Global Zero Energy Buildings (ZEB) Promise New Efficiency Beyond Cost and Innovative Technologies, 2020

Global Zero Energy Buildings (ZEB) Promise New Efficiency Beyond Cost and Innovative Technologies, 2020

Integrated Configurations in Monitoring and Tracking Functions will Lead New ZEB Development

RELEASE DATE
07-Dec-2020
REGION
Global
Research Code: PB28-01-00-00-00
SKU: EN01218-GL-MT_24858
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Description

The global energy demand from the building and construction sector continues to rise, mainly due to rapid expansion of buildings’ floor area and global climate change. Ambitious, yet compelling, zero energy buildings (ZEB) are deemed to directly and effectively address the global issues on climate change and energy scarcity.

As defined in this study, ZEB is ideally a self-sufficient building, where its total energy consumption can be 100% met on an annual basis by reducing total building energy consumption using energy-efficient (EE) measures and increasing on-site renewable energy (RE) generation. Different from a green building, a ZEB concerns the operational output, i.e., the energy performance of a building. In the long run, ZEB brings benefits in term of operational costs and carbon footprint reduction.

The ZEB market is still emerging. To date, less than 1% of the buildings in the world are ZEB certified. The market revenue of ZEB in 2019 as determined in this study was $86.1 million. The market is expected to register a CAGR of 7.4% from 2019 to 2024. Growth will mainly be driven by the strong commitment from developed and developing economies in pursuing ZEB targets, the enforcement of stringent global building codes and standards, and the advancement in building technologies as a result of continuous research and development (R&D) activities. Nevertheless, there are some market restraints. The ambiguous and inconsistency issues faced in the ZEB industry have resulted in the absence of a universally approved definition and approach to ZEB. In addition, the current up-front cost for deploying ZEB technologies is high, and most building occupants are not ready for large-scale ZEB adaption.

In this study, the ZEB market is segmented into 5 technological segments: high-performance heating, ventilation and air-conditioning (HVAC) Systems, energy-efficient lightings, solar photovoltaic (PV) systems, solar thermal systems, and energy-efficient building envelope materials. Besides, the market is also analyzed by geographical regions: North America, Europe, and Asia-Pacific. The market sizing and forecast analysis for these segments are also presented in this research service.

Other than that, this study also includes:
• Review of the ZEB regulatory framework for the segmented regions
• Competitive analysis of selected market participants that exhibit active participation and evident contribution in the global ZEB market
• Global ZEB case studies

Last but not least, 4 growth opportunities associated with the global ZEB market development in the next 5 years have been identified and elaborated at the end of this research service.

Table of Contents

Why Is It Increasingly Difficult to Grow?

The Strategic Imperative 8™

The Impact of the Top Three Strategic Imperatives on the Zero Energy Buildings (ZEB) Industry

Growth Opportunities Fuel the Growth Pipeline Engine™

Zero Energy Buildings—Scope of Analysis

Zero Energy Buildings—Definitions

Zero Energy Buildings—Definitions (continued)

ZEB Market Segmentation

Current ZEB Market Penetration

ZEB Technologies Explained

Key Competitors in Global ZEB by Segment

Key Growth Metrics for ZEB

Distribution Channels for ZEB

Growth Drivers for ZEB

Growth Driver Analysis for ZEB

Growth Driver Analysis for ZEB (continued)

Growth Driver Analysis for ZEB (continued)

Growth Driver Analysis for ZEB (continued)

Growth Driver Analysis for ZEB (continued)

Growth Driver Analysis for ZEB (continued)

Growth Driver Analysis for ZEB (continued)

Growth Driver Analysis for ZEB (continued)

Growth Driver Analysis for ZEB (continued)

Growth Driver Analysis for ZEB (continued)

Growth Driver Analysis for ZEB (continued)

Growth Restraints for ZEB

Growth Restraint Analysis for ZEB

Growth Restraint Analysis for ZEB (continued)

Forecast Assumptions, ZEB

Revenue Forecast, ZEB

Revenue Forecast Analysis, ZEB

Revenue Forecast by Building Type, ZEB

Revenue Forecast Analysis by Building Type, ZEB

Revenue Forecast by Region, ZEB

Revenue Forecast Analysis by Region, ZEB

Revenue Forecast by Technology, ZEB

Revenue Forecast Analysis by Technology, ZEB

Pricing Trends by Technology, ZEB

Competitive Environment, ZEB

Market Share Analysis, ZEB

Competitive Analysis by Technology Segment

Competitive Analysis by Technology Segment (continued)

Competitive Analysis by Technology Segment (continued)

Competitive Analysis by Technology Segment (continued)

Competitive Analysis by Technology Segment (continued)

Competitive Analysis by Technology Segment (continued)

ZEB Demonstration—Technology Mapping

ZEB Demonstration—Technology Mapping (continued)

ZEB Demonstration—Research Support Facility (RSF) in Golden, Colorado, US

ZEB Demonstration—Windsor Park Net Zero House in Edmonton, Alberta, Canada

ZEB Demonstration—Hauptschule Schrobenhausen in Schrobenhausen, Germany

ZEB Demonstration—Indira Paryavaran Bhawan in New Delhi, India

ZEB Demonstration—PIXEL in Melbourne, Australia

ZEB Demonstration—SDE4, Singapore

ZEB Demonstration—China Academy of Building Research Nearly Zero Energy Building in Beijing, China

Key Growth Metrics for High Performance HVAC Systems

Revenue Forecast, High-performance HVAC Systems

Revenue Forecast by Region, High-performance HVAC Systems

Revenue Forecast Analysis, High-performance HVAC Systems

Key Growth Metrics for Energy-efficient Lightings

Revenue Forecast, Energy-efficient Lightings

Revenue Forecast by Region, Energy-efficient Lightings

Revenue Forecast Analysis, Energy-efficient Lightings

Key Growth Metrics for Solar PV Systems

Revenue Forecast, Solar PV Systems

Revenue Forecast by Region, Solar PV Systems

Revenue Forecast Analysis, Solar PV Systems

Key Growth Metrics for Solar Thermal Systems

Revenue Forecast, Solar Thermal Systems

Revenue Forecast by Region, Solar Thermal Systems

Revenue Forecast Analysis, Solar Thermal Systems

Revenue Forecast Analysis, Solar Thermal Systems (continued)

Key Growth Metrics for Energy-efficient Building Envelope Materials

Revenue Forecast, Energy-efficient Building Envelope Materials

Revenue Forecast by Region, Energy-efficient Building Envelope Materials

Revenue Forecast Analysis, Energy-efficient Building Envelope Materials

Growth Opportunity 1—Streamlined Tracking and Monitoring Processes for an Updated Global ZEB Database

Growth Opportunity 1—Streamlined Tracking and Monitoring Processes for an Updated Global ZEB Database (continued)

Growth Opportunity 2—Integrated ZEB Configuration for Optimum Building Performance

Growth Opportunity 2—Integrated ZEB Configuration for Optimum Building Performance (continued)

Growth Opportunity 3—Partnership and Convergence for Total Solution Offerings

Growth Opportunity 3—Partnership and Convergence for Total Solution Offerings (continued)

Growth Opportunity 4—Certification to Promote ZEB Uptake

Growth Opportunity 4—Certification to Promote ZEB Uptake (continued)

Acronyms

Your Next Steps

Why Frost, Why Now?

List of Exhibits

List of Exhibits (continued)

List of Exhibits (continued)

Legal Disclaimer

The global energy demand from the building and construction sector continues to rise, mainly due to rapid expansion of buildings’ floor area and global climate change. Ambitious, yet compelling, zero energy buildings (ZEB) are deemed to directly and effectively address the global issues on climate change and energy scarcity. As defined in this study, ZEB is ideally a self-sufficient building, where its total energy consumption can be 100% met on an annual basis by reducing total building energy consumption using energy-efficient (EE) measures and increasing on-site renewable energy (RE) generation. Different from a green building, a ZEB concerns the operational output, i.e., the energy performance of a building. In the long run, ZEB brings benefits in term of operational costs and carbon footprint reduction. The ZEB market is still emerging. To date, less than 1% of the buildings in the world are ZEB certified. The market revenue of ZEB in 2019 as determined in this study was $86.1 million. The market is expected to register a CAGR of 7.4% from 2019 to 2024. Growth will mainly be driven by the strong commitment from developed and developing economies in pursuing ZEB targets, the enforcement of stringent global building codes and standards, and the advancement in building technologies as a result of continuous research and development (R&D) activities. Nevertheless, there are some market restraints. The ambiguous and inconsistency issues faced in the ZEB industry have resulted in the absence of a universally approved definition and approach to ZEB. In addition, the current up-front cost for deploying ZEB technologies is high, and most building occupants are not ready for large-scale ZEB adaption. In this study, the ZEB market is segmented into 5 technological segments: high-performance heating, ventilation and air-conditioning (HVAC) Systems, energy-efficient lightings, solar photovoltaic (PV) systems, solar thermal systems, and energy-efficient building envelope materials. Besides, the market is also analyzed by geographical regions: North America, Europe, and Asia-Pacific. The market sizing and forecast analysis for these segments are also presented in this research service. Other than that, this study also includes: • Review of the ZEB regulatory framework for the segmented regions • Competitive analysis of selected market participants that exhibit active participation and evident contribution in the global ZEB market • Global ZEB case studies Last but not least, 4 growth opportunities associated with the global ZEB market development in the next 5 years have been identified and elaborated at the end of this research service.
More Information
No Index No
Podcast No
Predecessor NA
Author Wen Hui Liu
Industries Environment
WIP Number PB28-01-00-00-00
Is Prebook No
GPS Codes 9343-A4,GETE