The Global Building Energy Simulation Software market is estimated to surpass the valuation of US$ 17.8 Bn by the end of 2030
Researchers, software developers, and policymakers play an essential role in maximizing the value of building performance simulation in the design and operation of low-energy buildings. However, software developers in building energy simulation software market must address the challenge of modeling human-building interactions. To achieve this, developers are introducing environment-adaptive occupant behavior models in simulation software. In addition, to increase reliability in market environments, companies are developing software compliant with Zero Net Energy (ZNE) and grid-ready buildings.
The concept of zero-net-energy buildings is gaining popularity in the market environment. This is acting as a key driver for market growth as building performance modeling and energy modeling have become inseparable parts of the design and construction industry. As such, the company is increasing the availability of thermal comfort models that adapt to the building's daytime lighting. Therefore, to overcome the performance gap problem of software solutions, companies are developing software to support building performance targets and rating validation.
Market Dynamics:
Drivers:
Building energy simulation software integrates with building information modeling tools to improve energy management and analysis processes. Building energy simulation software enables architects, researchers, and engineers to study and analyze the energy consumption of different endpoints such as lighting, ventilation, air conditioning, heating, plug-and-process loads, and the water consumption of building infrastructure.
Architects and engineers are focusing on developing different ways to build modern and sustainable infrastructure using advanced building solutions and building energy consumption modeling solutions. These advanced solutions are utilized for retrofit design, green certification, regulatory compliance, utility incentives, and tax credit eligibility, and provide real-time building control to end users.
Restraints:
In addition to daylight lighting, the company focuses on providing users with illustrative options, providing simulation tools for façade design and compliance in construction applications. However, manufacturers must address the challenges of city-scale building energy modeling. Therefore, companies in the building energy simulation software market must develop software that supports the city-scale building energy and efficiency measures necessary to meet energy and environmental targets. As such, companies are turning the wheels of collaboration to increase the availability of standards-compliant software that meets energy regulations and reduces carbon emissions.
Key players:
-
4M S.A.
-
Autodesk, Inc.
-
Batia Construction
-
Carmel Software Corporation
-
Carrier Corporation
-
DesignBuilder Software Ltd
-
EDSL (Environmental Design Solutions Ltd)
-
EnergyCAP, Inc.
-
EnergyPeriscope (Solar Investments Inc.)
-
IES (Integrated Environmental Solutions) Limited
-
Lighting Analysts, Inc.
-
OpenStudio (Alliance for Sustainable Energy, LLC)
-
Performance Systems Development
-
Radiance Energy, Inc.
-
Sefaira
-
SketchUp (Trimble Inc.)
-
Snugg Home, LLC
-
Thermal Dynamics, Inc.
-
Thermal Energy System Specialists, LLC
-
Trane Technologies Company, LLC
-
TRNSYS (Thermal Energy System Specialists, LLC)
-
AcousticCalc, Cove Tool, Inc.
-
EnergyElephant
-
EnergyPlus
-
eQUEST (DOE-2)
-
kW Engineering, Inc.
-
Ladybug Tools LLC
-
QwickLoad (HVAC SOFT, INC)
-
Spot Pro (Daylighting Innovations)
Market Segmentation:
Building Energy Simulation Software Market, By Component,
-
Software
-
platform,
-
services.
Building Energy Simulation Software Market, By Deployment,
-
cloud,
-
on-premise.
Building Energy Simulation Software Market, By End-user,
-
owner,
-
builder,
-
researcher
Building Energy Simulation Software Market, By Region:
-
North America
-
US
-
Canada
-
-
Europe
-
UK
-
Germany
-
France
-
Rest of Europe
-
-
APAC
-
China
-
Japan
-
ANZ
-
Rest of APAC
-
-
MEA
-
UAE
-
KSA
-
South Africa
-
Rest of MEA
-
-
Latin America
-
Brazil
-
Mexico
-
Rest of Latin America
-
Regional Analysis:
According to the US Department of Energy, commercial buildings consume nearly xx% of the energy produced in the United States, while commercial and residential buildings emit about xx% of greenhouse gas emissions. Additionally, the US Energy Information Administration cites commercial buildings as consuming more than xx% of the electricity generated in the United States.
With these high rates of consumption and pollution, making buildings around the world more efficient represents a significant opportunity to help reduce energy waste and reduce environmental impact. BEMS is just one of many tools available to help make buildings run more efficiently.
Scope of the Report:
Report Metric |
Details |
Market Size Available for Years |
2020–2030 |
Base Year Considered |
2020 |
Forecast Period |
2021–2030 |
Forecast Unit |
Value (USD) |
Segments Covered |
Offering, Technology, Application, End-User, and Region |
Regions Covered |
North America, Europe, Asia-Pacific, and LAMEA |
Companies Covered |
4M S.A., Autodesk, Inc., Batia Construction, Carmel Software Corporation, Carrier Corporation, DesignBuilder Software Ltd, EDSL (Environmental Design Solutions Ltd), EnergyCAP, Inc., EnergyPeriscope (Solar Investments Inc.), IES (Integrated Environmental Solutions) Limited, Lighting Analysts, Inc., OpenStudio (Alliance for Sustainable Energy, LLC), Performance Systems Development, Radiance Energy, Inc., Sefaira, SketchUp (Trimble Inc.), Snugg Home, LLC, Thermal Dynamics, Inc., Thermal Energy System Specialists, LLC, Trane Technologies Company, LLC, TRNSYS (Thermal Energy System Specialists, LLC), AcousticCalc, Cove Tool, Inc., EnergyElephant, EnergyPlus, eQUEST (DOE-2), kW Engineering, Inc., Ladybug Tools LLC, QwickLoad (HVAC SOFT, INC), Spot Pro (Daylighting Innovations) |
User
Tab Content
Introduction
Our market research is an extensive, iterative process that takes into account a combination of primary and secondary research tools with the aim of minimizing deviation and producing the most precise estimate and prediction. For the future course of action, this approach meticulously outlines the actual changes and industry trends. It gives incredibly valuable data that is drawn from the insights and opinions of analysts and professionals. Our papers include in-depth research and analysis based on several factual inputs obtained from expert interviews, accurate data, and local information.
Market Size Estimation
The overall size of the market has been estimated and validated using both top-down and bottom-up methods. The sizes of other market subsegments have also been thoroughly estimated using these methodologies.
In the top-down technique, the market is divided into segments based on the percentage share of each segment. This method assisted in determining the size of each segment's market. The market size of each segment and its sub-segments was then divided into regional market sizes. This Approach helps mainly with the new Product Launch. It uses Multi-variate Regression Model coupled with Vendor based primary research inputs to forecast to the Market Size.
In the Bottom-Up approach, comprehensive study of key players has to be done wherein we add the market size of the major key players to understand the national market size which helps to determine the regional market size and eventually the complete market size. Companies annual report along with data from paid and unpaid resources like reports from government agencies and organizations like world bank provide the data for this approach.
Avail 25% Discount
Report Benefits
-
Free Customization Available
-
30% discount on your next purchase
-
Dedicated account manager
-
Query resolution within 24 hours
-
Permission to print the report