[시장보고서]넷 제로 에너지 빌딩 시장 보고서 : 동향, 예측 및 경쟁 분석(-2030년)

넷 제로 에너지 빌딩 시장 보고서 : 동향, 예측 및 경쟁 분석(-2030년)

Net-Zero Energy Building Market Report: Trends, Forecast and Competitive Analysis to 2030

상품코드 : 1603553

리서치사 : Lucintel

발행일 : 2024년 11월

페이지 정보 : 영문 150 Pages

라이선스 & 가격 (부가세 별도)

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한글목차

넷 제로 에너지 빌딩 동향 및 전망

세계 넷 제로 에너지 빌딩 시장의 미래는 주거용 및 비주거용 시장에서 기회가 있어 유망한 것으로 보입니다. 세계 넷 제로 에너지 빌딩 시장은 2024년부터 2030년까지 18.7%의 CAGR로 2030년까지 약 946억 달러에 달할 것으로 예상됩니다. 이 시장의 주요 촉진요인은 지속가능한 건축 방식에 대한 수요 증가와 세입자, 주택 소유자 및 기업의 건물에 대한 수요 증가입니다.

Lucintel의 예측에 따르면, 설비 부문에서는 HVAC 시스템이 예측 기간 동안 가장 높은 성장률을 보일 것으로 예상됩니다.
용도별로는 주택이 높은 성장세를 보일 것으로 예상됩니다.
지역별로는 북미가 예측 기간 동안 가장 높은 성장세를 보일 것으로 예상됩니다.

넷 제로 에너지 빌딩 시장에서의 전략적 성장 기회

지속가능한 건설 방식에 대한 수요가 증가함에 따라 넷 제로 에너지 빌딩 시장의 전략적 성장 기회가 점점 더 분명해지고 있습니다. 이산화탄소 배출량 감소와 에너지 효율 향상에 대한 관심이 높아지면서 이해관계자들은 이러한 성장 추세를 활용하기 위한 혁신적 동향을 파악하고 있습니다. 첨단 에너지 관리 시스템과 재생에너지 솔루션과 같은 신기술은 투자 및 개발의 중요한 경로를 제시하고 있습니다. 또한, 건축가, 건설사, 정책 입안자 간의 협력은 시장 확대를 촉진하는 새로운 파트너십을 형성할 수 있습니다. 이러한 변화의 흐름 속에서 이러한 기회를 전략적으로 활용하는 기업은 급변하는 건설 환경에서 경쟁 우위를 점할 가능성이 높습니다.

신흥시장 진출 : 신흥시장은 넷 제로 에너지 빌딩에 있어 큰 성장 기회가 될 수 있습니다. 아시아, 아프리카, 라틴아메리카 국가들이 경제적으로 발전함에 따라 지속가능하고 에너지 효율적인 건축물에 대한 수요가 증가하고 있습니다. 이러한 시장에 진출함으로써 기업은 증가하는 인프라 투자를 활용하고, 현지 에너지 문제 및 규제 요건을 충족하는 동시에 세계 지속가능성 이니셔티브에 동참할 수 있습니다.
모듈식 및 조립식 솔루션 개발 : 모듈식 및 조립식 건축 솔루션은 넷 제로 에너지 빌딩의 보급을 가속화할 수 있는 전략적 기회를 제공합니다. 이러한 유형의 건축은 건설 기간을 단축하고, 폐기물을 줄이고, 비용을 절감하여 더 많은 사람들이 제로 에너지 주택에 접근할 수 있도록 합니다. 제로 넷 요건을 충족하는 모듈식 설계는 친환경 주택과 직장에 대한 수요와 친환경 주택 솔루션에 대한 수요 사이의 격차를 해소하는 데 도움이 될 것으로 보입니다.
신기술의 통합 : 전력 거래에 사용되는 블록체인 기술이나 첨단 축전지와 같은 신흥 기술의 통합은 이 시장 부문에서 사업을 운영하는 기업들이 활용할 수 있는 중요한 기회입니다. 이러한 기술의 활용은 에너지 관리 시스템을 개선하고, 전력망을 강화하며, 분산형 에너지 발전을 촉진하는 데 도움이 될 수 있습니다. 이러한 혁신 기술을 도입함으로써 기업들은 이러한 시장 역학에 적응할 수 있는 최첨단 시스템을 개발할 수 있습니다.
정책과 인센티브의 정합성 중시 : 정부가 정한 정책 및 인센티브와의 정합성은 제로에너지 건축물의 성장을 촉진하는 데 도움이 됩니다. 보조금, 세제 혜택, 환경 규제 당국의 지원 등을 활용하는 기업은 지속가능한 개발을 촉진하는 동시에 비용을 절감하고 다른 기업에 비해 경쟁력을 확보할 수 있습니다. 정책 입안자들과 적극적으로 소통하고 인센티브 프로그램에 참여함으로써 넷제로 기술 채택을 가속화하고 지속가능성 목표 달성에 기여할 수 있습니다.

넷 제로 에너지 빌딩 시장의 전략적 성장 기회에는 신흥국 시장 진출, 모듈식 및 조립식 솔루션 개발, 신기술 통합, 정책 및 인센티브와의 연계에 대한 집중 등이 있습니다. 이러한 기회들은 시장 동향 및 규제적 지원과 일치하며, 지속가능한 건축의 진화 과정에서 혁신과 성장의 가능성을 제공합니다.

넷 제로 에너지 빌딩 시장 활성화 요인 및 과제

넷 제로 에너지 빌딩은 반도체, 화학 증착, 물리 증착 등 많은 산업에서 중요한 역할을 하고 있습니다. 시장 역학의 변화에는 환경 규제 강화, 기술 발전, 소비자 인식 향상, 경제적 인센티브 등이 포함됩니다. 그러나 높은 초기 비용, 도입의 복잡성, 숙련된 인력 부족 등의 문제도 여전히 남아 있습니다.

촉진요인

환경 규제 강화 : 엄격한 환경 규제로 인해 기업들은 제로 에너지 건축물을 의무적으로 도입해야 합니다. 각국 정부는 전력의 효율적 사용을 촉진하고 이산화탄소 배출량을 줄이기 위한 가이드라인을 마련하고 있습니다. 이러한 규제는 지속가능한 건축을 장려하고 이 분야의 시장 확대에 박차를 가하고 있습니다.
기술 발전 : 에너지 관리 시스템, 건축자재, 재생에너지 기술 분야의 기술 발전이 넷 제로 에너지 빌딩 시장을 주도하고 있습니다. 그 결과, 고성능 단열재, 스마트 그리드, 첨단 태양광발전의 발전이 두드러지게 나타나면서 개발업체와 부동산 소유주에게 넷 제로 에너지 빌딩의 실현 가능성을 높여주고 있습니다.
소비자 인식의 증가 : 넷 제로 에너지 빌딩에 대한 수요는 환경 지속가능성과 에너지 효율성에 대한 소비자의 인식이 높아짐에 따라 주도되고 있습니다. 사람들과 기업들이 이산화탄소 배출량과 에너지 소비에 대한 인식이 높아지면서 비용 효율적이고 환경에 미치는 영향을 최소화하는 건축물을 선택하는 경향이 증가하고 있습니다.
경제적 인센티브 : 지속가능한 건설에 대한 정부 보조금과 세액 공제, 에너지 효율 기술에 대한 지원과 함께 넷 제로 에너지 빌딩 시장을 육성하고 있습니다. 넷 제로 대책을 실행하는 데는 비용이 들지만, 지속가능한 건축 솔루션을 추진하기 위해서는 재정적 지원이 필수적입니다.

과제

높은 초기 비용 : 넷 제로 에너지 빌딩을 설치하려면 고급 재료, 기술 및 재생에너지 시스템이 필요하기 때문에 초기 비용이 많이 들 수 있습니다. 이러한 비용은 장기적인 비용 절감과 이익으로 상쇄될 수 있지만, 많은 부동산 개발업체들이 이러한 프로젝트에 투자하는 것은 여전히 어려운 일입니다.
실행의 복잡성 : 건물 설계에 넷 제로 성능 표준을 도입하려면 복잡한 설계, 엔지니어링 및 통합 프로세스가 필요합니다. 따라서 모든 단계에서 적절한 조정과 전문 지식이 필요합니다.
숙련된 인력의 제한된 가용성 : 매우 효과적인 비에너지 소비형 건물의 설계 및 건설에 숙련된 전문가가 제한적이라는 점이 이 개념의 채택을 가로막는 주요 요인입니다. 전문 지식의 필요성은 프로젝트의 품질에 영향을 미치고 업계의 도전이 되고 있습니다.

넷 제로 에너지 빌딩의 발전은 환경 규제, 기술 변화, 소비자 인식, 경제적 인센티브에 기인합니다. 그러나 이러한 추진력의 균형을 얼마나 잘 맞추는지는 여전히 업계의 과제입니다. 이는 높은 초기 비용, 도입의 복잡성, 제한된 숙련된 인력, 다양한 규제와 같은 장애물이 존재하기 때문이며, 제로 에너지 건축물이 더욱 성장하기 위해서는 이러한 장애물을 해결해야 합니다.

거시경제 동향(2018-2023년)과 예측(2024-2030년)
세계의 넷 제로 에너지 빌딩 시장 동향(2018-2023년)과 예측(2024-2030년)
세계의 넷 제로 에너지 빌딩 시장 : 종류별
- HVAC 시스템
- 조명
- 벽면·지붕
- 기타
세계의 넷 제로 에너지 빌딩 시장 : 용도별
- 주택
- 비주택

제4장 지역별 시장 동향과 예측 분석(2018-2030년)

세계의 넷 제로 에너지 빌딩 시장 : 지역별
북미의 넷 제로 에너지 빌딩 시장
유럽의 넷 제로 에너지 빌딩 시장
아시아태평양의 넷 제로 에너지 빌딩 시장
기타 지역의 넷 제로 에너지 빌딩 시장

제5장 경쟁 분석

제품 포트폴리오 분석
운영 통합
Porter's Five Forces 분석

제6장 성장 기회와 전략 분석

성장 기회 분석
- 세계의 넷 제로 에너지 빌딩 시장 성장 기회 : 종류별
- 세계의 넷 제로 에너지 빌딩 시장 성장 기회 : 용도별
- 세계의 넷 제로 에너지 빌딩 시장 성장 기회 : 지역별
세계의 넷 제로 에너지 빌딩 시장 최신 동향
전략적 분석
- 신제품 개발
- 세계의 넷 제로 에너지 빌딩 시장 생산능력 확대
- 세계의 넷 제로 에너지 빌딩 시장 기업 인수합병(M&A), 합작투자
- 인증과 라이선싱

제7장 주요 기업 개요

Daikin Industries
General Electric
Johnson Controls
Honeywell
Schneider Electric

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영문 목차

영문목차

Net-Zero Energy Building Trends and Forecast

The future of the global net-zero energy building market looks promising with opportunities in the residential and non-residential markets. The global net-zero energy building market is expected to reach an estimated $94.6 billion by 2030 with a CAGR of 18.7% from 2024 to 2030. The major drivers for this market are the rising demand for sustainable building practices and the increasing demand for buildings from tenants, homeowners, and businesses.

Lucintel forecasts that, within the equipment category, the HVAC system is expected to witness the highest growth over the forecast period.
Within the application category, residential is expected to witness a higher growth.
In terms of regions, North America is expected to witness the highest growth over the forecast period.

Gain valuable insights for your business decisions with our comprehensive 150+ page report.

Emerging Trends in the Net-Zero Energy Building Market

The net-zero energy building market is rapidly evolving as sustainability becomes a central focus in the construction and real estate sectors. As global awareness of climate change intensifies, there is an increasing demand for buildings that generate as much energy as they consume over the course of a year. This shift is fueled by advancements in energy-efficient technologies, renewable energy sources, and building materials. Additionally, government policies and incentives aimed at promoting green building practices are driving investment in net-zero energy projects. As stakeholders seek innovative solutions to reduce carbon footprints and enhance energy efficiency, several key trends are emerging that are shaping the future of this dynamic market.

Smart Technology Implementation: The integration of smart technologies is a key trend whereby net-zero buildings are increasingly being designed with advanced energy management systems, IoT devices, and AI-driven analytics. These technologies enable real-time monitoring and optimization of energy usage, improving efficiency and reducing costs. With these capabilities, smart buildings can regulate power consumption based on occupancy and external factors, thereby enhancing overall performance and contributing to sustainability goals.
Advanced Building Materials: There is an increasing focus on advanced construction materials that enhance energy efficiency and sustainability. Innovations such as high-performance insulation, low-emissivity windows, and materials that use recycled or rapidly renewable resources contribute to enhanced thermal performance, reduced energy use, and improved indoor air quality. These innovations help promote net-zero energy objectives while bolstering building longevity.
Integration of Renewable Power: Solar panels, wind turbines, and geothermal heating are common examples of renewable energy sources integrated into net-zero buildings today. On-site generation by these systems reduces reliance on grid power, leading to lower operational costs. Moreover, decreases in costs, government assistance programs, and increased effectiveness support for sustainable construction methods have been additional drivers toward the adoption of renewable energies.
Emphasis on Retrofitting: Retrofitting existing buildings to attain net-zero energy performance is becoming more popular. This approach involves upgrading building envelopes, introducing energy-efficient equipment, and incorporating renewable sources in the system to improve performance while lowering energy consumption. Retrofitting provides a cost-effective way to increase the sustainability of the current building stock, contributing to broader climate goals.
Community-Scale Net-Zero Projects: The concept of community-scale net-zero energy projects is gaining traction as cities and municipalities strive to meet sustainability goals. These initiatives involve designing neighborhoods or districts that collectively achieve net-zero energy by integrating renewable energy sources, shared resources, and energy-efficient infrastructure. By fostering collaboration among residents, businesses, and local governments, these projects create synergies that enhance energy resilience and reduce costs. This trend highlights the importance of a collective approach to sustainability, emphasizing the potential for larger-scale impacts in the fight against climate change while promoting community engagement and awareness.

Trends like smart technology integration, the incorporation of advanced building materials, and the introduction of sustainable alternatives for generating electricity from natural sources that do not depend on fossil fuel usage have created the guidelines needed for better choices in construction and maintenance. With this, there is innovation in the market, while the sustainability of building operations is enhanced, leading to the goal of reducing energy consumption and carbon emissions.

Recent Developments in the Net-Zero Energy Building Market

Recent developments in the net-zero energy building market reflect a growing commitment to sustainability and environmental responsibility. As awareness of climate change intensifies, stakeholders across the construction industry are actively seeking innovative solutions to reduce carbon footprints and enhance energy efficiency. Advances in building technologies, design practices, and renewable energy integration are reshaping the landscape, making net-zero energy buildings more achievable and accessible. Furthermore, supportive government policies and incentives are accelerating the adoption of net-zero strategies. These developments are not only driving market growth but also fostering a cultural shift toward greener building practices, setting a new standard for the future of construction.

Advanced Energy Management Systems Adoption: This has been evidenced by recent advances such as widespread acceptance of complex energy management systems (EMS) with AI-enabled features that optimize net-zero buildings' power consumption patterns. These systems contain real-time information on energy use, thus they can be fine-tuned automatically to minimize wastage by adjusting their functions over time. Energy-efficient systems require EMS to perform even better, save money on bills, and become environmentally friendly.
Renewable Solutions Growth: One major development in the net-zero energy building market has been characterized by a growing trend toward incorporating renewable energy solutions, including photovoltaic panels, wind turbines, and geothermal systems, among others. At present, these solutions are more affordable due to technological improvements that have facilitated their adoption, allowing on-site generation of electricity and fostering independence in terms of power usage. This progress leads to more sustainable modes of construction that do not depend on nonrenewable fuel sources.
Innovations in Building Materials: Energy efficiency and sustainability have witnessed significant changes with new construction materials being developed. These include advanced insulation materials, high-performance windows, and other sustainable construction materials, such as recycled content and low-carbon options. Such materials decrease heat loss through envelopes, reducing electricity intake and contributing to the overall sustainability of net-zero energy buildings, thus fulfilling regulatory requirements for environmental protection concerning sustainable infrastructure projects across the world.
Increase in Net-Zero Retrofit Projects: The retrofitting market for existing buildings to achieve net-zero energy performance is growing. Recent projects have focused on improving building envelopes, efficient energy systems, and renewable energy integration to enhance overall energy performance. Retrofitting existing buildings offers a cost-effective way to enhance sustainability and meet energy performance standards, addressing the challenge of transforming the existing building stock.

Recent developments in the net-zero energy building market include the adoption of advanced energy management systems, expansion of renewable energy solutions, innovations in building materials, and growth in retrofit projects. These advancements are driving the evolution of net-zero buildings, enhancing their efficiency and sustainability while contributing to broader climate and energy goals.

Strategic Growth Opportunities for Net-Zero Energy Building Market

Strategic growth opportunities in the net-zero energy building market are becoming increasingly apparent as the demand for sustainable construction practices escalates. With a heightened focus on reducing carbon emissions and improving energy efficiency, stakeholders are identifying innovative pathways to capitalize on this growing trend. Emerging technologies, such as advanced energy management systems and renewable energy solutions, present significant avenues for investment and development. Additionally, collaboration among architects, builders, and policymakers can foster new partnerships that drive market expansion. As the landscape evolves, companies that strategically position themselves to leverage these opportunities are likely to gain a competitive edge in the rapidly changing construction environment.

Expansion into Emerging Markets: Emerging markets present significant growth opportunities for net-zero energy buildings. As countries in Asia, Africa, and Latin America develop economically, there is increasing demand for sustainable and energy-efficient construction. Expanding into these markets allows companies to capitalize on growing infrastructure investments and support global sustainability efforts while addressing local energy challenges and regulatory requirements.
Development of Modular and Prefabricated Solutions: Modular and prefabricated building solutions offer a strategic opportunity to accelerate the deployment of net-zero energy buildings. This type of construction enables faster construction times, less waste generation, and lower costs, thus opening up the accessibility of zero-energy homes to more people. Modular designs that meet zero-net requirements will help bridge the growing gap between the demand for greener homes or workplaces and the need for environmentally friendly housing solutions.
Integration of Emerging Technologies: Integrating emerging technologies like blockchain technology used in trading electric power and advanced battery storage represents a key opportunity within this market segment that can be leveraged by firms operating within it. Using such technologies can help improve energy management systems, strengthen the grid, and promote distributed energy generation. Incorporating these innovative technologies enables firms to develop state-of-the-art systems that are adaptable to this market's dynamics.
Focus on Policy and Incentive Alignment: Alignment with policies and incentives set by governments helps foster growth in zero-energy buildings. Companies that take advantage of these subsidies, tax breaks, and support from environmental regulatory authorities can cut costs and gain a competitive edge over other players while promoting sustainable development. Active engagement with policymakers and participation in incentive programs can help accelerate the adoption of net-zero technologies and contribute to achieving sustainability goals.

Strategic growth opportunities in the net-zero energy building market include expanding into emerging markets, developing modular and prefabricated solutions, integrating emerging technologies, and focusing on policy and incentive alignment. These opportunities align with market trends and regulatory support, offering potential for innovation and growth in the evolving landscape of sustainable construction.

Net-Zero Energy Building Market Driver and Challenges

Net-zero energy buildings play an important role in many industries, including semiconductors, chemical vapor deposition, and physical vapor deposition. The changing market dynamics include increasing environmental regulations, technological advancements, growing consumer awareness, and economic incentives. However, challenges such as high initial costs, complexity of implementation, and limited availability of a skilled workforce remain.

Drivers:

Increasing Environmental Regulations: Stringent environmental regulations have made it necessary for companies to adopt net-zero buildings. Governments around the world have developed guidelines to reduce carbon emissions while promoting the efficient use of power. Such regulations facilitate sustainable construction practices, which spur market expansion in this area.
Technological Advancements: Technological advances in energy management systems, construction materials, and renewable energy technologies are driving the net-zero energy building market. Consequently, there has been significant development in high-performance insulation, smart grids, and advanced photovoltaics that enhance the viability of net-zero buildings for developers and property owners.
Growing Consumer Awareness: Demand for net-zero energy buildings is driven by increased awareness among consumers of the need for environmental sustainability and energy efficiency. As people and businesses become more conscious of their carbon footprint and energy consumption, they are increasingly opting for structures that have minimal impact on the environment while being cost-effective.
Economic Incentives: Government subsidies and tax credits for sustainable construction, coupled with support for energy-efficient technology, have fostered the market for zero-net-energy buildings. While implementing net-zero measures can be expensive, financial assistance is essential for promoting sustainable building solutions.

Challenges:

High Initial Costs: The initial costs for setting up net-zero energy buildings can be substantial due to the advanced materials, technologies, and renewable energy systems required. Although these costs can be offset by long-term savings and benefits, such project investments remain elusive for many property developers.
Complexity of Implementation: Implementing net-zero performance standards in building designs requires complex design, engineering, and integration processes. This necessitates good coordination at all stages and specialized expertise, as any slight mismatch can lead to project failures, and challenging deadlines.
Limited Availability of Skilled Workforce: The limited availability of professionals skilled in designing and constructing highly effective non-energy-consuming buildings is a major hindrance to the adoption of this concept. The requirement for specialized knowledge can affect project quality and contribute to challenges in the industry.

The development of net-zero energy buildings can be attributed to environmental regulations, technological changes, consumer awareness, and economic incentives. Nonetheless, the extent to which these drivers are balanced remains a challenge for the industry. This is due to obstacles such as high initial costs, implementation complexity, limited skilled workforce, and regulatory variability that need to be addressed for net-zero energy buildings to grow further.

List of Net-Zero Energy Building Companies

Companies in the market compete on the basis of product quality offered. Major players in this market focus on expanding their manufacturing facilities, R&D investments, infrastructural development, and leverage integration opportunities across the value chain. Through these strategies net-zero energy building companies cater increasing demand, ensure competitive effectiveness, develop innovative products & technologies, reduce production costs, and expand their customer base. Some of the net-zero energy building companies profiled in this report include-

Daikin Industries
General Electric
Johnson Controls
Honeywell
Schneider Electric

Net-Zero Energy Building by Segment

The study includes a forecast for the global net-zero energy building market by equipment, application, and region.

Net-Zero Energy Building Market by Equipment [Analysis by Value from 2018 to 2030]:

HVAC System
Lighting
Walls & Roofs
Others

Net-Zero Energy Building Market by Application [Analysis by Value from 2018 to 2030]:

Residential
Non-Residential

Net-Zero Energy Building Market by Region [Analysis by Value from 2018 to 2030]:

North America
Europe
Asia Pacific
The Rest of the World

Country Wise Outlook for the Net-Zero Energy Building Market

Major players in the net-zero energy building market are expanding their operations and forming strategic partnerships to strengthen their positions. The content below highlights recent developments in key countries: the US, China, Germany, India, and Japan. Raw materials used in the net-zero energy building market include high-performance insulation, energy-efficient windows, renewable energy systems (such as solar panels or wind turbines), and advanced building materials such as low-emissivity glass and green roofs. For example, the prices of insulation materials like spray foam and fiberglass can vary. These products are typically more expensive but offer substantial energy savings as well as environmental benefits, making them premium options for sustainable buildings.

United States: The net-zero energy building market has experienced considerable growth in the US, driven by advancements in solar technologies and intelligent building systems. Recent projects include residential houses equipped with innovative energy management systems and high-performance insulation, among other features, designed to generate renewable on-site energy and reduce carbon emissions. These efforts align with the country's goal of becoming energy-independent.
China: China has made significant strides in the net-zero energy building sector through large-scale solar panel installations, particularly in major urban projects, along with the use of advanced construction materials. Stringent government policies on green buildings, combined with increased investment in renewable energy sources, have led to a surge in net-zero buildings across the country. Key developments include the integration of smart grid technology for managing power use in congested urban areas, contributing to China's sustainability objectives.
Germany: Germany continues to lead globally in the development of net-zero energy buildings, thanks to its emphasis on retrofitting existing buildings and adopting new construction techniques. The country is currently focused on advanced building envelopes and energy-efficient technologies that exceed existing European standards. Additionally, Germany is investing in sustainable materials and systems for net-zero buildings, improving their marketability and affordability, while also working toward achieving its ambitious climate goals.
India: Growing awareness of environmental conservation and the government's commitment to sustainability have sparked increased interest in net-zero energy buildings across India. Recent developments include several residential and commercial projects that incorporate energy-efficient technologies and renewable energy. These projects aim to integrate solar panels and energy-efficient heating, ventilation, and air conditioning (HVAC) systems into buildings, reducing power consumption and operational costs. These initiatives align with India's climate change mitigation strategies.
Japan: The market for net-zero energy buildings in Japan is evolving as the country embraces more energy-efficient technologies and smarter solutions for buildings. Recent developments include the use of high-performance insulation materials in new constructions. For instance, Japan has implemented photovoltaic systems and heat pump systems in many buildings, utilizing alternative approaches to power generation and storage to reduce carbon emissions, thus promoting sustainability.

Features of the Global Net-Zero Energy Building Market

Market Size Estimates: Net-zero energy building market size estimation in terms of value ($B).

Trend and Forecast Analysis: Market trends (2018 to 2023) and forecast (2024 to 2030) by various segments and regions.

Segmentation Analysis: Net-zero energy building market size by equipment, application, and region in terms of value ($B).

Regional Analysis: Net-zero energy building market breakdown by North America, Europe, Asia Pacific, and Rest of the World.

Growth Opportunities: Analysis of growth opportunities in different equipments, applications, and regions for the net-zero energy building market.

Strategic Analysis: This includes M&A, new product development, and competitive landscape of the net-zero energy building market.

Analysis of competitive intensity of the industry based on Porter's Five Forces model.

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This report answers following 11 key questions:

Q.1. What are some of the most promising, high-growth opportunities for the net-zero energy building market by equipment (HVAC system, lighting, walls & roofs, and others), application (residential and non-residential), and region (North America, Europe, Asia Pacific, and the Rest of the World)?
Q.2. Which segments will grow at a faster pace and why?
Q.3. Which region will grow at a faster pace and why?
Q.4. What are the key factors affecting market dynamics? What are the key challenges and business risks in this market?
Q.5. What are the business risks and competitive threats in this market?
Q.6. What are the emerging trends in this market and the reasons behind them?
Q.7. What are some of the changing demands of customers in the market?
Q.8. What are the new developments in the market? Which companies are leading these developments?
Q.9. Who are the major players in this market? What strategic initiatives are key players pursuing for business growth?
Q.10. What are some of the competing products in this market and how big of a threat do they pose for loss of market share by material or product substitution?
Q.11. What M&A activity has occurred in the last 5 years and what has its impact been on the industry?

1. Executive Summary

2. Global Net-Zero Energy Building Market : Market Dynamics

2.1: Introduction, Background, and Classifications
2.2: Supply Chain
2.3: Industry Drivers and Challenges

3. Market Trends and Forecast Analysis from 2018 to 2030

3.1. Macroeconomic Trends (2018-2023) and Forecast (2024-2030)
3.2. Global Net-Zero Energy Building Market Trends (2018-2023) and Forecast (2024-2030)
3.3: Global Net-Zero Energy Building Market by Equipment
- 3.3.1: HVAC System
- 3.3.2: Lighting
- 3.3.3: Walls & Roofs
- 3.3.4: Others
3.4: Global Net-Zero Energy Building Market by Application
- 3.4.1: Residential
- 3.4.2: Non-Residential

4. Market Trends and Forecast Analysis by Region from 2018 to 2030

4.1: Global Net-Zero Energy Building Market by Region
4.2: North American Net-Zero Energy Building Market
- 4.2.1: North American Market by Equipment: HVAC System, Lighting, Walls & Roofs, and Others
- 4.2.2: North American Market by Application: Residential and Non-Residential
4.3: European Net-Zero Energy Building Market
- 4.3.1: European Market by Equipment: HVAC System, Lighting, Walls & Roofs, and Others
- 4.3.2: European Market by Application: Residential and Non-Residential
4.4: APAC Net-Zero Energy Building Market
- 4.4.1: APAC Market by Equipment: HVAC System, Lighting, Walls & Roofs, and Others
- 4.4.2: APAC Market by Application: Residential and Non-Residential
4.5: ROW Net-Zero Energy Building Market
- 4.5.1: ROW Market by Equipment: HVAC System, Lighting, Walls & Roofs, and Others
- 4.5.2: ROW Market by Application: Residential and Non-Residential

5. Competitor Analysis

5.1: Product Portfolio Analysis
5.2: Operational Integration
5.3: Porter's Five Forces Analysis

6. Growth Opportunities and Strategic Analysis

6.1: Growth Opportunity Analysis
- 6.1.1: Growth Opportunities for the Global Net-Zero Energy Building Market by Equipment
- 6.1.2: Growth Opportunities for the Global Net-Zero Energy Building Market by Application
- 6.1.3: Growth Opportunities for the Global Net-Zero Energy Building Market by Region
6.2: Emerging Trends in the Global Net-Zero Energy Building Market
6.3: Strategic Analysis
- 6.3.1: New Product Development
- 6.3.2: Capacity Expansion of the Global Net-Zero Energy Building Market
- 6.3.3: Mergers, Acquisitions, and Joint Ventures in the Global Net-Zero Energy Building Market
- 6.3.4: Certification and Licensing

7. Company Profiles of Leading Players

7.1: Daikin Industries
7.2: General Electric
7.3: Johnson Controls
7.4: Honeywell
7.5: Schneider Electric