The global net-zero energy buildings (NZEBs) market is projected to reach USD 79.23 billion by 2025, growing at a CAGR of 15.1% during the forecast period.
The buildings verified by ZNE are those that over the course of time meet the net energy consumption through local renewable energy technologies. Instead of electricity, natural gas and steam, the energy is derived from renewables on site. Although ZNE emerging buildings have stated objectives for almost nil energy, the aims as identified by the ZNE validated buildings are still to be achieved. Such emerging buildings are typically being designed or planned in less than one year's service.
Market Segmentation
Based on Construction
- Residential
- Commercial
The largest share for commercial buildings (98.4%) was kept on the net zero-energy buildings market in 2018 and a CAGR of 15.6% is predicted in the forecast period. Commercial buildings have more floor space, thereby increasing the building's construction value. Governments across countries are adopting policies to move towards construction of NZEBs, with the goal of reducing energy production through fossil fuels.
Geographical Analysis
North America
- U.S.
- Canada
Europe
- Germany
- U.K
- Italy
- Austria
- France
- Norway
- Romania
Asia-Pacific
- China
- India
- Japan
In terms of geographical position, North America had the largest share in the net zero energy buildings market over the historic era. This is primarily due to the goals of cutting emissions of GHGs and reducing the region's energy consumption. In addition, the United States and Canada engaged in a variety of projects to achieve renewable energy use. Europe was the second largest and over 95 percent of the combined North American and European market.
Competitive Landscape and Key Players in the market
Market players have taken numerous strategic steps to achieve a greater share in the global nullification market. For example, in April 2019, Kingspan Group panels KingSeam, KingRib 3 and KingRib 5 were launched on the market. These roofing panels are ideal for NZEB, as they are energized, economical to use and free-of-place foam foam (PIR), with an R-value of 12 for a 1.5-inch panel up to an R-value of 49 for an axis of 6.". These panels are suitable for NZEBs and are suitable for NZEBs.
- Daikin Industries Ltd
- Xtratherm Limited
- Rockwool Group
- Solatube International Inc.
- Kingspan Group plc
Source: VynZ Research