equipped systems from different end-users.
The Energy-Efficient Building market segmentation, based on Building Type includes Residential, Commercial and Industrial . The commercial segment dominated the market, accounting for 47% of market revenue. Energy-efficient technologies and strategies offer substantial cost savings for commercial building owners and operators. The commercial segment of the energy-efficient building market dominates the market, accounting for 47% of market revenue. This is because commercial buildings are typically larger and more energy-intensive than residential or industrial buildings. There are a number of energy-efficient technologies and strategies that commercial building owners and operators can implement to save money on energy costs. Some of the most common include: LED lighting is significantly more energy-efficient than traditional incandescent or fluorescent lighting. High-efficiency HVAC systems use less energy to heat and cool buildings. Adding insulation to walls, attics, and other areas can help to keep buildings warm in the winter and cool in the summer, reducing energy use. Smart thermostats can learn the heating and cooling preferences of building occupants and adjust the temperature accordingly, saving energy. In addition to these technologies and strategies, commercial building owners and operators can also save energy by implementing simple changes, such as turning off lights and equipment when they are not in use, and unplugging electronics when they are fully charged.
By implementing energy-efficient technologies and strategies, commercial building owners and operators can save substantial amounts of money on energy costs. This can lead to improved profitability and competitiveness, as well as a reduced environmental impact.
The North America region has established itself as the leader in the Global Energy-Efficient Building Market with a significant revenue share in 2022. The North America Energy-Efficient Building Market dominated this market in 2022 (45.80%). The U.S. has implemented rigorous building energy codes at both federal and state levels, encouraging the adoption of energy-efficient practices and technologies. Further, the U.S. Energy-Efficient Building market held the largest market share, and the Canada Armor Materials market was the fastest growing market in the North America region. The market in North America is expected to grow at the fastest rate in the coming years. Using cutting-edge technologies like the Internet of Things, big data, cloud computing, data analytics, deep learning, and artificial intelligence, the sector has seen the development of the most modern intelligent building solutions. Saving energy, cutting operating costs, bolstering comfort levels in buildings, and adhering to stricter international laws and sustainability standards are currently the key focus areas in the region. North America is also the most technologically sophisticated region in the world as a result of the region's businesses adopting new technologies quickly. Additionally, two significant nations that have aided in the technological advancement of the area are the United States and Canada.
Europe has a substantial market share because of stringent energy efficiency laws for sustainable development. Energy conservation is a significant priority for these two regions' sustainable growth, which is fueling the need for energy-efficient structures. Profitable solutions for intelligent buildings have also been developed as a result of the expansion of the European construction sector, which includes high-tech construction and rehabilitation projects. The increase in per capita energy prices, particularly in commercial and industrial buildings, can be blamed for the high adoption rate. Some of the key markets for solar transformers in the APAC region include China, India, Japan, South Korea, and Australia. These countries are experiencing rapid growth in their solar energy markets, and this is driving the demand for solar transformers. The APAC region is expected to continue to dominate the Energy-Efficient Building market in the coming years. This is due to the continued growth of the solar energy market in the region, the presence of key Energy-Efficient Building manufacturers in the region, supportive government policies for solar energy, and growing investments in the solar sector. The Asia Pacific region is the dominating region in the Energy-Efficient Building market. This is attributed to the growing demand for solar energy in the region, the presence of key Energy-Efficient Building manufacturers in the region, supportive government policies for solar energy, and growing investments in the solar sector. The APAC region is expected to continue to dominate the Energy-Efficient Building market in the coming years.
In this report, the Global Energy-Efficient Building Market has been segmented into the following categories, in addition to the industry trends which have also been detailed below: