This report describes the global market size of the Net-zero Energy Buildings Market from 2019 to 2022 and its CAGR from 2019 to 2023, and also forecasts its market size to the end of 2031 and is expected to grow with a CAGR of 17.1% from 2024 to 2031.
Due to the COVID-19 pandemic and the Russia-Ukraine War Influence, the global market for Net-zero Energy Buildings Market estimated at US $15.25 Billion in the year 2022, is projected to reach a revised size of US $ 29.41 Billion by 2031, growing at a CAGR of 17.1% during the forecast period 2024-2031.
The net zero energy buildings (NZEB) market refers to the development and adoption of buildings designed to produce as much energy as they consume over the course of a year. These buildings achieve energy neutrality through a combination of highly efficient energy usage and on-site renewable energy generation, typically from sources like solar panels, wind turbines, or geothermal systems. NZEBs are part of a broader movement toward sustainable construction and energy-efficient architecture, driven by increasing environmental concerns and government regulations aimed at reducing carbon footprints. These buildings incorporate advanced technologies like energy-efficient HVAC systems, smart energy management, superior insulation, and energy recovery systems to minimize consumption. The growing focus on reducing greenhouse gas emissions, coupled with rising energy costs, has accelerated the demand for NZEBs across residential, commercial, and industrial sectors. Governments and international organizations are increasingly incentivizing the construction of NZEBs through tax breaks, grants, and regulatory frameworks aimed at achieving net-zero carbon goals. The market's growth is further fueled by advancements in green building materials, smart technologies, and renewable energy systems. NZEBs play a key role in promoting long-term sustainability and reducing dependency on fossil fuels, making them a vital part of the future of urban development and energy conservation.
For the geography segment, regional supply, demand, major players, and price is presented from 2019 to 2031. This report covers the following regions:
North America
Asia-Pacific
Europe
Middle East and Africa
South America
The key countries for each regions are also included such as the United States, China, Japan, India, Korea, ASEAN, Germany, France, UK, Italy, Spain, CIS, and Brazil etc.
For the competitor segment, the report include global key players of Net-zero Energy Buildings Market as well as some small players. The information for each competitor includes:
Company Profile
Main Business Information
SWOT Analysis
Sales Volume, Revenue, Price and Gross Margin
Market Share
By Component
HVAC Systems
Solar PV Systems
Building Envelope
Energy Storage Systems
Lighting Systems
Smart Energy Solutions
The net zero energy buildings (NZEB) market consists of several critical components that work together to ensure energy neutrality. HVAC systems (Heating, Ventilation, and Air Conditioning) are vital for maintaining energy efficiency in NZEBs. Advanced HVAC systems use minimal energy by optimizing heating and cooling, often incorporating heat recovery, geothermal heating, and smart thermostats to reduce energy consumption. Solar PV systems (photovoltaic) are another essential component, responsible for generating renewable energy on-site, typically through solar panels installed on rooftops or building exteriors. These systems convert sunlight into electricity, helping the building produce as much energy as it consumes. The building envelope which includes walls, roofs, windows, and insulation is designed to maximize energy efficiency by reducing heat loss and improving thermal performance. High-performance materials and airtight designs ensure minimal energy wastage.
Energy storage systems play a crucial role by storing excess energy generated during peak production (e.g., sunny days) for use during periods of low generation, ensuring that the building can meet its energy needs consistently. Lighting systems in NZEBs focus on energy-efficient LED lighting, natural daylight integration, and smart lighting controls, further minimizing power usage. Smart energy solutions are used to monitor, control, and optimize the building's overall energy performance. These include building management systems (BMS), which integrate various energy systems, allowing for real-time energy monitoring and adjustments to ensure the building remains energy-neutral. Together, these components form the foundation of the NZEB market, supporting sustainable and energy-efficient building practices.
By Building Type
Residential
Commercial
Institutional
Industrial
The net zero energy buildings (NZEB) market spans various building types, each with unique energy demands and solutions. Residential buildings including single-family homes, apartments, and multifamily housing are a significant focus of the NZEB market. These homes use a combination of energy-efficient appliances, solar power, and smart energy management systems to produce and consume energy sustainably, making them appealing for environmentally conscious homeowners and communities. Commercial buildings such as office spaces, retail stores, and hospitality venues require more complex NZEB solutions due to higher energy demands. In these buildings, advanced HVAC systems, energy-efficient lighting, and renewable energy sources like solar PV systems help manage energy consumption while maintaining comfort and operational efficiency.
Institutional buildings which include schools, hospitals, government offices, and other public facilities are increasingly adopting NZEB strategies to reduce operational costs and meet sustainability goals. These buildings often benefit from large rooftop areas for solar installations and robust energy management systems to handle the diverse energy needs of public services. Industrial buildings face unique challenges due to high energy consumption from machinery, manufacturing processes, and large-scale operations. To achieve net zero energy, industrial facilities often combine on-site renewable energy generation (e.g., solar, wind) with energy-efficient systems for heating, cooling, and lighting. Smart energy solutions are critical in this sector, optimizing energy usage while minimizing waste. Overall, the NZEB market provides tailored solutions for each building type, contributing to the global push toward sustainability and reduced carbon emissions.
By Application
New Construction
Retrofit
The net zero energy buildings (NZEB) market is divided into two key applications: new construction and retrofit projects. New construction involves designing and building structures from the ground up with energy efficiency in mind. This allows architects and developers to integrate advanced technologies like solar PV systems, energy-efficient HVAC, and smart energy management systems directly into the design, ensuring the building meets NZEB standards from inception. Retrofit projects, on the other hand, focus on transforming existing buildings to achieve net zero energy performance. This involves upgrading insulation, replacing inefficient HVAC systems, installing renewable energy sources, and incorporating smart energy solutions. Retrofitting can be more challenging due to the constraints of existing structures, but it is a growing part of the NZEB market as older buildings are updated to meet sustainability goals. Both new construction and retrofits play crucial roles in expanding the reach of NZEBs globally.
Key Players
Altura Associates LLC
Canadian Solar Inc.
Daikin Industries Ltd.
DABITRON Group Canary Islands
General Electric Company
GreenTree Global
Honeywell International Inc.
Integrated Environmental Solutions Ltd.
Johnson Controls International plc
Kingspan Group Plc
Please ask for sample pages for the full companies list
Base Year: 2023
Historical Data: from 2019 to 2023
Forecast Data: from 2024 to 2031
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TABLE OF CONTENTS
Market Taxonomy
1. Executive Summary
1.1. Market Overview
1.2. Market Analysis and Recommendations
1.3. RA Analysis and Recommendations
2. Market Introduction
2.1. Market Definition
3. Market Background
3.1. Parent/Associated Market Overview
3.1.1.Net-zero Energy Buildings Market Outlook
3.1.2.Net-zero Energy Buildings Market Overview
3.2. Effect of Covid-19 Impact
3.3. Macro-Economic Overview
3.3.1. GDP Growth
3.3.2. Retail Industry Growth
3.4. Pricing Analysis
3.5. Challenges related to adoption of Net-zero Energy Buildings Market
3.6. Regulations of Net-zero Energy Buildings Market
3.7. Forecast Factors: Relevance and Impact
3.8. Market Dynamics
3.8.1. Drivers
3.8.2. Restraints
3.8.3. Opportunity
3.8.4. Trends
3.8.5. SWOT Analysis
4. Market Forecast
4.1. Market Value Projections
4.2. Market Size Projections
4.3. Y-o-Y Projections
4.4. Absolute Opportunity Analysis
5. Global Net-zero Energy Buildings Market Value Chain Analysis
5.1.Net-zero Energy Buildings Market Value Chain
5.1.1. List of Raw Building Type Suppliers
5.1.2. List of Net-zero Energy Buildings Market Manufacturer
5.1.3. List of Segment
6. Global Net-zero Energy Buildings Market Analysis by Component
6.1. Introduction
6.1.1. Market Value Share Analysis By Component
6.1.2. Y-o-Y Growth Analysis By Component
6.2. Historical Market Size (USD Mn) Analysis 2018-2022 By Component
6.3. Market Attractiveness Analysis by Component
7. GlobalNet-zero Energy Buildings Market Analysis By Building Type
7.1. Introduction
7.1.1. Market Value Share Analysis By Building Type
7.1.2. Y-o-Y Growth Analysis By Building Type
7.2. Historical Market Size (USD Mn) Analysis 2018-2022 By Building Type
7.3. Market Attractiveness Analysis By Building Type
8. Market Structure Analysis
8.1. Market Analysis by Tier of Companies
8.1.1. By Large, Medium, and Small
8.2. Market Concentration
8.2.1. By Top 5 and by Top 10
8.3. Component ion Capacity Share Analysis
8.3.1. By Large, Medium, and Small
8.3.2. By Top 5 and Top 10
8.4. Component Roadmap
9. Competition Analysis
9.1. Competition Dashboard
9.2. Company Profiles (15 Companies)
9.2.1.Altura Associates LLC
9.2.1.1. Overview
9.2.1.2. Component Portfolio
9.2.1.3. Financial Overview
9.2.2.Canadian Solar Inc.
9.2.2.1. Overview
9.2.2.2. Component Portfolio
9.2.2.3. Financial Overview
9.2.3. Daikin Industries Ltd.
9.2.3.1. Overview
9.2.3.2. Component Portfolio
9.2.3.3. Financial Overview
9.2.4. DABITRON Group Canary Islands
9.2.4.1. Overview
9.2.4.2. Component Portfolio
9.2.4.3. Financial Overview
9.2.5. General Electric Company
9.2.5.1. Overview
9.2.5.2. Component Portfolio
9.2.5.3. Financial Overview
9.2.6.GreenTree Global
9.2.6.1. Overview
9.2.6.2. Component Portfolio
9.2.6.3. Financial Overview
9.2.7.Honeywell International Inc.
9.2.7.1. Overview
9.2.7.2. Component Portfolio
9.2.7.3. Financial Overview
9.2.8.Integrated Environmental Solutions Ltd.
9.2.8.1. Overview
9.2.8.2. Component Portfolio
9.2.8.3. Financial Overview
9.2.9. Johnson Controls International plc
9.2.9.1. Overview
9.2.9.2. Component Portfolio
9.2.9.3. Financial Overview
9.2.10.Kingspan Group Plc
9.2.10.1. Overview
9.2.10.2. Component Portfolio
9.2.10.3. Financial Overview
9.2.11.COMPANY 11
9.2.11.1. Overview
9.2.11.2. Component Portfolio
9.2.11.3. Financial Overview
9.2.12. COMPANY 12
9.2.12.1. Overview
9.2.12.2. Component Portfolio
9.2.12.3. Financial Overview
9.2.13. COMPANY 13
9.2.13.1. Overview
9.2.13.2. Component Portfolio
9.2.13.3. Financial Overview
9.2.14. COMPANY 14
9.2.14.1. Overview
9.2.14.2. Component Portfolio
9.2.14.3. Financial Overview
9.2.15. COMPANY 15
9.2.15.1. Overview
9.2.15.2. Component Portfolio
9.2.15.3. Financial Overview
10. Global Net-zero Energy Buildings Market Analysis By Region
10.1. Introduction
10.1.1. Market Value Share Analysis By Region
10.1.2. Y-o-Y Growth Analysis By Region
10.2. Historical Market Size (USD Mn) Analysis 2018-2022 By Region
10.2.1. North America
10.2.2. Middle East and Africa
10.2.3. South America
10.2.4. Asia-Pacific
10.2.5. Others
10.3. Current Market Size (USD Mn) Forecast 2023-2030 By Region
10.3.1. North America
10.3.2. Middle East and Africa
10.3.3. South America
10.3.4. Asia-Pacific
10.3.5. Others
10.4. Market Attractiveness Analysis By Region
11. North America Net-zero Energy Buildings Market Analysis
11.1. Introduction
11.2. Historical Market Size (USD Mn) Analysis 2018-2022 By Country
11.2.1. U.S.
11.2.2. Canada
11.2.3. Mexico
11.2.4. Rest of North America
11.3. Current Market Size (USD Mn) Forecast 2023-2030 By Country
11.3.1. U.S.
11.3.2. Canada
11.3.3. Mexico
11.3.4. Rest of North America
11.4. Historical Market Size (USD Mn) Analysis 2018-2022 By Component
11.5. Current Market Size (USD Mn) Forecast 2023-2030 By Component
11.6. Historical Market Size (USD Mn) Analysis 2018-2022 By Building Type
11.7. Current Market Size (USD Mn) Forecast 2023-2030 By Building Type
12. South America Net-zero Energy Buildings Market Analysis
12.1. Introduction
12.2. Regional Pricing Analysis
12.3. Historical Market Size (USD Mn) Analysis 2018-2022 By Country
12.3.1. Brazil
12.3.2. Argentina
12.3.3. Rest of South America
12.4. Current Market Size (USD Mn) Forecast 2023-2030 By Country
12.4.1. Brazil
12.4.2. Argentina
12.4.3. Rest of South America
12.5. Historical Market Size (USD Mn) Analysis 2018-2022 By Component
12.6. Current Market Size (USD Mn) Forecast 2023-2030 By Component
12.7. Historical Market Size (USD Mn) Analysis 2018-2022 By Building Type
12.8. Current Market Size (USD Mn) Forecast 2023-2030 By Building Type
13. Europe Net-zero Energy Buildings Market Analysis
13.1. Introduction
13.2. Regional Pricing Analysis
13.3. Historical Market Size (USD Mn) Analysis 2018-2022 By Country
13.3.1. Germany
13.3.2. Italy
13.3.3. France
13.3.4. Spain
13.3.5. U.K.
13.3.6. Rest of Europe
13.4. Current Market Size (USD Mn) Forecast 2023-2030 By Country
13.4.1. Germany
13.4.2. Italy
13.4.3. France
13.4.4. Spain
13.4.5. U.K.
13.4.6. Rest of Europe
13.5. Historical Market Size (USD Mn) Analysis 2018-2022 By Component
13.6. Current Market Size (USD Mn) Forecast 2023-2030 By Component
13.7. Historical Market Size (USD Mn) Analysis 2018-2022 By Building Type
13.8. Current Market Size (USD Mn) Forecast 2023-2030 By Building Type
14. Middle East and Africa Net-zero Energy Buildings Market Analysis
14.1. Introduction
14.2. Regional Pricing Analysis
14.3. Historical Market Size (USD Mn) Analysis 2018-2022 By Country
14.3.1. Saudi Arabia
14.3.2. U.A.E.
14.3.3. South Africa
14.3.4. Turkey
14.3.5. Rest of Middle East and Africa
14.4. Current Market Size (USD Mn) Forecast 2023-2030 By Country
14.4.1. Saudi Arabia
14.4.2. U.A.E.
14.4.3. South Africa
14.4.4. Turkey
14.4.5. Rest of Middle East and Africa
15. Asia-Pacific Net-zero Energy Buildings Market Analysis
15.1. Introduction
15.2. Regional Pricing Analysis
15.3. Historical Market Size (USD Mn) Analysis 2018-2022 By Country
15.3.1. China
15.3.2. India
15.3.3. Japan
15.3.4. South Korea
15.3.5. Singapore
15.3.6. Australia and New Zealand
15.3.7. Rest of Asia-Pacific
15.4. Current Market Size (USD Mn) Forecast 2023-2030 By Country
15.4.1. China
15.4.2. India
15.4.3. Japan
15.4.4. South Korea
15.4.5. Singapore
15.4.6. Australia and New Zealand
15.4.7. Rest of Asia-Pacific
i. Research Methodology
ii. Assumptions & Acronyms
LIST OF FIGURES
Figure 01: Global Net-zero Energy Buildings Market, BPS Analysis,By Component , 2018(H), 2023(E) & 2030(F)
Figure 02: Global Net-zero Energy Buildings Market, Y-O-Y Growth,By Component , 2020(A) - 2030(F)
Figure 03: Global Net-zero Energy Buildings Market Attractiveness Analysis,By Component (2020)
Figure 04: Global Net-zero Energy Buildings Market, BPS Analysis, By Building Type, 2018(H), 2023(E) & 2030(F)
Figure 05: Global Net-zero Energy Buildings Market, Y-O-Y Growth, By Building Type, 2018(H) - 2030(F)
Figure 06: Global Net-zero Energy Buildings Market Attractiveness Analysis, By Building Type
Figure 07: Global Net-zero Energy Buildings Market, Value Analysis,By Component , 2018(H)-2030(F)
Figure 08: Global Net-zero Energy Buildings Market, Value Analysis, by Building Type , 2018(H)-2030(F)
Figure 09: Global Net-zero Energy Buildings Market, BPS Analysis, by Region, 2018(H), 2023(E) & 2030(F)
Figure 10: Global Net-zero Energy Buildings Market, Y-O-Y Growth, by Region, 2018(H) - 2030(F)
Figure 11: Global Net-zero Energy Buildings Market Attractiveness Analysis, by Region
Figure 12: North America Net-zero Energy Buildings Market Value (USD Mn Forecast, 2018 – 2022
Figure 13: North America Net-zero Energy Buildings Market Value (USD Mn Forecast, 2023 – 2030
Figure 14: South America Net-zero Energy Buildings Market Value (USD Mn) Forecast, 2018 – 2022
Figure 15: South America Net-zero Energy Buildings Market Value (USD Mn) Forecast, 2023 – 2030
Figure 16: Europe Net-zero Energy Buildings Market Value (USD Mn) Forecast, 2018 – 2022
Figure 17: Europe Net-zero Energy Buildings Market Value (USD Mn) Forecast, 2023 – 2030
Figure 18: Middle East and Africa Net-zero Energy Buildings Market Value (USD Mn) Forecast, 2018 – 2022
LIST OF TABLES
Table 01: Global Net-zero Energy Buildings Market Value (USD Mn) Forecast, By Component , 2018(H) – 2030(F)
Table 02: Global Net-zero Energy Buildings Market Value (USD Mn) Forecast, By Building Type, 2018(H) – 2030(F)
Table 03: Global Net-zero Energy Buildings Market Value (USD Mn) Forecast, By Country, 2018(H) – 2030(F)
Table 04: North America Net-zero Energy Buildings Market Value (USD Mn) Forecast, by Country, 2018(H) – 2030(F)
Table 05: North America Net-zero Energy Buildings Market Value (USD Mn) Forecast,By Component , 2018(H) – 2030(F)
Table 06: North America Net-zero Energy Buildings Market Value (USD Mn) Forecast, By Building Type, 2018(H) – 2030(F)
Table 07: South America Net-zero Energy Buildings Market Value (USD Mn) Forecast, By Country, 2018(H) – 2030(F)
Table 08: South America Net-zero Energy Buildings Market Value (USD Mn) Forecast,By Component , 2018(H) – 2030(F)
Table 09: South America Net-zero Energy Buildings Market Value (USD Mn) Forecast, By Building Type, 2018(H) – 2030(F)
Table 10: Europe Net-zero Energy Buildings Market Value (USD Mn) and Forecast, by Country, 2018(H) – 2030(F)
Table 11: Europe Net-zero Energy Buildings Market Value (USD Mn) Forecast, By Component , 2018(H) – 2030(F)
Table 12: Europe Net-zero Energy Buildings Market Value (USD Mn) Forecast, By Building Type EndUser, 2018(H) – 2030(F)
Table 13: Middle East and Africa Net-zero Energy Buildings Market Value (USD Mn) Forecast, By Country, 2018(H) – 2030(F)
Table 14: Middle East and Africa Net-zero Energy Buildings Market Value (USD Mn) Forecast, By Component , 2018(H) – 2030(F)
Table 15: Middle East and Africa Net-zero Energy Buildings Market Value (USD Mn) Forecast, By Building Type, 2018(H) – 2030(F)
Table 16: Asia-Pacific Net-zero Energy Buildings Market Value (USD Mn) Forecast, by Country, 2018(H) – 2030(F)
Table 17: Asia-Pacific Net-zero Energy Buildings Market Value (USD Mn) Forecast, By Component , 2018(H) – 2030(F)
Table 18: Asia-Pacific Net-zero Energy Buildings Market Value (USD Mn) Forecast, By Building Type, 2018(H) – 2030(F)
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