Energy Efficient Construction Market - Global Industry Size, Share, Trends, Opportunity, and Forecast, Segmented By Product Type (Insulation Materials, Energy-Efficient Windows, Energy-Efficient Lighting, HVAC Systems, Solar Energy Systems, Smart Building Solutions), By Application (New Construction, Renovation and Retrofit), By Component (Building Envelope, Heating, Ventilation, and Air Conditioning (HVAC), Lighting, Renewable Energy Systems, Building Automation and Controls), By Region, and By Competition, 2020-2030F

Market Overview

The Global Energy Efficient Construction Market was valued at USD 1.69 billion in 2024 and is expected to reach USD 2.94 billion by 2030 with a CAGR of 9.53% during the forecast period.

The Energy Efficient Construction Market refers to the industry focused on designing, building, and renovating structures to minimize energy consumption while maximizing performance, comfort, and environmental sustainability. This market encompasses a wide range of products, technologies, and practices aimed at reducing the carbon footprint of buildings and improving energy usage through smart design, advanced materials, and efficient building systems. These include insulation materials, energy-efficient windows, smart lighting, heating, ventilation and air conditioning (HVAC) systems, renewable energy installations such as solar panels, and intelligent building automation systems that optimize energy use in real-time.

The market is witnessing significant growth due to increasing global emphasis on climate change mitigation, rising energy costs, and strict regulatory frameworks mandating energy efficiency in new and existing buildings. Government initiatives, such as green building codes, energy performance standards, and financial incentives for sustainable construction, are further propelling market expansion. Additionally, certifications such as LEED (Leadership in Energy and Environmental Design), BREEAM (Building Research Establishment Environmental Assessment Method), and Energy Star are pushing both private and public sector developers to adopt energy-efficient solutions.

Key Market Drivers

Regulatory Mandates and Green Building Standards

The Energy Efficient Construction Market is experiencing significant growth due to stringent regulatory mandates and the widespread adoption of green building standards aimed at reducing environmental impact and promoting sustainability. Governments worldwide are implementing policies that require new constructions and renovations to meet rigorous energy efficiency criteria, such as net-zero energy goals and reduced carbon emissions. Standards like LEED, BREEAM, and local building codes, such as the European Union’s Energy Performance of Buildings Directive, are driving the integration of energy-efficient materials, designs, and technologies in construction projects.

These regulations often mandate the use of high-performance insulation, energy-efficient HVAC systems, and renewable energy sources, such as solar panels, to minimize energy consumption. For example, in the United States, federal and state incentives encourage the adoption of energy-efficient technologies through tax credits and grants, while in Asia, countries like Singapore and Japan enforce strict building codes to support sustainable urban development. The push for compliance is compelling developers, architects, and contractors to prioritize energy-efficient solutions, such as advanced glazing systems, green roofs, and smart building technologies that optimize energy use.

These mandates are particularly impactful in commercial and institutional projects, where large-scale buildings must meet stringent performance targets to obtain permits. Additionally, public sector projects, such as schools and government facilities, are increasingly required to achieve energy efficiency certifications, further driving demand for specialized materials and expertise. While compliance can increase upfront costs, the long-term benefits of reduced operational expenses and enhanced property values are incentivizing adoption.

The Energy Efficient Construction Market is also benefiting from growing consumer awareness of sustainability, as tenants and buyers prioritize buildings with lower energy costs and environmental footprints. Challenges such as navigating complex regulatory frameworks and ensuring cost-effective implementation remain, but the global commitment to combating climate change through policy-driven initiatives ensures sustained growth in the market, positioning energy-efficient construction as a cornerstone of modern building practices.

In 2024, over 28,000 buildings globally achieved LEED or BREEAM certification, a 35% increase from 2021, per industry records. Government incentives for energy-efficient construction reached USD500 billion, with 60% of new public projects mandating net-zero energy standards, reflecting the impact of regulatory mandates on the Energy Efficient Construction Market.

Rising Energy Costs Driving Demand for Efficiency

Escalating energy costs are a pivotal driver of the Energy Efficient Construction Market, as stakeholders seek to mitigate the financial burden of high utility expenses through sustainable building practices. With global energy prices rising due to geopolitical uncertainties, supply chain disruptions, and increased demand, property owners and developers are prioritizing energy-efficient designs to reduce long-term operational costs.

Technologies such as high-performance insulation, energy-efficient windows, and smart HVAC systems are being widely adopted to minimize energy consumption in residential, commercial, and industrial buildings. For instance, double- or triple-glazed windows with low-emissivity coatings can reduce heat loss by up to 50%, while advanced insulation materials like spray foam and aerogel enhance thermal performance. The integration of renewable energy systems, such as solar photovoltaic panels and geothermal heat pumps, is also gaining traction, enabling buildings to generate their own energy and reduce reliance on costly grid power.

In commercial real estate, where energy costs can account for a significant portion of operating budgets, energy-efficient retrofitting is becoming a priority to enhance profitability and tenant satisfaction. The residential sector is similarly affected, as homeowners seek to lower utility bills through energy-efficient upgrades, such as LED lighting and smart thermostats. The Energy Efficient Construction Market is further supported by advancements in building management systems (BMS), which use real-time data to optimize energy usage and improve efficiency. While the initial investment in energy-efficient technologies can be substantial, the return on investment through reduced energy bills and increased property values is driving adoption.

In regions with volatile energy markets, such as Europe and parts of Asia, the demand for energy-efficient construction is particularly pronounced. The market is also benefiting from growing awareness of the financial and environmental benefits of energy efficiency, encouraging stakeholders to prioritize sustainable solutions despite upfront costs, ensuring robust market growth.

In 2024, global energy prices rose by 18%, prompting a 40% increase in energy-efficient retrofitting projects, per construction data. Over 15,000 commercial buildings adopted smart HVAC systems, reducing energy costs by 25%, while 2 million residential units installed energy-efficient windows, reflecting the market’s response to rising energy costs.

Technological Advancements in Energy-Saving Materials and Systems

Technological advancements in energy-saving materials and systems are significantly propelling the Energy Efficient Construction Market by enabling innovative solutions that enhance building performance and reduce energy consumption. Developments in materials science have led to the creation of high-performance insulation, such as vacuum insulation panels and phase-change materials, which offer superior thermal resistance with minimal thickness. Similarly, advancements in glazing technologies, such as electrochromic and thermochromic windows, allow for dynamic control of heat and light, optimizing energy use in real time.

Smart building technologies, including IoT-enabled sensors and automated building management systems, are revolutionizing energy efficiency by monitoring and adjusting lighting, heating, and cooling based on occupancy and environmental conditions. For example, smart thermostats can reduce energy consumption by up to 20% by learning occupant patterns and optimizing temperature settings. The integration of renewable energy systems, such as building-integrated photovoltaics (BIPV) and small-scale wind turbines, is also expanding, enabling buildings to generate clean energy on-site.

These technologies are particularly critical in large-scale projects, such as commercial complexes and institutional buildings, where energy demands are high. Additionally, advancements in construction techniques, such as modular and prefabricated building systems, are improving energy efficiency by reducing waste and ensuring precise installation of energy-saving components. The Energy Efficient Construction Market is also benefiting from digital tools like Building Information Modeling (BIM), which enable architects and engineers to simulate energy performance during the design phase, optimizing efficiency before construction begins.

While the adoption of advanced technologies requires investment in training and infrastructure, their ability to reduce operational costs and meet regulatory requirements is driving widespread adoption. The market is poised for growth as manufacturers continue to innovate, offering cost-effective and scalable solutions that cater to diverse construction needs.

In 2024, 65% of new construction projects incorporated smart building technologies, reducing energy consumption by 20%, per industry data. Over 10,000 buildings adopted advanced insulation materials, achieving a 30% reduction in heat loss, while 5,000 projects integrated BIPV systems, generating 1.2 gigawatts of clean energy annually.

Growing Consumer Demand for Sustainable Buildings

Increasing consumer demand for sustainable buildings is a major driver of the Energy Efficient Construction Market, as environmentally conscious buyers and tenants prioritize properties with lower energy costs and reduced environmental impact. Awareness of climate change and sustainability is influencing purchasing decisions, with consumers seeking homes and commercial spaces that align with green living principles.

Energy-efficient buildings, equipped with features like solar panels, high-efficiency HVAC systems, and sustainable materials, offer significant savings on utility bills, making them attractive to cost-conscious buyers. For example, residential properties with energy-efficient certifications can command a premium of up to 10% in property value, while commercial tenants prefer buildings with lower operating costs to enhance profitability. The rise of eco-conscious millennials and Gen Z buyers, who prioritize sustainability in their purchasing decisions, is further driving demand for energy-efficient construction.

Developers are responding by incorporating green features, such as passive design elements, green roofs, and water-saving systems, to meet market expectations. In urban areas, where space constraints and environmental concerns are pronounced, energy-efficient buildings are becoming a competitive differentiator, attracting tenants and investors.

The Energy Efficient Construction Market is also benefiting from marketing campaigns by builders and industry associations that highlight the benefits of energy-efficient homes, such as improved indoor air quality and comfort. While the higher upfront costs of energy-efficient features can deter some developers, the growing willingness of consumers to pay a premium for sustainability is overcoming this barrier, ensuring strong market growth.

In 2024, 70% of homebuyers prioritized energy-efficient features, boosting demand for certified properties by 25%, per real estate data. Over 3 million residential units incorporated energy-efficient designs, while 8,000 commercial buildings achieved energy savings of 15%, reflecting consumer-driven demand for sustainable construction.

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Key Market Challenges

High Initial Investment and Cost Sensitivity

One of the most significant challenges hindering the widespread adoption of energy efficient construction practices is the high initial investment cost. Despite the long-term financial and environmental benefits, many developers and stakeholders in the construction industry are deterred by the upfront expenses associated with energy efficient technologies and materials. These may include high-performance insulation, triple-glazed windows, energy-efficient HVAC systems, solar photovoltaic installations, and intelligent building automation systems.

The costs for these solutions often exceed those of traditional construction alternatives, making them less attractive to cost-sensitive developers, especially in emerging markets. Additionally, limited access to financing options for sustainable building projects further exacerbates the problem, particularly for small and medium-sized enterprises. This challenge is especially pronounced in the residential sector, where homeowners may prioritize immediate affordability over future energy savings.

Moreover, even though many governments offer incentives and rebates for energy efficient construction, the awareness and accessibility of these financial mechanisms remain limited in several regions. In some cases, the administrative complexity involved in applying for such benefits also discourages adoption. Without clear, easily accessible pathways to financial support or long-term return on investment education, the market for energy efficient construction faces resistance from budget-conscious builders and property owners.

As a result, high upfront costs remain a major barrier to the acceleration of green building practices, despite increasing regulatory pressure and consumer interest. Addressing this challenge requires a coordinated effort from policymakers, financial institutions, and technology providers to design more attractive and accessible financing models, demonstrate lifecycle cost savings effectively, and promote scalable solutions that reduce per-unit costs. Only through such comprehensive measures can the energy efficient construction market overcome the hurdle of affordability and achieve broader market penetration.

Lack of Skilled Workforce and Technical Expertise

The transition to energy efficient construction requires a specialized skill set and technical expertise that are currently lacking across many regions. This deficiency poses a considerable challenge to the market’s growth, as successful implementation of energy efficient technologies demands in-depth knowledge of design principles, building materials, energy modeling, and integration of complex systems such as smart sensors, HVAC controls, and renewable energy sources. Architects, engineers, construction contractors, and facility managers often lack formal training or practical experience in applying energy efficiency concepts effectively, leading to suboptimal performance or system failures.

The absence of standardized training programs and certifications across global markets further compounds this issue, resulting in inconsistent application of energy efficiency principles across projects. Additionally, in many developing economies, vocational education systems have not yet evolved to incorporate sustainable construction practices, leaving a significant gap between market demand and available talent. Even in more developed markets, the fast pace of technological advancement in building materials and energy systems has outstripped the current capabilities of the workforce.

This mismatch hampers not only project execution but also discourages investors and developers from embracing energy efficient construction due to the risk of implementation errors and associated cost overruns. Furthermore, inadequate collaboration between academic institutions, professional training bodies, and the construction industry has stalled efforts to develop a future-ready workforce capable of supporting the industry’s evolving demands. To address this challenge, stakeholders must invest in comprehensive workforce development programs, update academic curricula to reflect modern sustainability standards, and facilitate industry certification pathways.

Collaborative platforms that bring together manufacturers, training institutions, and government agencies are essential to fostering technical competency and ensuring quality assurance in energy efficient construction projects. Without resolving the human capital gap, the market’s potential to deliver on its environmental and economic promises will remain constrained.

Key Market Trends

Integration of Smart Building Technologies

One of the most significant trends transforming the energy efficient construction market is the growing integration of smart building technologies. As energy regulations become more stringent and the demand for operational efficiency rises, construction stakeholders are increasingly adopting smart systems that enable real-time energy monitoring, predictive maintenance, and automated environmental controls. These systems include advanced sensors, smart meters, Internet of Things-enabled devices, and centralized building management systems that optimize heating, cooling, lighting, and ventilation based on occupancy patterns and external conditions.

The integration of smart technologies is particularly impactful in commercial buildings, where energy use patterns are complex and utility costs are substantial. By leveraging data analytics, artificial intelligence, and machine learning, building owners can significantly reduce energy consumption, extend the life of mechanical systems, and improve occupant comfort. Moreover, smart technologies facilitate compliance with energy performance standards and sustainability certifications by providing detailed usage data and energy efficiency metrics.

As construction becomes more digitized, smart energy systems are being embedded into building information modeling workflows, allowing for energy simulations during the design phase. This enables architects and engineers to make more informed decisions regarding material selection, insulation, window placement, and renewable energy integration before construction begins.

Global investments in smart cities and digital infrastructure are further accelerating this trend, as municipalities require intelligent and energy-responsive buildings to support urban growth. In parallel, the proliferation of cloud computing and 5G connectivity is making smart building solutions more accessible and scalable, even in smaller commercial or residential projects.

Manufacturers and construction firms are responding by offering integrated smart energy packages and collaborating with technology providers to deliver turnkey energy-efficient solutions. As energy costs continue to rise and environmental accountability intensifies, the integration of smart building technologies is expected to become a standard rather than an exception, fundamentally reshaping the competitive landscape of the energy efficient construction market.

Rise of Net-Zero Energy Buildings

The concept of net-zero energy buildings is gaining considerable traction and is emerging as a defining trend in the energy efficient construction market. Net-zero energy buildings are designed to produce as much energy as they consume on an annual basis through a combination of advanced energy-saving measures and on-site renewable energy generation. This model aligns with global decarbonization goals and growing demand for environmentally responsible construction practices.

Governments, especially in Europe and North America, are actively promoting net-zero energy construction through policy incentives, regulatory mandates, and public-private partnerships. For example, the European Union’s Energy Performance of Buildings Directive requires all new buildings to be nearly zero-energy by a specified timeline. In response, the market has witnessed a surge in the integration of photovoltaic systems, geothermal heating, and passive solar design techniques into residential and commercial buildings.

The private sector is also embracing this trend as part of environmental, social, and governance strategies. Corporate real estate developers, institutional investors, and even retail chains are investing in net-zero buildings to reduce long-term operational costs and meet carbon-neutral commitments. In addition to cost savings, these buildings offer reputational advantages and future-proof assets against upcoming regulatory risks.

Technological advancements are making net-zero energy construction more feasible and economically viable. Innovations in energy storage, high-efficiency building envelopes, and advanced insulation materials are enabling buildings to maintain energy balance even under variable climate conditions. Furthermore, digital design tools and energy modeling software allow project teams to simulate energy performance and optimize designs to meet net-zero goals.

The rise of net-zero energy buildings is also influencing supply chains, as manufacturers are being required to produce building components with lower embodied energy and better thermal performance. As consumer awareness grows and sustainability becomes a market differentiator, the net-zero model is poised to drive long-term transformation across the global energy efficient construction landscape.

Adoption of Green Building Certifications and Performance Standards

The increasing adoption of green building certifications and energy performance standards is a major trend driving transformation in the energy efficient construction market. Certifications such as Leadership in Energy and Environmental Design, Building Research Establishment Environmental Assessment Method, WELL Building Standard, and Energy Star have become benchmarks for environmental performance, influencing both design and procurement decisions in residential, commercial, and institutional construction.

These frameworks provide structured guidelines for energy-efficient design, material usage, water conservation, indoor environmental quality, and waste reduction. By adhering to these standards, developers can demonstrate a commitment to sustainability, enhance the marketability of their properties, and secure premium valuations. In the commercial real estate sector, green-certified buildings often command higher occupancy rates, rental yields, and resale values, creating strong economic incentives for certification.

Governments across the world are reinforcing this trend through mandatory codes and incentive programs that encourage or require compliance with specific energy performance benchmarks. These may include fast-track permitting, tax rebates, or reduced utility charges for certified projects. Furthermore, municipalities are embedding performance-based requirements into building regulations, making certification integral to project approval and financing.

The growing demand for green-certified buildings is also shifting buyer preferences and investor behavior. Corporate occupiers increasingly prioritize environmentally responsible buildings to meet their own sustainability targets, while institutional investors view certification as a risk mitigation tool. This has led to increased collaboration among architects, engineers, contractors, and sustainability consultants to ensure certification goals are embedded throughout the project lifecycle.

As awareness of climate change and environmental responsibility continues to rise, green building certifications are becoming standard practice rather than optional enhancements. This trend is also encouraging innovation in building materials, construction methods, and energy systems to meet evolving criteria. Overall, the widespread adoption of certification frameworks is elevating industry standards and reinforcing the business case for energy efficient construction across global markets.

Segmental Insights

Product Type Insights

In 2024, the Insulation Materials segment emerged as the dominant product type in the Energy Efficient Construction Market and is expected to maintain its leading position throughout the forecast period. This dominance is attributed to the critical role that insulation materials play in enhancing thermal efficiency, reducing energy consumption, and maintaining consistent indoor temperatures across both residential and commercial buildings. Insulation materials are foundational to achieving energy efficiency, as they minimize the need for mechanical heating and cooling by preventing the transfer of heat through walls, roofs, and floors.

With rising energy costs and increasingly stringent regulations related to building energy codes, insulation has become a mandatory component in new construction and retrofit projects worldwide. Governments and regulatory authorities in regions such as Europe, North America, and Asia Pacific are enforcing higher standards for building envelopes, directly boosting the demand for advanced insulation materials such as mineral wool, expanded polystyrene, extruded polystyrene, polyurethane foam, and reflective barriers.

Furthermore, insulation is widely applicable across all types of structures—from low-rise residential housing to high-rise commercial buildings and industrial facilities—making it the most versatile and universally required energy efficiency solution. Technological advancements in insulation materials, including the development of eco-friendly, fire-resistant, and high-performance variants, have further strengthened their market position. Additionally, the relatively low cost of insulation compared to other energy-efficient systems, combined with its high return on investment through energy savings, makes it the first line of defense in energy-efficient construction.

Manufacturers are also expanding their insulation product portfolios to meet region-specific building standards and climate conditions. As global focus intensifies on sustainability, net-zero construction, and reduced greenhouse gas emissions, insulation materials are expected to remain the most widely adopted and essential component within the energy efficient construction market, driving consistent growth and maintaining their dominance over other product segments during the forecast period.

Application Insights

In 2024, the New Construction segment held the dominant position in the Energy Efficient Construction Market by application and is projected to maintain this leadership throughout the forecast period. This dominance stems from the global surge in new residential, commercial, and institutional construction projects that are increasingly designed with energy efficiency as a core objective. Governments across developed and emerging economies are implementing stringent energy codes and green building regulations that mandate energy performance standards for new buildings.

These regulations compel developers to incorporate advanced energy-saving technologies and materials, such as high-performance insulation, energy-efficient lighting, smart building systems, and renewable energy installations, right from the design phase. The ability to integrate energy-efficient components into the initial architecture of a structure provides significant advantages in terms of cost-effectiveness, ease of implementation, and long-term performance. New construction projects allow for optimal planning and incorporation of passive design elements such as natural ventilation, daylighting, and thermal mass, which are often more challenging to retrofit in existing structures.

Moreover, urbanization trends in Asia Pacific, the Middle East, and parts of Latin America are fueling unprecedented demand for new housing, infrastructure, and commercial spaces, thereby accelerating the adoption of energy-efficient construction practices in these regions. Private sector investments, along with public sector initiatives such as smart city developments and sustainable urban planning programs, further contribute to the momentum in the new construction segment. In addition, builders and developers are increasingly using energy efficiency as a selling point, responding to heightened consumer awareness and demand for lower energy costs, enhanced comfort, and environmentally responsible living spaces.

The long-term operational savings and compliance with environmental certifications also provide financial incentives for adopting energy-efficient solutions in new builds. As global construction activity continues to expand and sustainability becomes a mainstream requirement, the new construction segment is expected to remain the key driver of growth within the energy efficient construction market over the forecast period.

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Regional Insights

Largest Region

In 2024, Europe emerged as the dominant region in the Energy Efficient Construction Market and is expected to maintain its leadership throughout the forecast period. This regional dominance is primarily driven by Europe’s long-standing commitment to sustainability, strict regulatory frameworks, and progressive energy policies that have positioned energy efficiency at the core of construction practices. The European Union has implemented ambitious directives, such as the Energy Performance of Buildings Directive and the European Green Deal, which mandate significant reductions in energy consumption and carbon emissions in the building sector.

These regulations require new buildings to meet nearly zero-energy standards and promote extensive retrofitting of existing structures to achieve higher energy performance. Countries such as Germany, France, the Netherlands, and the Nordic nations are at the forefront of adopting advanced insulation systems, high-efficiency heating and cooling solutions, and smart energy management technologies. Additionally, financial incentives, subsidies, and favorable green financing models offered by national governments and the European Investment Bank have accelerated investments in energy efficient construction.

Europe also benefits from a mature construction industry with a high level of technical expertise, established green certification systems such as BREEAM and Passive House, and a consumer base that is highly aware of environmental issues and operational cost savings associated with energy efficient buildings. Furthermore, the growing emphasis on urban regeneration, sustainable housing, and decarbonization of public infrastructure continues to drive the adoption of energy-saving technologies across the region.

The presence of leading manufacturers and innovators in energy efficient building materials and systems also supports Europe’s strong position in the market. As the region continues to push for climate neutrality and stricter energy standards across all types of buildings, Europe is expected to sustain its dominance in the energy efficient construction market, setting the benchmark for global practices in sustainable development and low-energy building design..

Emerging Region

In the forecast period, the Asia Pacific region is anticipated to be the most prominent emerging region in the Energy Efficient Construction Market, supported by a convergence of strong economic growth, rapid urbanization, and a rising commitment to sustainable development. Countries such as China, India, Indonesia, Vietnam, and the Philippines are experiencing a significant increase in new construction activity, spanning residential, commercial, and infrastructure sectors.

This surge in construction, combined with growing concerns about energy consumption and environmental degradation, is encouraging regional governments to implement energy performance regulations and promote green building standards. For instance, China’s Green Building Evaluation Label, India’s Energy Conservation Building Code, and Japan’s Top Runner Program have become pivotal in pushing energy-efficient construction practices. The region is also home to several ambitious urban development and smart city initiatives that place a strong emphasis on resource efficiency, renewable energy integration, and intelligent building design.

These initiatives are driving the adoption of energy-efficient technologies, including advanced insulation materials, energy-efficient lighting systems, intelligent heating, ventilation, and air conditioning solutions, and building automation systems. In addition, a growing middle-class population and increased awareness of climate change are fostering consumer demand for environmentally responsible housing and workplaces. International construction and building technology companies are investing heavily in Asia Pacific, establishing partnerships and manufacturing facilities to cater to the rising demand for sustainable construction solutions.

Local companies are also beginning to innovate and scale the production of affordable, energy-efficient building materials, making these technologies more accessible across the region. Furthermore, financial institutions and development banks are offering incentives and funding support for green construction, making energy-efficient projects more feasible. As a result, with a favorable policy landscape, robust construction demand, and expanding technological capacity, Asia Pacific is expected to lead as the emerging region in the global energy efficient construction market during the forecast period.

Recent Development

• In 2024, Saint-Gobain finalized the acquisition of Fosroc, a global construction chemicals company headquartered in Dubai, for approximately Euro 960 million. This strategic move significantly expanded Saint-Gobain’s presence in high-growth markets including India and the Middle East. Fosroc brought with it 20 manufacturing sites and annual sales exceeding USD 480 million. The acquisition was integrated into Saint-Gobain’s High Performance Solutions segment and is expected to generate significant synergies over the next three years, strengthening the company’s global leadership in sustainable construction technologies.
• In November 2024, Siemens secured a significant contract to retrofit 60 government buildings across the United Arab Emirates with advanced heating, ventilation, and air conditioning systems, energy-efficient lighting, motion sensors, and centralized building management technologies. This comprehensive modernization initiative is designed to improve energy performance and optimize water usage. The project aims to achieve up to a 27 percent reduction in energy and water consumption, resulting in an annual decrease of approximately 15,400 tonnes of carbon dioxide emissions.
• In May 2025, Siemens and RIC Energy entered into a memorandum of understanding to collaboratively advance infrastructure for green hydrogen, ammonia, and e-fuels in Spain. The partnership focuses on strategic projects in Cubillos del Sil and Torrelavega, aiming to strengthen the country’s renewable transport fuel ecosystem. By combining Siemens’ technological capabilities with RIC Energy’s project development and financial expertise, the initiative is expected to accelerate the deployment of clean energy solutions and support Spain’s transition toward a more sustainable energy landscape.
• In March 2024, Johnson Controls partnered with Mahindra Group to launch a Net-Zero Buildings Initiative in India. The program offers a free toolkit and training modules for commercial, residential, and public buildings, assisting stakeholders in decarbonizing operations and enhancing sustainability practices. It aligns with India’s low-carbon policy objectives and supports smarter, energy-efficient built environments

Key Market Players

• Saint-Gobain
• Schneider Electric SE
• Siemens AG
• Honeywell International Inc.
• Johnson Controls International plc
• Kingspan Group plc
• LafargeHolcim Ltd (now Holcim Group)
• Owens Corning
• Rockwool International A/S
• Bosch Thermotechnology

Report Scope:

In this report, the Global Energy Efficient Construction Market has been segmented into the following categories, in addition to the industry trends which have also been detailed below:

•  Energy Efficient Construction Market, By Product Type:

o   Insulation Materials

o   Energy-Efficient Windows

o   Energy-Efficient Lighting

o   HVAC Systems

o   Solar Energy Systems

o   Smart Building Solutions

• Energy Efficient Construction Market, By Application:

o   New Construction

o   Renovation and Retrofit

• Energy Efficient Construction Market, By Component:

o   Building Envelope

o   Heating, Ventilation, and Air Conditioning (HVAC)

o   Lighting

o   Renewable Energy Systems

o   Building Automation and Controls

• Energy Efficient Construction Market, By Region:

o   North America

§  United States

§  Canada

§  Mexico

o   Europe

§  Germany

§  France

§  United Kingdom

§  Italy

§  Spain

o   South America

§  Brazil

§  Argentina

§  Colombia

o   Asia-Pacific

§  China

§  India

§  Japan

§  South Korea

§  Australia

o   Middle East & Africa

§  Saudi Arabia

§  UAE

§  South Africa

Competitive Landscape

Company Profiles: Detailed analysis of the major companies present in the Global Energy Efficient Construction Market.

Available Customizations:

Global Energy Efficient Construction Market report with the given market data, TechSci Research offers customizations according to a company's specific needs. The following customization options are available for the report:

Company Information

• Detailed analysis and profiling of additional market players (up to five).

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