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Net-Zero Energy Buildings Market Size, Share, Demand, Growth and Forecast 2024-2032
IMARC Group has recently released a new research study titled “Net-Zero Energy Buildings Market Report by Offering (Equipments, Solutions and Services), Building Type (Commercial, Residential), and Region 2024-2032”, offers a detailed analysis of the market drivers, segmentation, growth opportunities, trends and competitive landscape to understand the current and future market scenarios.
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High Energy Demand to Boost the Global BIPV Market
Triton Market Research presents the Global Building Integrated Photovoltaics Market report segmented by Application (Glazing, Roofing, Architectural Shading, Facades), Technology (Thin Film, Crystalline Silicon [Polycrystalline, Monocrystalline], Other Technologies), Industry Vertical (Commercial, Industrial, Residential), and Regional Outlook (, North America, Asia-Pacific, Middle East and Africa, Europe, Latin America).
The report further includes the Market Summary, Industry Outlook, Parent Market Analysis, Impact Analysis, Key Insights, Porter’s Five Forces Analysis, Market Maturity Analysis, Industry Components, Regulatory Framework, Key Buying Analysis, Key Market Strategies, Drivers, Challenge, Opportunities, Analyst Perspective, Competitive Landscape, Research Methodology & Scope, Global Market Size, Forecasts & Analysis (2023-2030).
According to Triton’s research report, the global building integrated photovoltaics market is estimated to progress at a CAGR of 17.31% during the forecast period 2023-2030.
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Building integrated photovoltaic products are used to replace conventional building materials in the components of a building envelope like roof tiles, curtain walls, windows, etc.
As per the International Energy Outlook, the global power demand is expected to soar by around 80% by 2040, requiring trillions of dollars in investment to meet the high demand. Moreover, the world’s net electricity generation will increase significantly in the same year. Access to electricity is vital for operations across industries, especially in developing countries. Hence, the growing energy demand is estimated to create high demand for PVs in buildings for efficient power supply, thereby propelling the BIPV market on a growth path.
However, BIPV technology is at a nascent stage, being highly adopted in developed nations but witnessing a slow glow in emerging economies like India. The lack of awareness about solar power is estimated to hamper the studied market’s growth over the forecast period.
Over the forecast period, the Asia-Pacific is estimated to become the fastest-growing region. China, Japan, and South Korea have recently adopted net-zero emission targets to be attained by 2050. As per industry sources, energy efficiency and decarbonization under sustainable development could help reduce significant emissions from buildings. Moreover, the region is witnessing high population growth, which has elevated the energy demand. Therefore, the growing need to reduce emissions and high energy demand is expected to broaden building integrated photovoltaics market prospects over the forecast period.
The prominent companies thriving in the building integrated photovoltaics market are Tesla Inc, ClearVue Technologies Limited, AGC Inc, SunPower Corporation, Kaneka Corporation, MetSolar, Heliatek, Saule Technologies, Waaree Energies Ltd, and Ertex Solartechnik GmbH.
Given the technological complexity and high capital requirements, the entry of new entrants is difficult. The materials processing step is technologically exhaustive and thus creates a high barrier for new players. Despite this, several players are entering the market owing to increasing demand and government incentives. However, the growing competition among existing players is expected to lower the threat of new entrants over the forecast period.
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Window Film Market Size, Share, Growth Analysis And Forecast 2024 - 2030
The global window film market size was valued at USD 11.56 billion in 2023 and is anticipated to grow at a compound annual growth rate (CAGR) of 5.3% from 2024 to 2030.
Increasing demand for energy-efficient window films is expected to propel market growth during the forecast period. Window films are widely utilized for energy efficiency in heating and cooling purposes in residential and commercial applications, commonly in vehicles and windows. According to the U.S. Department of Energy, window films facilitate the average consumption of 30% of heat loss that occurs through windows and doors at homes. Improvements in window films enable the reduction in solar heat gain & winter heat loss in commercial & residential buildings, which is expected to provide sustainable growth over the forecast years. Building Energy Management System (BEMS) effectively conserves energy and improves energy efficiency by creating a stable and sustainable environment in both commercial & residential buildings.
Gather more insights about the market drivers, restrains and growth of the Window Film Market
The increasing number of green building constructions and the development of net zero energy buildings are expected to propel the demand for window films. The rising consumer awareness regarding the sustainability and price of window films, coupled with growing environmental awareness regarding carbon dioxide emissions and improving energy efficiency, is expected to drive the market over the forecast years.
Global carbon emission levels have been increasing steadily on account of the population explosion across Asia Pacific and Latin America, coupled with rapid industrialization and an increasing number of passenger cars in recent years. Stringent regulations regarding energy-efficient buildings & vehicles and increasing concerns about the environment and health are anticipated to fuel the demand.
Low emissivity (Low-E) film helps buildings to retain heat during the winter season. It uses special metallic coatings, which block infrared and ultraviolet rays and allows maximum visible light to prevent fading of interiors in residential and commercial buildings. Low-E glasses are replaced with window films owing to a better return on investment and the latter providing 6.6 times greater energy & cost savings than Low-E glasses.
Ultraviolet-A (UVA) filtering window film can help in reducing skin cancer and skin damage. Growing consumer disposable income in emerging economies has prompted a rising adoption of fuel-efficient passenger cars, coupled with an increasing demand for electric vehicles (EV), expected to drive the market for window film over the forecast years. However, the presence of strict regulations on tinted films used in automobiles, which limits visible light transmission (VLT), is expected to impact the market growth.
Manufacturers are focused on manufacturing high-quality and safety products on account of window film industry standards. As per these standards, the product should have a minimum of 15% light transmission. Low visibility can lead to theft or accidents, especially at night. A lower VLT rating tends to have better glare control, whereas a higher rating is preferred for maintaining natural lights. The VLT of a window film is a crucial part of defining the permissibility of heat protection, UV protection, and security concerns.
High VLT in window films allows better attention of the police to ensure public safety in vehicles. Certain countries have exemptions if drivers or passengers are affected by related medical conditions such as lupus, sunlight allergy, photosensitivity, and melanoma. Windows with a high tint can cause dooring incidents for cyclists and pedestrians owing to low visibility inside & across the vehicle.
Window tint products are likely to provide new growth avenues for market participants. These tint products are manufactured after coloring or dying of window film. Addition of tinting materials or colors help to block the sun rays. This benefits in reduction of cooling costs, minimization of glare on screens, and also offer privacy & safety.
Window Film Market Segmentation
Grand View Research has segmented the global window film market report on the basis of product, application, material and region:
Product Outlook (Volume, Thousand Square Meter; Revenue, USD Million, 2019 - 2030)
• Sun Control
• Decorative
• Security & Safety
• Privacy
Application Outlook (Volume, Thousand Square Meter; Revenue, USD Million, 2019 - 2030)
• Automotive
• Residential
• Commercial
• Marine
• Others
Material Outlook (Volume, Thousand Square Meter; Revenue, USD Million, 2019 - 2030)
• Vinyl
• Polyester
• Plastic
• Ceramic
• Others
Regional Outlook (Volume, Thousand Square Meter; Revenue, USD Million, 2019 - 2030)
• North America
• Europe
• Asia Pacific
• Central & South America
• Middle East & Africa
Browse through Grand View Research's Plastics, Polymers & Resins Industry Research Reports.
• The global nonwoven fabrics market size was valued at USD 52.56 billion in 2023 and is projected to grow at a CAGR of 4.9% from 2024 to 2030.
• The global polypropylene absorbent hygiene market size was valued at USD 8.78 billion in 2023 and is projected to grow at a CAGR of 4.4% from 2024 to 2030.
Key Window Film Company Insights
Some of the market participants include Eastman Chemical Company, 3M, and Madico, Inc, among others.
• 3M is a diversified technology company, with business segments, namely industrial, electronics & energy, safety & graphics, health care and consumer. The product portfolio offered by the company includes automotive, commercial and residential window film.
• Eastman Chemical Company operates through four business segments, namely additives & functional products, advance materials, fibers, and chemical intermediates. The product portfolio of the company includes decorative, safety & security and sun-control window film. The company offer window film under advance materials business segment.
• Solar Gard operates as a subsidiary of Saint-Gobain S.A. which was acquired in September 2011. The company is a division of Saint-Gobain Performance Plastics and is involved in the manufacturing Window Film and paint protection film. Its product portfolio includes solar control, safety & security, decorative, anti-graffiti, and paint protection films.
• Toray Plastics (America), Inc. was founded in 1985 and is headquartered in North Kingstown, the U.S. It is a manufacturer of plastic films and foams. The company’s line of business includes polypropylene films, polyester films, bio-based PET films, metalized OPP films, and polyolefin foams.
Key Window Film Companies:
• 3M
• Eastman Chemical Company
• American Standard Window Film
• Saint-Gobain Performance Plastics Corporation (Solar Gard)
• Madico, Inc.
• Toray Plastics (America), Inc.
• Hanita Coatings RCA Ltd. (Avery Dennison Israel Ltd.)
• Johnson Window Films, Inc.
• Armolan Window Films
• Garware Suncontrol
• Reflectiv Window Films
Recent Developments
• In August 2023, Solar Art announced acquisition of Layr, a window film manufacturing company. Layr has wide customer base including office buildings, schools and high-end retailers. This acquisition helped Solar Art to expand its business East Coast region with infrastructure in New York.
• In February 2023, Eastman and High Performance Optics, Inc. announced launch of new window film designed specifically for the transportation industry, which features selective High Energy Visible Light (HEVL) filtering in China.
Order a free sample PDF of the Window Film Market Intelligence Study, published by Grand View Research.
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Superconducting Materials Market Size, Share and Growth Forecast 2031
Global superconducting materials market size was valued at USD 2.07 billion in 2022, expected to reach USD 4.6 billion in 2030, with a CAGR of 10.5% for the forecast period between 2023 and 2030. The development and advancement in materials has led to the introduction of superconducting materials. The growing market in healthcare, energy, and transportation has significantly driven the technologies spectrum for superconducting materials.
High temperature superconductors are used for round conductors and solenoid applications in healthcare and electrical sectors. Superconducting magnetic systems are truly reliable and deliver high performance by ensuring safety parameters, used as current limiters and in lead applications. Superconductor magnetic bearing is used in high-speed textile and processing machines to run dynamic yarn processing effectively. Resilient electric grid is developed using advanced superconducting materials using high power medium voltage cable technology.
Incorporation of Superconducting Materials in Developing Electric Grid and Distribution System
Considering the objective of net zero goals transport, heating and similar industries need to be electrified during the upcoming years. Superconducting cables are potentially great to transmit humongous electricity in a small space for congested urban grids. Superconducting cables transform urban power by eliminating heating, electric and magnetic fields. High temperature superconductors make power grid units and transmission cables by providing cryogenic compound insulation, usually liquid nitrogen surrounding the cable.
Brass metal is extensively used in high-current AC or DC applications like power transmission and distribution without affecting the voltage and providing high strength and stability. Copper metal find the application in power dense coils for developing synchronous motors, generators, and magnets. The market for superconducting materials can be emphasized as its incorporation in building resilience electrical power grid and distribution network.
The European Commission has executed an action plan for 2022 for “Digitalization of the energy system” to invest around USD 633 billion by 2030 to develop an advanced European electricity grid. China has already implemented measures to modernize and enhance the power grid system by investing USD 442 billion from 2021 to 2025. The United States commenced the Grid Resilience Innovative Partnership (GRIP) program in 2022 with a funding amount of USD 10.5 billion with the objective to upgrade and expand grid networks.
Superconducting Materials to Augment the Technology of Magnetic Resonance Imaging
The conventional equipment for performing magnetic resonance imaging usually takes around 1-2 hours, but with the introduction of superconducting materials, the MRI examination time has come down to minutes. Superconductivity is considered important for MRI scanning devices that assist in creating unprecedented views of structures deep inside the human body. Conventional MRI with novel elements, like magnesium and titanium, can generate magnetic fields at higher rates. For instance, Hitachi has exceptionally developed a 1.1-m-diameter magnesium bromide superconducting magnet where the time required to perform MRI examinations is 10 minutes. All modern MRI scanners are equipped with niobium-titanium (NbTi) superconducting materials with multiple NbTi microfilaments embedded in a copper core. These advanced MRI scanners provides superior soft-tissue imaging to assist doctors in predicting various diseases like cancer, Alzheimer, trauma injury, etc.
Japan has the highest density of magnetic resonance imaging (MRI) units, accounting for over 55 units per every million of its population, followed by the United States and Germany. Siemens in Germany has commenced a whole-body MRI scanner Magentom Free Star that is enabled with AI-based technology that generates superior image quality.
Applications of Superconducting Materials as a Magnetic Bearing in Textile Machines
Cooled superconductors require an additional positioning system, which is significantly replaced by superconductor magnetic bearings in a stable position. Shock-staple yarn production is progressively achieved by the ring spinning technique operating at a maximum speed of 25,000 rpm and is widely adopted across the textile industry. The SMBs are used as twist elements that comprise a rotating permanent-magnetic ring that handles the yarn twisting. The problem of friction-induced heat generation in the ring-traveler twist element during ring spinning is overcome through superconductive magnetic bearings.
Data released by the Ministry of Textiles, India states that FDI has invested USD 1522.23 million in the textile sector from 2017-2022. In 2022, the net value of the United States manufactured fiber, textile, and apparel shipments accounted for an estimated over USD 65.8 billion, whereas the export of fibers and textiles contributed to around USD 34 billion. Around 33% of companies across the European Union are textile-based, accounting for micro and SMEs. With such impeccable figures, Europe has extreme potential for a superconducting materials market that generates phenomenal opportunities to replace conventional technologies.
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Impact of COVID-19
The outbreak of COVID-19 severely impacted numerous sectors with a shutdown of industrial operations due to imposed lockdowns and less workforce, including Superconducting Materials. The lowering demand for textile production has substantially de-structured the incorporation of superconducting materials as the magnetic bearing was significantly discouraged. The closure of various industrial manufacturing units has reduced resources to manage the electric-grid distribution network which substantially degraded the market of superconducting materials.
Report Scope:
“Superconducting Materials Market Assessment, Opportunities and Forecast, 2016-2030F”, is a comprehensive report by Markets and data, providing in-depth analysis and qualitative and quantitative assessment of the current state of the global superconducting materials market, industry dynamics, and challenges. The report includes market size, segmental shares, growth trends, COVID-19 impact, opportunities, and forecast between 2023 and 2030. Additionally, the report profiles the leading players in the industry mentioning their respective market share, business model, competitive intelligence, etc.
Click here for full report- https://www.marketsandata.com/industry-reports/superconducting-materials-market
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Global Top 8 Companies Accounted for 61% of total Vacuum Insulated Glass market (QYResearch, 2021)
Vacuum insulated glass is an emerging technology aimed at meeting the severe thermal performance requirements of net-zero energy windows. A vacuum is created between two rigidly held panes of glass which maximises thermal efficiency and sound insulation.
The advantages of VIG
Because of its high vacuity, VIG has performed excellent heat insulation, anti-condensation, and sound insulation to the world.
According to the new market research report “Global Vacuum Insulated Glass Market Report 2023-2029”, published by QYResearch, the global Vacuum Insulated Glass market size is projected to reach USD 0.54 billion by 2029, at a CAGR of 11.9% during the forecast period.
Figure. Global Vacuum Insulated Glass Market Size (US$ Million), 2018-2029
Figure. Global Vacuum Insulated Glass Top 8 Players Ranking and Market Share (Ranking is based on the revenue of 2022, continually updated)
The global key manufacturers of Vacuum Insulated Glass include Nippon Sheet Glass, Guardian Glass, Vitro Architectural Glass, AGC, LandGlass, etc. In 2021, the global top four players had a share approximately 61.0% in terms of revenue.
About QYResearch
QYResearch founded in California, USA in 2007.It is a leading global market research and consulting company. With over 16 years’ experience and professional research team in various cities over the world QY Research focuses on management consulting, database and seminar services, IPO consulting, industry chain research and customized research to help our clients in providing non-linear revenue model and make them successful. We are globally recognized for our expansive portfolio of services, good corporate citizenship, and our strong commitment to sustainability. Up to now, we have cooperated with more than 60,000 clients across five continents. Let’s work closely with you and build a bold and better future.
QYResearch is a world-renowned large-scale consulting company. The industry covers various high-tech industry chain market segments, spanning the semiconductor industry chain (semiconductor equipment and parts, semiconductor materials, ICs, Foundry, packaging and testing, discrete devices, sensors, optoelectronic devices), photovoltaic industry chain (equipment, cells, modules, auxiliary material brackets, inverters, power station terminals), new energy automobile industry chain (batteries and materials, auto parts, batteries, motors, electronic control, automotive semiconductors, etc.), communication industry chain (communication system equipment, terminal equipment, electronic components, RF front-end, optical modules, 4G/5G/6G, broadband, IoT, digital economy, AI), advanced materials industry Chain (metal materials, polymer materials, ceramic materials, nano materials, etc.), machinery manufacturing industry chain (CNC machine tools, construction machinery, electrical machinery, 3C automation, industrial robots, lasers, industrial control, drones), food, beverages and pharmaceuticals, medical equipment, agriculture, etc.
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Wind Turbine Operation and Maintenance Market size at USD 38.87 billion in 2023. During the forecast period between 2024 and 2030, BlueWeave expects the Global Wind Turbine Operation and Maintenance Market size to expand at a CAGR of 7.68% reaching a value of USD 65.26 billion by 2030. Increasing investments in the renewable energy industry, especially in wind and solar energy for power production, are one of the key growth factors driving the Global Wind Turbine Operation and Maintenance Market. Additionally, it is projected that during the period in analysis, governments’ supportive initiatives and policies aimed at achieving net zero emissions through the renewable energy industry would also offer lucrative growth opportunities to the players in the Global Wind Turbine Operation and Maintenance Market.
Opportunity: Rapid adoption of technological advancements in wind turbine sector
The wind turbine sector is undergoing extensive innovations and technological advancements owing to the launches of innovative technologies, such as sensors and artificial intelligence, and rising investments in the sector by both public and private players. The focus is mainly on making wind turbines cost-effective as well as boosting their capacity. According to the National Renewable Energy Laboratory, technological advancements also include novel manufacturing techniques, such as 3D printing and spiral welding. Such developments are expected to unlock new types of issues with wind turbines, proliferating the demand for wind turbine operation and maintenance services over the forecast period.
Impact of Escalating Geopolitical Tensions on Global Wind Turbine Operation and Maintenance Market
The escalating geopolitical tensions disrupted the growth of the Global Wind Turbine Operation and Maintenance Market. For instance, both Ukraine and Russia have major reserves of wind energy and have been significantly investing in the renewable energy sector by building wind farms. However, with Russia's invasion of Ukraine, countries’ resources shifted toward military operations, which hindered the operations of the wind energy sector in both nations. However, raging energy crises post the war scenarios due to the shortage of fossil fuels as a result of sanctions on Russia are prompting the economies to invest in the renewable energy sector to reduce their dependency on fossil fuels, which is anticipated to provide lucrative growth opportunities to the Global Wind Turbine Operation and Maintenance Market.
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Killing fields fear solar will destroy locals’ livelihoods
Next week, many Australians who live in rural areas on the eastern seaboard – farmers, townies, blockies, tradies, and even scientists, environmentalists, hippies and old-fashioned lovers of nature – will protest in Canberra against the intended and unintended consequences of the Albanese government’s plans to require enormous tracts of mostly privately owned land to host large-scale wind and solar farms and transmission powerlines and pipelines for future electricity generation.
To reach the federal government’s target of 82 per cent renewables by 2030, the Australian Energy Market Operator predicts we will need more than 10,000km of new transmission lines, and nine times the large-scale renewable energy generation we currently have. Many of our precious rural landscapes will be changed in ways we cannot imagine. Modelling by Net Zero Australia estimates that by 2050, solar farms of a combined size of five Tasmanias will be needed to produce the energy to replace Australia’s fossil fuel exports on top of domestic consumption. We have not even begun to think about the realities of what happens to the leftover landscapes.
You would think that an energy transition of this magnitude driven by governments, subsidised by taxpayers and which will require massive dislocation to people, communities and the environment would be based on strategic, long-term planning to build electricity generation installations where they are best located. You might also think that a whole-of-system assessment of the long-term economic, social and environmental costs – not just the benefits – of large-scale renewables now and in the future would have occurred.
Yet from where we stand in rural Australia, none of this has happened. Governments have already lost control of the location of renewables developments, which is driven by developers. In an attempt to create certainty for developers and communities, state governments have declared Renewable Energy Zones, but things are not going to plan. In NSW, approximately 70 per cent of existing large-scale solar development is located outside REZs, and this looks set to continue. This means the location of developments is ad hoc and patchy, with demands around placement of transmission lines driven by developers’ whims. Developers also ignore other planning signals. For example, the NSW Transport and Infrastructure State Environmental Planning Policy has mapped land on the outskirts of some regional cities which requires that consent authorities be satisfied that a development would not impact on land conflicts, or urban growth or important scenic values. Yet developers persist with proposals on mapped land, creating unexpected havoc for affected landholders and stakeholders.
In Goulburn in NSW, Lightsource BP proposes a 400MW solar farm on the Gundary Plain, close to the city. It is one of two solar developments that would see a total of 3600 acres – 1789 footy fields – of 1.6 million 5m-high solar panels, plus 300 inverter stations and two 330KV seven-acre substations, smack bang in the middle of a rural lifestyle locality on the fringe of the regional city.
Around the world, large-scale solar is usually developed in semi-arid, sunny regions off the beaten track – in deserts or in and around large-scale agriculture where neighbours are scarce. Yet despite relatively low solar irradiance at Goulburn, and the fact that two-thirds of the proposed developments sits on mapped land under the SEPP – a strong indicator from state planners that the proposal will adversely impact the lifestyle, views and amenities of a vast number of people – the developers press ahead with inappropriately located and self-described “grid-led” projects because an existing transmission line passes through the site. Unsurprisingly, there is zero social licence for the proposal.
Sixty impacted landowners are in uproar, and the usually pro-renewables local council and chamber of commerce look set to oppose the project. It is simply the wrong place for developments of this magnitude because of the disproportionate adverse impact on so many. So it is little wonder that a number of us whose small rural blocks will be utterly overwhelmed by a 7km-long sea of 5m-high solar panels – or whose pristine rural outlooks will be replaced by a seven-acre substation – will be protesting in Canberra next week.
These concerns are to some extent about the here and now. And our complaints about the adverse impact on our lives, sense of place, living next to a permanent heat bank and big hits to our property values are admittedly NIMBY concerns about us.
The bigger question for all of society is who carries the can 35 years down the track when Lightsource BP says the Gundary project will reach the end of its lifecycle? While consent approvals for large-scale renewables projects require the owners of renewables installations to remediate the land at the end of the lifecycle, it is becoming clear that ownership and operation of these facilities is changeable and fleeting.
Before Christmas, Lightsource BP announced that it had sold 1.04GW of Australian solar – five solar projects that comprise the entirety of its solar portfolio – to China-based Beijing Energy International Australia as part of its “normal” recycling of assets.
It is clear that BP has no interest in owning or running large-scale electricity generators.
Who knows which and what kind of entity will own and operate the Gundary solar installation in 2060? Some of us will be long gone – but on current form, BP will be gone possibly even before the construction finishes. Our bet is that ownership of Gundary and similar projects will change over time and by design end up in the hands of entities that have no incentive to put aside the tens – sometimes hundreds – of millions of dollars it will cost to remediate impacted Australian land. We think it’s just as likely as not that without taxpayer funding in 2060, the 1.6 million 5m-high solar panels slated by developers across a total of 15km sq on the Gundary Plain will be left rotting in paddocks. (And let’s not start on the fact it is more economic for solar panels to be disposed of in landfill than be recycled.)
In light of the emerging business models for development and operation in the large-scale renewables sector – which is characterised by significant offshore ownership, frequent bankruptcies and/or asset recycling – it is a scandal that state and federal governments do not insist as a condition of approval the costs of remediation of impacted land are paid upfront by developers into a government-managed fund that will guarantee remediation in the future.
So next week we will be protesting not just for ourselves but also for future generations of taxpayers who are set to bear the burden of unprecedented and crushing remediation costs over tens of thousands of square kilometres of abandoned renewables projects – after the last known entity in a long line of asset recycling has conveniently gone belly up.
More needs to be done to make the unprecedented plan to take Australia to 82 per cent renewables make more sense.
At the moment, it looks wobbly on many fronts. Insufficient attention has been paid by governments to the immediate and long-term economic, social and environmental risks and costs.
The mammoth burden of rehabilitating our precious countryside in not much more than one generation is just one example of a foreseeable consequence of a renewables-driven solution to the energy transition that governments and developers currently ignore – at the cost of all Australians, wherever they live.
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Net-Zero Energy Buildings Market Size, Share, Growth, Opportunity and Industry Trends 2024-2032
IMARC Group, a leading market research company, has recently released a report titled “Net-Zero Energy Buildings Market: Industry Trends, Share, Size, Growth, Opportunity and Forecast 2024-2032”. The study provides a detailed analysis of the industry, including the market share, size, trends, and growth forecast. The report also includes competitor and regional analysis and highlights the latest…
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Clean energy investment falls short of net zero goals, totaling $1.8 trillion.
Clean Energy Investment Falls Short of Net Zero Goals, Totaling $1.8 Trillion
Global spending on the clean-energy transition reached a record high of $1.8 trillion in 2023, signaling increased efforts to combat climate change, according to a report from BloombergNEF. However, this investment falls short of the necessary funding required to achieve a net-zero emissions trajectory. The report emphasizes the urgent need to address climate change following the hottest recorded year and predicts even higher temperatures in the future.
Investments included renewable energy installations, electric vehicles, hydrogen production systems, and various clean technologies. When factoring in funds for building clean-energy supply chains and $900 billion in financing, the overall funding for clean energy in 2023 totaled approximately $2.8 trillion.
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While there has been growing momentum in spending on clean technology, the report suggests that more than double the current amount needs to be invested to achieve net-zero emissions by mid-century. To align with a net-zero pathway, annual global spending on the energy transition should exceed $4.8 trillion from 2024 to 2030, requiring a 170% increase in investments to meet the net-zero goal.
Key Points:
China remains the dominant market with $676 billion spent in 2023, though this represents a modest 6% increase compared to 2022
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Global HVAC System Market Analysis 2024 – Estimated Market Size And Key Drivers
The HVAC System Global Market Report 2024 by The Business Research Company provides market overview across 60+ geographies in the seven regions - Asia-Pacific, Western Europe, Eastern Europe, North America, South America, the Middle East, and Africa, encompassing 27 major global industries. The report presents a comprehensive analysis over a ten-year historic period (2010-2021) and extends its insights into a ten-year forecast period (2023-2033).
Learn More On The HVAC System Market:
https://www.thebusinessresearchcompany.com/report/hvac-system-global-market-report
According to The Business Research Company’s HVAC System Global Market Report 2024, The hvac system market size has grown strongly in recent years. It will grow from $172.62 billion in 2023 to $183.57 billion in 2024 at a compound annual growth rate (CAGR) of 6.3%. The growth in the historic period can be attributed to urbanization and construction boom, global temperature variations, energy efficiency concerns, government regulations and standards, indoor air quality awareness, health and comfort factors..
The hvac system market size is expected to see strong growth in the next few years. It will grow to $237.16 billion in 2028 at a compound annual growth rate (CAGR) of 6.6%. The growth in the forecast period can be attributed to globalization of markets, focus on net-zero buildings, advancements in refrigerants, renewable energy integration, resilience to climate change, evolving building codes.. Major trends in the forecast period include rise of smart hvac systems, integration of artificial intelligence (ai), variable refrigerant flow (vrf) systems, hybrid and integrated hvac solutions, remote monitoring and control, electrification and heat pump adoption..
The surge in construction activities in the commercial and residential sectors is expected to propel the growth of the HVAC system market going forward. Residential and non-residential (including commercial, industrial, and other) infrastructure are part of the construction sector. A heating, ventilation, and air conditioning (HVAC) system is a building mechanical system that provides thermal comfort for occupants accompanied by indoor air quality and is more frequently used in diverse types of buildings, including industrial, commercial, residential, and institutional buildings. For instance, in October 2021, according to a forecast from Oxford Economics, a US-based advisory firm, the global construction output in 2020 was 10.7 trillion and was expected to grow by 42% in terms of volume to reach 15.2 trillion by 2030. Therefore, the surge in construction activities in the commercial and residential sectors is driving the growth of the HVAC system market.
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The hvac system market covered in this report is segmented –
1) By Product: Heating, Ventilation, Cooling
2) By Implmenetaion Type: New Construction, Retrofit
3) By Application: Commercial, Residential, Industrial
Green and smart technology is a key trend gaining popularity in the HVAC system market. Major companies operating in the HVAC system market are focused on providing innovative solutions by using the Internet of Things (IoT) and machine learning to strengthen their position in the market. Green and smart technologies improve living conditions and eco-friendly methods for constructing, renovating, and operating homes and buildings. For instance, in July 2021, Haier Group Corporation, a China-based home appliances, and consumer electronics company, launched the industry's first IoT-enabled Smart Sharing AC in India to add more comfort and convenience to the evolving lifestyle of consumers. The service is an end-to-end digitally monitored cooling system. It allows users to operate and keep an eye on the AC from their smartphones and will be totally controlled using a smartphone application. The air conditioners are linked to a cloud server as part of the service, allowing users to control and manage them remotely using an application from any location.
The hvac system market report table of contents includes:
Executive Summary
Market Characteristics
Market Trends And Strategies
Impact Of COVID-19
Market Size And Growth
Segmentation
Regional And Country Analysis
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Competitive Landscape And Company Profiles
Key Mergers And Acquisitions
Future Outlook and Potential Analysis
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Commissioning Services Procurement Intelligence: Unlocking Opportunities
The commissioning services category is anticipated to grow at a CAGR of 4.80% from 2023 to 2030. In 2022, the category size was estimated to be valued at USD 231.5 billion with the European Union region's dominance due to emphasis on environmental standards and regulations. As projects become more intricate and specialized, organizations seek external expertise to ensure successful execution and compliance with industry standards. Evolving technologies, risk management, globalization all contribute to the category's expansion. Commissioning ensures the timely completion of projects with high standards, therefore attracting organizations aiming to streamline their operations. The comprehensive facility management offered, from structured approach to planning, implementing, and verifying arises the demand of the category in whole. The reliability of multiple industries from all sectors including construction, manufacturing, energy, healthcare, transportation, and more fuel the significance of category.
Buildings contribute significantly to the climate, accounting for almost 40% of total worldwide energy-related carbon emissions. When commissioning is combined with sustainability principles, it becomes a strategic process that connects project goals with environmental responsibility. Buildings are being transformed into connected and intelligent spaces that can adjust independently and exchange energy. Achieving net-zero energy and decarbonization, using all-electric design and high-performance systems. Providing holistic, innovative engineering solutions that have a positive impact on society and foster humankind. In June 2022, Burns & McDonell started construction of Wyoming Hyperscale, the first sustainable data center ecosystem of the world. Consuming 100% heat reuse, the development will be a carbon negative. The usage of liquid immersion cooling results in 50% greater power efficiency and up to 95% energy cost savings.
The presence of numerous global firms and the growth of small regional businesses, the market structure is highly fragmented. Due to significant regulatory barriers, the number of new participants in the commissioning industry is moderate. The players are delivering customized solutions for clients and building occupants, monitoring delivered performance, and pursuing continual innovation, which is growing competitiveness. Industry diversification, marketing, and branding such as the zero-carbon target, Master System Integration (MSI), solar and renewables, cooperation and collaboration all contribute to market fragmentation. In February 2023, the futuristic Saudi Arabian project, THE LINE, commissioned Jacobs and Jasara to provide expert programme and construction management services, as well as key interface management.
Order your copy of the Commissioning Services Procurement Intelligence Report, 2023 - 2030, published by Grand View Research, to get more details regarding day one, quick wins, portfolio analysis, key negotiation strategies of key suppliers, and low-cost/best-cost sourcing analysis
Commissioning costs can vary significantly depending on project size, building type, equipment type, and scope. It is also influenced by the type of facility (classroom vs. laboratory), the phasing of 24/7 operations, the depth of commissioning services, and the systems and assemblies chosen to be commissioned. As a rule, the overall commissioning cost will encompass both the design and construction phases. The commissioning provider's fees, together with the additional work of the designers, may range from three-tenths to 1% of the total. The provider's design phase charges will be around 75% of the total, and the designer's 25%. More complicated construction types and wider scopes may be significantly more expensive. HVAC, controls, and electrical costs can account for 0.5% to 1.5% of total construction costs. Depending on the intricacy of the space and the technology implemented, commissioning services range from USD 0.50 to over USD 2.50 per square foot of space.
Outsourcing and support services in commissioned work can relieve businesses of increasing regulatory requirements and rising costs. Increasing public sector demands imply flexibility, knowledge continuity, and they vary over time. Maintaining comprehensive and accurate documentation, performance verification are some of the best practices for category sourcing. Asia-Pacific is the fastest developing region in this category because of cost-effectiveness, engineering ability, and technological innovation with clear communication. Countries like China, India, Singapore, and Australia witness increase demand across various industries.
Browse through Grand View Research’s collection of procurement intelligence studies:
• Debt Collection Services Procurement Intelligence Report, 2023 - 2030 (Revenue Forecast, Supplier Ranking & Matrix, Emerging Technologies, Pricing Models, Cost Structure, Engagement & Operating Model, Competitive Landscape)
• Corporate Cards Procurement Intelligence Report, 2023 - 2030 (Revenue Forecast, Supplier Ranking & Matrix, Emerging Technologies, Pricing Models, Cost Structure, Engagement & Operating Model, Competitive Landscape)
Commissioning Services Procurement Intelligence Report Scope
• Commissioning Services Category Growth Rate: CAGR 4.80% from 2023 to 2030
• Pricing growth Outlook: 4% - 5% (annual)
• Pricing Models: Sourcing pricing, Commissioning type pricing, Quality standards pricing, Competition based pricing
• Supplier Selection Scope: Cost and pricing, Past engagements, Construction capacity, Supply chain and Logistics, Services provided
• Supplier selection criteria: Quality standards, Building capability, Pricing, Supply chain transparency, Designing, Transportation and Handling.
Technical specifications, operational capabilities, regulatory standards and mandates, category innovations, and others.
• Report Coverage: Revenue forecast, supplier ranking, supplier matrix, emerging technology, pricing models, cost structure, competitive landscape, growth factors, trends, engagement, and operating model
Key companies
• Jacobs
• Burns & McDonnell
• Mckinstry
• Bureau Veritas Primary Integration
• HDR
• WSP
• Hood Patterson & Dewar
• Iconicx Critical Solutions
• Engineering Economics Inc
• Affiliated Engineers
Brief about Pipeline by Grand View Research:
A smart and effective supply chain is essential for growth in any organization. Pipeline division at Grand View Research provides detailed insights on every aspect of supply chain, which helps in efficient procurement decisions.
Our services include (not limited to):
• Market Intelligence involving – market size and forecast, growth factors, and driving trends
• Price and Cost Intelligence – pricing models adopted for the category, total cost of ownerships
• Supplier Intelligence – rich insight on supplier landscape, and identifies suppliers who are dominating, emerging, lounging, and specializing
• Sourcing / Procurement Intelligence – best practices followed in the industry, identifying standard KPIs and SLAs, peer analysis, negotiation strategies to be utilized with the suppliers, and best suited countries for sourcing to minimize supply chain disruptions
#Commissioning Services Procurement Intelligence#Commissioning Services Procurement#Procurement Intelligence
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Building Automation System Market Size, Share, Industry Report and Growth Drivers 2028
The building automation system market is expected to reach USD 155.9 billion by 2028 from 88.4 billion in 2023, at a CAGR of 12.0% during the 2023- 2028 period. Building automation systems, or BAS, are sophisticated computer network systems that serve to automate and oversee various building systems, including heating, ventilation, air-conditioning (HVAC), and lighting. These systems are designed with the primary goal of enhancing the comfort, safety, security, and convenience of building occupants while simultaneously improving energy efficiency. One of the key functions of a BAS is to facilitate seamless communication between diverse systems, transcending differences in platforms, software, and languages.
The central role of a BAS encompasses maintaining the indoor climate in alignment with occupancy schedules, continuous monitoring of system performance, and the prompt detection of device malfunctions, with the capability to issue alerts. By implementing automation, these systems effectively reduce both energy consumption and maintenance expenses. It is noteworthy that nearly all multi-story green buildings are purposefully designed to incorporate a BAS, which plays a pivotal role in conserving energy, managing air quality, and optimizing water usage.
Moreover, green buildings tend to utilize an array of low-power DC devices, often integrated with power over Ethernet wiring. Even in the case of ultra-efficient designs aimed at achieving net-zero energy consumption, a BAS is typically indispensable for efficiently managing heat capture, shading, venting, and scheduling device operation.
Driver: Revolutionizing wireless protocols and wireless sensor network technology for building automation systems
The ongoing development of wireless protocols and standards presents a remarkable opportunity for established industry leaders and newcomers to leverage these technologies and innovate within the building automation system ecosystem. This trend has spurred the emergence of numerous startups, offering an impressive and inventive array of feature-rich products and services. Within this landscape, notable wireless protocols like Z-Wave, ZigBee, and EnOcean have gained prominence. ZigBee, for instance, has evolved into a flourishing ecosystem boasting over 400 companies, collectively engaged in setting standards and producing a wide spectrum of products for diverse smart home applications. Similarly, the Z-Wave protocol encompasses a vast assortment of over 1,000 compact devices, delivering an extensive range of home automation solutions to end-users.
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Restraint: Technical challenges and a shortage of qualified professionals
Building automation systems play a pivotal role in diminishing the need for human involvement in overseeing and upholding various building systems, encompassing lighting, HVAC (Heating, Ventilation, and Air Conditioning), and security and safety systems. Nonetheless, the installation of these systems necessitates adherence to precise specifications and technical standards, which may range from internal organizational requirements to operational protocols and external factors like software comprehension, networking proficiency, system design, and comprehensive testing. The absence of familiarity with these specifications and standards can pose considerable challenges during system deployment.
Opportunity: Integration of building automation system with renewable energy
In the ever-evolving landscape of building automation systems, integration with renewable energy sources will present a compelling opportunity for providers. As the global emphasis on sustainability and renewable energy solutions gains momentum, building automation system companies can position themselves as integral players in the transition to cleaner energy practices. By integrating their systems with renewable energy sources such as solar panels, wind turbines, and geothermal technologies, building automation system providers offer clients the means to not only monitor and manage energy consumption but also to harness the potential of clean, green power. This integration facilitates optimal energy utilization and storage, allowing buildings to draw from renewable sources when available and switch to conventional power when needed, ultimately reducing environmental impact and operating costs.
Challenge: Lack of standardized communication protocols
The effectiveness of building automation systems hinges on the seamless synchronization and communication among the diverse equipment comprising the overall system. Communication protocols serve as pivotal facilitators in ensuring the harmonious integration of various devices and equipment, thus underpinning the efficient operation of building automation systems. Nevertheless, the absence of universal, open communication protocols can give rise to the utilization of different, sometimes incompatible, protocols by these devices. This divergence impedes communication among disparate components and obstructs the effortless functionality of building automation systems, as not all protocols exhibit direct compatibility with one another.
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