Report Code: CMI51208

Category: Energy And Power

Report Snapshot

CAGR: 18.5%
35,182.1M
2023
41,690.8M
2024
192,090.2M
2033

Source: CMI

Study Period: 2024-2033
Fastest Growing Market: Asia-Pacific
Largest Market: Europe

Major Players

  • Schneider Electric SE
  • Siemens AG
  • Johnson Controls International plc
  • Honeywell International Inc.
  • Trane Technologies plc
  • ABB Ltd.
  • Others

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Reports Description

As per the current market research conducted by the CMI Team, the global Net-Zero Energy Buildings Market is expected to record a CAGR of 18.5% from 2024 to 2033. In 2024, the market size is projected to reach a valuation of USD 41,690.8 Million. By 2033, the valuation is anticipated to reach USD 192,090.2 Million.

The net-zero energy buildings market refers to the construction and operation of buildings that produce as much energy as they consume over a year, typically through a combination of energy-efficient design, renewable energy generation, and energy storage technologies.

These buildings minimize their environmental footprint by reducing greenhouse gas emissions and dependence on fossil fuels. Key components include advanced building materials, high-performance insulation, efficient HVAC systems, solar panels, wind turbines, and energy management systems.

Net-zero energy buildings represent a sustainable and cost-effective approach to meeting energy needs while mitigating climate change impacts.

Net-Zero Energy Buildings Market – Significant Growth Factors

The Net-Zero Energy Buildings Market presents significant growth opportunities due to several factors:

  • Regulatory Mandates and Incentives: Increasing government regulations mandating energy efficiency standards and offering incentives such as tax credits and grants encourage the adoption of net-zero energy building solutions.
  • Advancements in Technology: Continuous advancements in renewable energy technologies, energy-efficient building materials, and smart building systems drive innovation and make net-zero energy buildings more feasible and cost-effective.
  • Growing Environmental Awareness: Rising awareness of climate change and environmental sustainability prompts stakeholders to prioritize net-zero energy buildings to reduce carbon emissions and mitigate environmental impacts.
  • Cost Savings and Economic Benefits: Net-zero energy buildings offer significant long-term cost savings through reduced energy bills, increased property values, and operational efficiencies, making them financially attractive investments for developers and building owners.
  • Market Expansion: The growing demand for sustainable buildings and increasing focus on carbon reduction present opportunities for market expansion, attracting investments and driving growth in the net-zero energy buildings sector.
  • Innovation and Collaboration: Opportunities exist for innovation and collaboration among stakeholders, including developers, technology providers, and policymakers, to develop scalable solutions, share best practices, and overcome barriers to the widespread adoption of net-zero energy buildings.

Net-Zero Energy Buildings Market – Mergers and Acquisitions

The Net-Zero Energy Buildings Market has seen several mergers and acquisitions in recent years, with companies seeking to expand their market presence and leverage synergies to improve their product offerings and profitability. Some notable examples of mergers and acquisitions in the Net-Zero Energy Buildings Market include:

  • In 2022, Siemens’ Masterguard E-Hybrid solution for zero-energy buildings integrates energy storage, solar panels, and smart controls to enable buildings to generate, store, and manage their energy, reducing grid dependency and advancing sustainability goals by optimizing energy usage and reducing greenhouse gas emissions.
  • In 2021, Schneider Electric’s EcoStruxure for Buildings is a holistic solution that integrates building and energy management systems with digital services. Leveraging advanced analytics and IoT, it optimizes energy consumption, enabling efficient operation and administration of zero-energy buildings to enhance performance and sustainability.

These mergers and acquisitions helped companies expand their product offerings, improve their market presence, and capitalize on growth opportunities in the Net-Zero Energy Buildings Market. The trend is expected to continue as companies seek to gain a competitive edge in the market.

COMPARATIVE ANALYSIS OF THE RELATED MARKET

Net-Zero Energy Buildings Market Steel Utility Poles Market Green Petroleum Coke Market
CAGR 18.5% (Approx) CAGR 2.7% (Approx) CAGR 6.1% (Approx)
USD 192,090.2 Million by 2033 USD 67.6 Billion by 2033 USD 31,018.7 Million by 2033

Net-Zero Energy Buildings Market – Significant Threats

The Net-Zero Energy Buildings Market faces several significant threats that could impact its growth and profitability in the future. Some of these threats include:

  • High Initial Costs: The upfront costs associated with implementing net-zero energy building technologies, such as solar panels and energy-efficient systems, can be prohibitive for some developers and building owners, deterring adoption and investment in sustainable building practices.
  • Technological Limitations: Despite advancements, some renewable energy and energy-efficient technologies may still face limitations in terms of reliability, efficiency, and scalability, posing challenges to achieving net-zero energy goals for buildings.
  • Policy and Regulatory Uncertainty: Shifting political landscapes and changing regulatory environments can create uncertainty for stakeholders in the net-zero energy building market, affecting investment decisions and project planning.
  • Lack of Awareness and Education: Limited awareness and understanding of net-zero energy building concepts among developers, contractors, and consumers may hinder market growth, leading to underinvestment in sustainable building solutions.
  • Financial and Economic Factors: Economic downturns, fluctuations in energy prices, and market volatility can impact the financial viability of net-zero energy building projects, making it challenging to secure funding and financing for sustainable building initiatives.

Global Net-Zero Energy Buildings Market 2024–2033 (By Energy Source)

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Category-Wise Insights:

By Energy Source

  • Solar Energy: Solar energy is a key renewable energy source harnessed in net-zero energy buildings through photovoltaic (PV) panels. Trends include advancements in solar panel efficiency and integration into building design, such as building-integrated photovoltaics (BIPV). With falling costs and increasing efficiency, solar energy continues to be a prominent choice for net-zero energy buildings, providing reliable and sustainable power generation.
  • Biogas: Biogas, derived from organic waste through anaerobic digestion, serves as a renewable fuel source in net-zero energy buildings. Trends include the use of biogas for combined heat and power (CHP) systems and as a clean fuel for heating and cooking. As the focus on waste-to-energy solutions grows, biogas presents opportunities for decentralized energy production and carbon footprint reduction in net-zero energy buildings.
  • Others: Other renewable energy sources utilized in net-zero energy buildings include wind power, geothermal energy, and biomass. Trends include the development of innovative technologies and hybrid energy systems combining multiple renewable sources to optimize energy production and meet the diverse needs of net-zero energy buildings. As the renewable energy market matures, these alternative sources offer additional options for achieving sustainable and resilient building solutions.

By Equipment Type

  • HVAC System: HVAC systems in net-zero energy buildings focus on energy-efficient heating, ventilation, and air conditioning solutions, including heat pumps, radiant heating/cooling, and demand-controlled ventilation. Trends include the integration of smart controls for optimized energy use, heat recovery technologies, and geothermal heat pumps to minimize energy consumption while maintaining indoor comfort.
  • Lighting: Net-zero energy buildings utilize energy-efficient lighting solutions such as LEDs, daylighting, and occupancy sensors to reduce electricity consumption. Trends include the adoption of advanced lighting controls for dimming and scheduling, circadian lighting designs to enhance occupant well-being, and the integration of daylight harvesting systems for natural light optimization, reducing reliance on artificial lighting.
  • Walls & Roofs: Walls and roofs in net-zero energy buildings are constructed using high-performance insulation materials, air barriers, and reflective roofing materials to minimize heat transfer and improve thermal comfort. Trends include the use of advanced building envelopes with high R-values, phase change materials for thermal mass, and cool roofs to mitigate heat gain, enhancing energy efficiency and reducing heating and cooling loads.
  • Others: Other equipment types in net-zero energy buildings include renewable energy systems like solar panels, wind turbines, and geothermal heat pumps, as well as energy storage solutions such as batteries and thermal storage systems. Trends include the integration of onsite renewable energy generation, grid-connected microgrids for energy resilience, and advanced energy storage technologies to optimize energy use and achieve net-zero energy goals.

Global Net-Zero Energy Buildings Market 2024–2033 (By End User)

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By Service

  • Software Solutions: Software solutions in the net-zero energy buildings market encompass energy management platforms, building automation systems, and simulation tools that optimize energy usage, monitor performance, and facilitate decision-making for building operators. Trends include the integration of artificial intelligence for predictive analytics, cloud-based platforms for remote monitoring, and the development of digital twins for real-time simulation and optimization of building operations.
  • Designing Services: Designing services for net-zero energy buildings involves architectural, engineering, and consulting firms specializing in sustainable building design, energy modeling, and performance optimization. Trends include the adoption of passive design strategies, such as natural ventilation and daylighting, the use of Building Information Modeling (BIM) for integrated design processes, and the incorporation of renewable energy systems into building designs.
  • Others: Other services in the net-zero energy buildings market include energy auditing, commissioning, construction management, and certification services. These services play a crucial role in ensuring the successful implementation and operation of net-zero energy building projects. Trends include the growing demand for third-party verification and certification of building performance, as well as the development of industry standards and guidelines for net-zero energy building practices.

By End User

  • Residential: Net-zero energy buildings in the residential sector are homes that generate as much energy as they consume over a year. Trends include the integration of solar panels, energy-efficient appliances, and smart home technologies to reduce energy consumption and carbon footprint. Increasing consumer demand for sustainable living, coupled with government incentives and green building codes, drives the adoption of net-zero energy solutions in the residential market.
  • Non-Residential: Non-residential net-zero energy buildings include commercial, institutional, and industrial structures that achieve energy balance through renewable energy generation and energy efficiency measures. Trends encompass the implementation of daylighting, passive design strategies, and advanced building automation systems to optimize energy performance. Growing corporate sustainability initiatives, coupled with regulatory requirements and investor demand for green buildings, propel the adoption of net-zero energy solutions in the non-residential sector.

Report Scope

Feature of the Report Details
Market Size in 2024 USD 41,690.8 Million
Projected Market Size in 2033 USD 192,090.2 Million
Market Size in 2023 USD 35,182.1 Million
CAGR Growth Rate 18.5% CAGR
Base Year 2023
Forecast Period 2024-2033
Key Segment By Energy Source, Equipment Type, Services, End User and Region
Report Coverage Revenue Estimation and Forecast, Company Profile, Competitive Landscape, Growth Factors and Recent Trends
Regional Scope North America, Europe, Asia Pacific, Middle East & Africa, and South & Central America
Buying Options Request tailored purchasing options to fulfil your requirements for research.

Net-Zero Energy Buildings Market – Regional Analysis

The Net-Zero Energy Buildings Market is segmented into various regions, including North America, Europe, Asia-Pacific, and LAMEA. Here is a brief overview of each region:

  • North America: In North America, net-zero energy buildings are increasingly adopting innovative energy storage solutions, such as battery storage systems, to enhance grid stability and reliability. Additionally, there is a growing trend towards the integration of microgrid technology in net-zero energy buildings, providing resilience during power outages and emergencies.
  • Europe: In Europe, net-zero energy buildings are embracing passive design principles and advanced insulation techniques to optimize energy performance and minimize heat loss. Furthermore, there is a focus on district-level energy systems and community-based renewable energy projects, promoting collaboration and shared energy resources among buildings in urban areas.
  • Asia-Pacific: In the Asia-Pacific region, net-zero energy buildings are leveraging advancements in building-integrated photovoltaics (BIPV) and solar energy technologies to maximize renewable energy generation potential. Additionally, there is a trend towards the adoption of smart building technologies and Internet of Things (IoT) solutions for real-time energy monitoring and optimization, driving energy efficiency gains in buildings across the region.
  • LAMEA (Latin America, Middle East, and Africa): In LAMEA, net-zero energy buildings are increasingly utilizing passive cooling techniques and natural ventilation strategies to reduce reliance on mechanical HVAC systems and minimize energy consumption. Moreover, there is a growing interest in bioclimatic design principles and green building certifications, driving the adoption of sustainable building practices and renewable energy solutions in the region.

Global Net-Zero Energy Buildings Market 2024–2033 (By Million)

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Competitive Landscape – Net-Zero Energy Buildings Market

The Net-Zero Energy Buildings Market is highly competitive, with a large number of manufacturers and retailers operating globally. Some of the key players in the market include:

  • Schneider Electric SE
  • Siemens AG
  • Johnson Controls International plc
  • Honeywell International Inc.
  • Trane Technologies plc
  • ABB Ltd.
  • General Electric Company
  • Legrand SA
  • Mitsubishi Electric Corporation
  • Daikin Industries Ltd.
  • Eaton Corporation plc
  • Cree Inc.
  • Panasonic Corporation
  • SunPower Corporation
  • Kingspan Group plc
  • Others

These companies operate in the market through various strategies such as product innovation, mergers and acquisitions, and partnerships.

New players entering the net-zero energy buildings market, such as Evergreen Buildings LLC and EcoTek Group, are pioneering innovative solutions, leveraging cutting-edge technologies like Building Information Modeling (BIM) and digital twin simulations to optimize energy performance and sustainability.

Key players dominating the market, such as Schneider Electric SE and Siemens AG, maintain leadership through extensive research and development, strategic partnerships with renewable energy providers, and a wide range of product offerings encompassing energy-efficient building systems, renewable energy technologies, and integrated smart building solutions, solidifying their market dominance.

The Net-Zero Energy Buildings Market is segmented as follows:

By Energy Source

  • Solar Energy
  • Biogas
  • Others

By Equipment Type

  • HVAC System
  • Lighting
  • Walls & Roofs
  • Others

By Services

  • Software Solutions
  • Designing Services
  • Others

By End User

  • Residential
  • Non- Residential

Regional Coverage:

North America

  • U.S.
  • Canada
  • Mexico
  • Rest of North America

Europe

  • Germany
  • France
  • U.K.
  • Russia
  • Italy
  • Spain
  • Netherlands
  • Rest of Europe

Asia Pacific

  • China
  • Japan
  • India
  • New Zealand
  • Australia
  • South Korea
  • Taiwan
  • Rest of Asia Pacific

The Middle East & Africa

  • Saudi Arabia
  • UAE
  • Egypt
  • Kuwait
  • South Africa
  • Rest of the Middle East & Africa

Latin America

  • Brazil
  • Argentina
  • Rest of Latin America

Table of Contents

  • Chapter 1. Preface
    • 1.1 Report Description and Scope
    • 1.2 Research scope
    • 1.3 Research methodology
      • 1.3.1 Market Research Type
      • 1.3.2 Market Research Methodology
  • Chapter 2. Executive Summary
    • 2.1 Global Net-Zero Energy Buildings Market, (2024 – 2033) (USD Million)
    • 2.2 Global Net-Zero Energy Buildings Market: snapshot
  • Chapter 3. Global Net-Zero Energy Buildings Market – Industry Analysis
    • 3.1 Net-Zero Energy Buildings Market: Market Dynamics
    • 3.2 Market Drivers
      • 3.2.1 Regulatory Mandates and Incentives
      • 3.2.2 Advancements in Technology
      • 3.2.3 Growing Environmental Awareness
      • 3.2.4 Cost Savings and Economic Benefits
      • 3.2.5 Market Expansion
      • 3.2.6 Innovation and Collaboration.
    • 3.3 Market Restraints
    • 3.4 Market Opportunities
    • 3.5 Market Challenges
    • 3.6 Porter’s Five Forces Analysis
    • 3.7 Market Attractiveness Analysis
      • 3.7.1 Market Attractiveness Analysis By Energy Source
      • 3.7.2 Market Attractiveness Analysis By Equipment Type
      • 3.7.3 Market Attractiveness Analysis By Services
      • 3.7.4 Market Attractiveness Analysis By End User
  • Chapter 4. Global Net-Zero Energy Buildings Market- Competitive Landscape
    • 4.1 Company market share analysis
      • 4.1.1 Global Net-Zero Energy Buildings Market: Company Market Share, 2023
    • 4.2 Strategic development
      • 4.2.1 Acquisitions & mergers
      • 4.2.2 New Product launches
      • 4.2.3 Agreements, partnerships, collaboration, and joint ventures
      • 4.2.4 Research and development and Regional expansion
    • 4.3 Price trend analysis
  • Chapter 5. Global Net-Zero Energy Buildings Market – Energy Source Analysis
    • 5.1 Global Net-Zero Energy Buildings Market Overview: By Energy Source
      • 5.1.1 Global Net-Zero Energy Buildings Market Share, By Energy Source, 2023 and 2033
    • 5.2 Solar Energy
      • 5.2.1 Global Net-Zero Energy Buildings Market by Solar Energy, 2024 – 2033 (USD Million)
    • 5.3 Biogas
      • 5.3.1 Global Net-Zero Energy Buildings Market by Biogas, 2024 – 2033 (USD Million)
    • 5.4 Others
      • 5.4.1 Global Net-Zero Energy Buildings Market by Others, 2024 – 2033 (USD Million)
  • Chapter 6. Global Net-Zero Energy Buildings Market – Equipment Type Analysis
    • 6.1 Global Net-Zero Energy Buildings Market Overview: By Equipment Type
      • 6.1.1 Global Net-Zero Energy Buildings Market Share, By Equipment Type, 2023 and 2033
    • 6.2 HVAC System
      • 6.2.1 Global Net-Zero Energy Buildings Market by HVAC System, 2024 – 2033 (USD Million)
    • 6.3 Lighting
      • 6.3.1 Global Net-Zero Energy Buildings Market by Lighting, 2024 – 2033 (USD Million)
    • 6.4 Walls & Roofs
      • 6.4.1 Global Net-Zero Energy Buildings Market by Walls & Roofs, 2024 – 2033 (USD Million)
    • 6.5 Others
      • 6.5.1 Global Net-Zero Energy Buildings Market by Others, 2024 – 2033 (USD Million)
  • Chapter 7. Global Net-Zero Energy Buildings Market – Services Analysis
    • 7.1 Global Net-Zero Energy Buildings Market Overview: By Services
      • 7.1.1 Global Net-Zero Energy Buildings Market Share, By Services, 2023 and 2033
    • 7.2 Software Solutions
      • 7.2.1 Global Net-Zero Energy Buildings Market by Software Solutions, 2024 – 2033 (USD Million)
    • 7.3 Designing Services
      • 7.3.1 Global Net-Zero Energy Buildings Market by Designing Services, 2024 – 2033 (USD Million)
    • 7.4 Others
      • 7.4.1 Global Net-Zero Energy Buildings Market by Others, 2024 – 2033 (USD Million)
  • Chapter 8. Global Net-Zero Energy Buildings Market – End User Analysis
    • 8.1 Global Net-Zero Energy Buildings Market Overview: By End User
      • 8.1.1 Global Net-Zero Energy Buildings Market Share, By End User, 2023 and 2033
    • 8.2 Residential
      • 8.2.1 Global Net-Zero Energy Buildings Market by Residential, 2024 – 2033 (USD Million)
    • 8.3 Non- Residential
      • 8.3.1 Global Net-Zero Energy Buildings Market by Non- Non-Residential, 2024 – 2033 (USD Million)
  • Chapter 9. Net-Zero Energy Buildings Market – Regional Analysis
    • 9.1 Global Net-Zero Energy Buildings Market Regional Overview
    • 9.2 Global Net-Zero Energy Buildings Market Share, by Region, 2023 & 2033 (USD Million)
    • 9.3. North America
      • 9.3.1 North America Net-Zero Energy Buildings Market, 2024 – 2033 (USD Million)
        • 9.3.1.1 North America Net-Zero Energy Buildings Market, by Country, 2024 – 2033 (USD Million)
    • 9.4 North America Net-Zero Energy Buildings Market, by Energy Source, 2024 – 2033
      • 9.4.1 North America Net-Zero Energy Buildings Market, by Energy Source, 2024 – 2033 (USD Million)
    • 9.5 North America Net-Zero Energy Buildings Market, by Equipment Type, 2024 – 2033
      • 9.5.1 North America Net-Zero Energy Buildings Market, by Equipment Type, 2024 – 2033 (USD Million)
    • 9.6 North America Net-Zero Energy Buildings Market, by Services, 2024 – 2033
      • 9.6.1 North America Net-Zero Energy Buildings Market, by Services, 2024 – 2033 (USD Million)
    • 9.7 North America Net-Zero Energy Buildings Market, by End User, 2024 – 2033
      • 9.7.1 North America Net-Zero Energy Buildings Market, by End User, 2024 – 2033 (USD Million)
    • 9.8. Europe
      • 9.8.1 Europe Net-Zero Energy Buildings Market, 2024 – 2033 (USD Million)
        • 9.8.1.1 Europe Net-Zero Energy Buildings Market, by Country, 2024 – 2033 (USD Million)
    • 9.9 Europe Net-Zero Energy Buildings Market, by Energy Source, 2024 – 2033
      • 9.9.1 Europe Net-Zero Energy Buildings Market, by Energy Source, 2024 – 2033 (USD Million)
    • 9.10 Europe Net-Zero Energy Buildings Market, by Equipment Type, 2024 – 2033
      • 9.10.1 Europe Net-Zero Energy Buildings Market, by Equipment Type, 2024 – 2033 (USD Million)
    • 9.11 Europe Net-Zero Energy Buildings Market, by Services, 2024 – 2033
      • 9.11.1 Europe Net-Zero Energy Buildings Market, by Services, 2024 – 2033 (USD Million)
    • 9.12 Europe Net-Zero Energy Buildings Market, by End User, 2024 – 2033
      • 9.12.1 Europe Net-Zero Energy Buildings Market, by End User, 2024 – 2033 (USD Million)
    • 9.13. Asia Pacific
      • 9.13.1 Asia Pacific Net-Zero Energy Buildings Market, 2024 – 2033 (USD Million)
        • 9.13.1.1 Asia Pacific Net-Zero Energy Buildings Market, by Country, 2024 – 2033 (USD Million)
    • 9.14 Asia Pacific Net-Zero Energy Buildings Market, by Energy Source, 2024 – 2033
      • 9.14.1 Asia Pacific Net-Zero Energy Buildings Market, by Energy Source, 2024 – 2033 (USD Million)
    • 9.15 Asia Pacific Net-Zero Energy Buildings Market, by Equipment Type, 2024 – 2033
      • 9.15.1 Asia Pacific Net-Zero Energy Buildings Market, by Equipment Type, 2024 – 2033 (USD Million)
    • 9.16 Asia Pacific Net-Zero Energy Buildings Market, by Services, 2024 – 2033
      • 9.16.1 Asia Pacific Net-Zero Energy Buildings Market, by Services, 2024 – 2033 (USD Million)
    • 9.17 Asia Pacific Net-Zero Energy Buildings Market, by End User, 2024 – 2033
      • 9.17.1 Asia Pacific Net-Zero Energy Buildings Market, by End User, 2024 – 2033 (USD Million)
    • 9.18. Latin America
      • 9.18.1 Latin America Net-Zero Energy Buildings Market, 2024 – 2033 (USD Million)
        • 9.18.1.1 Latin America Net-Zero Energy Buildings Market, by Country, 2024 – 2033 (USD Million)
    • 9.19 Latin America Net-Zero Energy Buildings Market, by Energy Source, 2024 – 2033
      • 9.19.1 Latin America Net-Zero Energy Buildings Market, by Energy Source, 2024 – 2033 (USD Million)
    • 9.20 Latin America Net-Zero Energy Buildings Market, by Equipment Type, 2024 – 2033
      • 9.20.1 Latin America Net-Zero Energy Buildings Market, by Equipment Type, 2024 – 2033 (USD Million)
    • 9.21 Latin America Net-Zero Energy Buildings Market, by Services, 2024 – 2033
      • 9.21.1 Latin America Net-Zero Energy Buildings Market, by Services, 2024 – 2033 (USD Million)
    • 9.22 Latin America Net-Zero Energy Buildings Market, by End User, 2024 – 2033
      • 9.22.1 Latin America Net-Zero Energy Buildings Market, by End User, 2024 – 2033 (USD Million)
    • 9.23. The Middle-East and Africa
      • 9.23.1 The Middle-East and Africa Net-Zero Energy Buildings Market, 2024 – 2033 (USD Million)
        • 9.23.1.1 The Middle-East and Africa Net-Zero Energy Buildings Market, by Country, 2024 – 2033 (USD Million)
    • 9.24 The Middle-East and Africa Net-Zero Energy Buildings Market, by Energy Source, 2024 – 2033
      • 9.24.1 The Middle-East and Africa Net-Zero Energy Buildings Market, by Energy Source, 2024 – 2033 (USD Million)
    • 9.25 The Middle-East and Africa Net-Zero Energy Buildings Market, by Equipment Type, 2024 – 2033
      • 9.25.1 The Middle-East and Africa Net-Zero Energy Buildings Market, by Equipment Type, 2024 – 2033 (USD Million)
    • 9.26 The Middle-East and Africa Net-Zero Energy Buildings Market, by Services, 2024 – 2033
      • 9.26.1 The Middle-East and Africa Net-Zero Energy Buildings Market, by Services, 2024 – 2033 (USD Million)
    • 9.27 The Middle-East and Africa Net-Zero Energy Buildings Market, by End User, 2024 – 2033
      • 9.27.1 The Middle-East and Africa Net-Zero Energy Buildings Market, by End User, 2024 – 2033 (USD Million)
  • Chapter 10. Company Profiles
    • 10.1 Schneider Electric SE
      • 10.1.1 Overview
      • 10.1.2 Financials
      • 10.1.3 Product Portfolio
      • 10.1.4 Business Strategy
      • 10.1.5 Recent Developments
    • 10.2 Siemens AG
      • 10.2.1 Overview
      • 10.2.2 Financials
      • 10.2.3 Product Portfolio
      • 10.2.4 Business Strategy
      • 10.2.5 Recent Developments
    • 10.3 Johnson Controls International plc
      • 10.3.1 Overview
      • 10.3.2 Financials
      • 10.3.3 Product Portfolio
      • 10.3.4 Business Strategy
      • 10.3.5 Recent Developments
    • 10.4 Honeywell International Inc.
      • 10.4.1 Overview
      • 10.4.2 Financials
      • 10.4.3 Product Portfolio
      • 10.4.4 Business Strategy
      • 10.4.5 Recent Developments
    • 10.5 Trane Technologies plc
      • 10.5.1 Overview
      • 10.5.2 Financials
      • 10.5.3 Product Portfolio
      • 10.5.4 Business Strategy
      • 10.5.5 Recent Developments
    • 10.6 ABB Ltd.
      • 10.6.1 Overview
      • 10.6.2 Financials
      • 10.6.3 Product Portfolio
      • 10.6.4 Business Strategy
      • 10.6.5 Recent Developments
    • 10.7 General Electric Company
      • 10.7.1 Overview
      • 10.7.2 Financials
      • 10.7.3 Product Portfolio
      • 10.7.4 Business Strategy
      • 10.7.5 Recent Developments
    • 10.8 Legrand SA
      • 10.8.1 Overview
      • 10.8.2 Financials
      • 10.8.3 Product Portfolio
      • 10.8.4 Business Strategy
      • 10.8.5 Recent Developments
    • 10.9 Mitsubishi Electric Corporation
      • 10.9.1 Overview
      • 10.9.2 Financials
      • 10.9.3 Product Portfolio
      • 10.9.4 Business Strategy
      • 10.9.5 Recent Developments
    • 10.10 Daikin Industries Ltd.
      • 10.10.1 Overview
      • 10.10.2 Financials
      • 10.10.3 Product Portfolio
      • 10.10.4 Business Strategy
      • 10.10.5 Recent Developments
    • 10.11 Eaton Corporation plc
      • 10.11.1 Overview
      • 10.11.2 Financials
      • 10.11.3 Product Portfolio
      • 10.11.4 Business Strategy
      • 10.11.5 Recent Developments
    • 10.12 Cree Inc.
      • 10.12.1 Overview
      • 10.12.2 Financials
      • 10.12.3 Product Portfolio
      • 10.12.4 Business Strategy
      • 10.12.5 Recent Developments
    • 10.13 Panasonic Corporation
      • 10.13.1 Overview
      • 10.13.2 Financials
      • 10.13.3 Product Portfolio
      • 10.13.4 Business Strategy
      • 10.13.5 Recent Developments
    • 10.14 SunPower Corporation
      • 10.14.1 Overview
      • 10.14.2 Financials
      • 10.14.3 Product Portfolio
      • 10.14.4 Business Strategy
      • 10.14.5 Recent Developments
    • 10.15 Kingspan Group plc
      • 10.15.1 Overview
      • 10.15.2 Financials
      • 10.15.3 Product Portfolio
      • 10.15.4 Business Strategy
      • 10.15.5 Recent Developments
    • 10.16 Others.
      • 10.16.1 Overview
      • 10.16.2 Financials
      • 10.16.3 Product Portfolio
      • 10.16.4 Business Strategy
      • 10.16.5 Recent Developments
List Of Figures

Figures No 1 to 30

List Of Tables

Tables No 1 to 102

Report Methodology

In order to get the most precise estimates and forecasts possible, Custom Market Insights applies a detailed and adaptive research methodology centered on reducing deviations. For segregating and assessing quantitative aspects of the market, the company uses a combination of top-down and bottom-up approaches. Furthermore, data triangulation, which examines the market from three different aspects, is a recurring theme in all of our research reports. The following are critical components of the methodology used in all of our studies:

Preliminary Data Mining

On a broad scale, raw market information is retrieved and compiled. Data is constantly screened to make sure that only substantiated and verified sources are taken into account. Furthermore, data is mined from a plethora of reports in our archive and also a number of reputed & reliable paid databases. To gain a detailed understanding of the business, it is necessary to know the entire product life cycle and to facilitate this, we gather data from different suppliers, distributors, and buyers.

Surveys, technological conferences, and trade magazines are used to identify technical issues and trends. Technical data is also gathered from the standpoint of intellectual property, with a focus on freedom of movement and white space. The dynamics of the industry in terms of drivers, restraints, and valuation trends are also gathered. As a result, the content created contains a diverse range of original data, which is then cross-validated and verified with published sources.

Statistical Model

Simulation models are used to generate our business estimates and forecasts. For each study, a one-of-a-kind model is created. Data gathered for market dynamics, the digital landscape, development services, and valuation patterns are fed into the prototype and analyzed concurrently. These factors are compared, and their effect over the projected timeline is quantified using correlation, regression, and statistical modeling. Market forecasting is accomplished through the use of a combination of economic techniques, technical analysis, industry experience, and domain knowledge.

Short-term forecasting is typically done with econometric models, while long-term forecasting is done with technological market models. These are based on a synthesis of the technological environment, legal frameworks, economic outlook, and business regulations. Bottom-up market evaluation is favored, with crucial regional markets reviewed as distinct entities and data integration to acquire worldwide estimates. This is essential for gaining a thorough knowledge of the industry and ensuring that errors are kept to a minimum.

Some of the variables taken into account for forecasting are as follows:

• Industry drivers and constraints, as well as their current and projected impact

• The raw material case, as well as supply-versus-price trends

• Current volume and projected volume growth through 2033

We allocate weights to these variables and use weighted average analysis to determine the estimated market growth rate.

Primary Validation

This is the final step in our report’s estimating and forecasting process. Extensive primary interviews are carried out, both in-person and over the phone, to validate our findings and the assumptions that led to them.
Leading companies from across the supply chain, including suppliers, technology companies, subject matter experts, and buyers, use techniques like interviewing to ensure a comprehensive and non-biased overview of the business. These interviews are conducted all over the world, with the help of local staff and translators, to overcome language barriers.

Primary interviews not only aid with data validation, but also offer additional important insight into the industry, existing business scenario, and future projections, thereby improving the quality of our reports.

All of our estimates and forecasts are validated through extensive research work with key industry participants (KIPs), which typically include:

• Market leaders

• Suppliers of raw materials

• Suppliers of raw materials

• Buyers.

The following are the primary research objectives:

• To ensure the accuracy and acceptability of our data.

• Gaining an understanding of the current market and future projections.

Data Collection Matrix

Perspective Primary research Secondary research
Supply-side
  • Manufacturers
  • Technology distributors and wholesalers
  • Company reports and publications
  • Government publications
  • Independent investigations
  • Economic and demographic data
Demand-side
  • End-user surveys
  • Consumer surveys
  • Mystery shopping
  • Case studies
  • Reference customers


Market Analysis Matrix

Qualitative analysis Quantitative analysis
  • Industry landscape and trends
  • Market dynamics and key issues
  • Technology landscape
  • Market opportunities
  • Porter’s analysis and PESTEL analysis
  • Competitive landscape and component benchmarking
  • Policy and regulatory scenario
  • Market revenue estimates and forecast up to 2033
  • Market revenue estimates and forecasts up to 2033, by technology
  • Market revenue estimates and forecasts up to 2033, by application
  • Market revenue estimates and forecasts up to 2033, by type
  • Market revenue estimates and forecasts up to 2033, by component
  • Regional market revenue forecasts, by technology
  • Regional market revenue forecasts, by application
  • Regional market revenue forecasts, by type
  • Regional market revenue forecasts, by component

Prominent Player

  • Schneider Electric SE
  • Siemens AG
  • Johnson Controls International plc
  • Honeywell International Inc.
  • Trane Technologies plc
  • ABB Ltd.
  • General Electric Company
  • Legrand SA
  • Mitsubishi Electric Corporation
  • Daikin Industries Ltd.
  • Eaton Corporation plc
  • Cree Inc.
  • Panasonic Corporation
  • SunPower Corporation
  • Kingspan Group plc
  • Others

FAQs

The key factors driving the Market are Regulatory Mandates and Incentives, Advancements in Technology, Growing Environmental Awareness, Cost Savings and Economic Benefits, Market Expansion, Innovation and Collaboration.

The “Solar Energy” category dominated the market in 2023.

The key players in the market are Schneider Electric SE, Siemens AG, Johnson Controls International plc, Honeywell International Inc., Trane Technologies plc, ABB Ltd., General Electric Company, Legrand SA, Mitsubishi Electric Corporation, Daikin Industries Ltd., Eaton Corporation plc, Cree Inc., Panasonic Corporation, SunPower Corporation, Kingspan Group plc, Others.

“North America” had the largest share in the Net-Zero Energy Buildings Market.

The global market is projected to grow at a CAGR of 18.5% during the forecast period, 2024-2033.

The Net-Zero Energy Buildings Market size was valued at USD 41,690.8 Million in 2024.

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