The Global Thermal Energy Storage Market size is expected to reach $35.4 billion by 2028, rising at a market growth of 8.0% CAGR during the forecast period.
Thermal energy storage is a form of energy retention where different materials are employed to store energy when temperatures increase and lose energy as it falls. Heat pumps, heat generated by power plants, and waste are the most common sources of thermal energy storage. These energy storage devices minimize energy demand during peak hours, reduce carbon dioxide emissions, and reduce end-user energy usage. It's frequently used in thermal and solar power stations to provide dispatch able power even at night, as well as in process industries to use heat.
Thermal energy storage uses ice, cold air, or water to transmit and store energy for later use. It utilizes molten salt, ice, and emulsification gap alloy technology to store sensible, latent, and thermochemical heat. Some of these technologies are used to store hot or cold energy in order to power electrical systems in corporate and domestic buildings, while others are used to store solar energy in the summertime and then utilize it in the winter. This helps to prevent excessive use of conventional energy from grid systems.
Thermal Energy Storage systems have the potential to help humanity to achieve its goal of more reliable and efficient energy storage systems. The integration of value-added renewable energy with thermal energy storage systems opens up a world of possibilities for low-energy design and paves the path for a more sustainable society.
To overcome the solar resource's intermittency, concentrated solar power and its combination with thermal energy storage are critical. As a result, solar thermal power can be used during periods when there is no sunlight. The demand for energy storage is projected to expand as the acceptance of renewable energy grows. Thermal energy storage is safe, dependable, and environmentally benign. The thermal energy storage industry is expected to develop in the next years as a result of this.
The market research report covers the analysis of key stake holders of the market. Key companies profiled in the report include Baltimore Aircoil Company, Inc.(Amsted Industries), Steffes, LLC, Dunham Bush Limited (Yantai Moon Group Co Ltd) (Moon Environment Technology Co., Ltd.), Evapco, Inc., SR ENERGY (SolarReserve), Caldwell Energy Company, Abengoa, BrightSource Energy, Inc., Terrafore Technologies, LLC, and Goss, Inc.
By Technology
Thermal energy storage is a form of energy retention where different materials are employed to store energy when temperatures increase and lose energy as it falls. Heat pumps, heat generated by power plants, and waste are the most common sources of thermal energy storage. These energy storage devices minimize energy demand during peak hours, reduce carbon dioxide emissions, and reduce end-user energy usage. It's frequently used in thermal and solar power stations to provide dispatch able power even at night, as well as in process industries to use heat.
Thermal energy storage uses ice, cold air, or water to transmit and store energy for later use. It utilizes molten salt, ice, and emulsification gap alloy technology to store sensible, latent, and thermochemical heat. Some of these technologies are used to store hot or cold energy in order to power electrical systems in corporate and domestic buildings, while others are used to store solar energy in the summertime and then utilize it in the winter. This helps to prevent excessive use of conventional energy from grid systems.
Thermal Energy Storage systems have the potential to help humanity to achieve its goal of more reliable and efficient energy storage systems. The integration of value-added renewable energy with thermal energy storage systems opens up a world of possibilities for low-energy design and paves the path for a more sustainable society.
To overcome the solar resource's intermittency, concentrated solar power and its combination with thermal energy storage are critical. As a result, solar thermal power can be used during periods when there is no sunlight. The demand for energy storage is projected to expand as the acceptance of renewable energy grows. Thermal energy storage is safe, dependable, and environmentally benign. The thermal energy storage industry is expected to develop in the next years as a result of this.
COVID-19 Impact Analysis
Financing, policy uncertainty, and grid integration were already posing challenges to the utilization of renewable energy technology in numerous markets at the start of 2021, and COVID-19 has added to the mix of problems. According to the IEA, The COVID-19 crisis had a considerable negative impact on renewable power capacity increase and thus on the thermal energy storage market. The number of new renewable electricity projects is expected to decline in 2021, according to IEA forecasts, as a result of the greater international COVID-19 issue. For the first time in 20 years since 2000, annual renewable energy capacity has declined.Market Growth Factors:
Energy storage is in high demand to support ever-increasing solar energy generation
Decarbonization of the energy sector and carbon emission reductions to limit world climate change are among the most prominent priorities for governments, energy regulators, and corporations across the world. According to IRENA, accelerating renewable energy deployment, along with electrification and enhanced electric grid energy efficiency, can assist accomplish over 90% of the energy-related CO2 emission reductions required to reach the Paris Climate objectives by 2050. According to IRENA, the renewable energy capacity factor was 176 GW larger in 2019 than it was in 2018, a rise of 7.4%. Solar power continues to increase rapidly; in 2018, it surpassed biofuels as the third-largest source of renewable electricity. In 2018, solar and wind energy generation climbed by 28% and 11%, correspondingly.Fragmentation of the Thermal Renewable Energy Sector
A decentralized energy system is defined by the proximity of energy-producing facilities to energy consuming sites. A decentralized energy system makes better use of renewable energy and combined heat and power, minimizes fossil fuel consumption, and improves environmental efficiency. In most nations, a decentralized energy system is a comparatively recent approach to the power business. Typically, the power sector has focused on creating huge, central power stations and delivering generation loads to consumers in the region through extensive transmission and distribution lines.Marketing Restraining Factor:
Preliminary set costs are high depending on technology
Thermal energy storage costs vary depending on the requirements, size, and thermal barrier technique used. Thermal storage systems based on phase transition materials and thermo-chemical storage are frequently more expensive than the storage space value they offer. The price of storage systems accounts for roughly 30% to 40% of the entire system cost. Thermal energy storage solutions are expected to become more competitive eventually as research into energy storage technology continues to reduce the upfront capital requirement. Sensible heat storage has storage capacities ranging from 10 kWh/t to 50 kWh/t and storage efficiencies ranging from 50% to 90%, depending on the storage medium's specific heat and thermal insulation technology.
Technology Outlook
Based on Technology, the market is segmented into Sensible, Thermochemical, and Latent. The thermochemical segment registered a significant revenue share in the thermal energy storage market in 2021. The thermochemical heat collected by distinct substances is discharged when a counter-reaction occurs between them in this storage. When it is compared to latent or sensible heat storage systems, thermochemical storage systems have a higher energy density. This type of heat storage is better for long-term storage because losses only happen during the charging and discharging periods.Storage Material Outlook
Based on Storage Material, the market is segmented into Water, Molten Salt, Phase Change Material (pcm), and Others. The water segment garnered the highest revenue share in the thermal energy storage market in 2021. Water is the most often used medium for storing heat energy since it has one of the hottest setting capacities of 4.2 J/(cms. K). It's used in a variety of applications, including heat storage tanks, stones, masonry, and hot rocks. The steam produced is then used to power turbines, which produce a reduced cost, high-efficiency electricity.End-user Outlook
Based on End-user, the market is segmented into Commercial & Industrial, Utilities, and Residential. The utilities segment registered a substantial revenue share in the thermal energy storage market in 2021. As a realistic demand-side management tool, thermal energy storage technologies are implemented in electric utility plants. These systems store thermal energy in tanks using ice or refrigerated water technologies during off-peak utility hours. Moving consumer power demand to off-peak hours, helps meet maximum consumption with fewer power plants. Many utilities now offer customers time-of-day pricing, in which they sell power at a cheaper rate during off-peak hours. Broadband connection, natural gas, transportation, water, sewage, telephone, and electricity are all included in this category.Application Outlook
Based on Application, the market is segmented into Heating, Power Generation, and Cooling. The heating segment acquired the largest revenue share in the thermal energy storage market in 2021. Due to an increase in demand for heating and cooling purposes such as heating water, apartment heating and cooling, and in some cases to meet power generation needs. Furthermore, during the forecasted period, an increase in awareness of the pollution caused by traditional heating and cooling systems such as boilers, fossil fuels, and others is expected to fuel the desire for thermal energy storage.Regional Outlook
Based on Regions, the market is segmented into North America, Europe, Asia Pacific, and Latin America, Middle East & Africa. The European region procured the highest revenue share in the thermal energy storage market in 2021. The presence of a large customer base, quick expansion of the thermal energy storage industry, and the presence of significant businesses in the region are all factors contributing to this. Additionally, the presence of rising and growing economies like Germany, France, Italy, Spain, and the United Kingdom promotes a desire for thermal energy storage heating and cooling applications, which is expected to contribute to the market's growth in Europe.The market research report covers the analysis of key stake holders of the market. Key companies profiled in the report include Baltimore Aircoil Company, Inc.(Amsted Industries), Steffes, LLC, Dunham Bush Limited (Yantai Moon Group Co Ltd) (Moon Environment Technology Co., Ltd.), Evapco, Inc., SR ENERGY (SolarReserve), Caldwell Energy Company, Abengoa, BrightSource Energy, Inc., Terrafore Technologies, LLC, and Goss, Inc.
Recent Strategies Deployed in Thermal Energy Storage Market
- 2022-Apr: Dunham-Bush unveiled WCFX-E HP, the new Poseidon series water-cooled screw heat pump. The WCFX-E HP is available in both 50Hz and 60Hz and designed with Dunham-Bush vertical screw compressors that are endorsed by more than 45years of experience to provide admirable heating reliability and performance.
- 2022-Feb: Evapco completed the acquisition of Systèmes LMP, a CO2 refrigeration systems manufacturer. Through this acquisition, the company aimed to reinforce its ammonia-based enterprise technology portfolio by developing into LMP's product suite and carbon dioxide expertise. Additionally, Evapco is expected to await the strategic alliance to support its attempt to fulfill growing market needs for ecosystem continuous refrigeration systems utilizing organic refrigerants.
- 2022-Feb: Steffes came into a partnership with The Master Group, a leader in the heating, ventilation, air conditioning, and refrigeration sectors. Through this partnership, the Master Group is expected to resell and administer domestic Steffes heating products in the Canadian market and offer Steffes the chance to reinforce its existence in the territory of Nova and Quebec Scotia through Master's network of contractors.
- 2021-Dec: Dunham-Bush expanded its DB-Aire series by launching DB-Aire In Row. The control unit product is available in both the Chilled Water system and Air-Cooled DX system, with the latest in-row cooling solution developed for accurate humidity and temperature control with ideal cooling in a compressed area.
- 2021-Jul: Baltimore Aircoil completed the acquisition of Eurocoil, a manufacturer of heat exchangers serving the European refrigeration industry. Through this acquisition, Eurocoil aimed to boost Baltimore Aircoil's production abilities in the region, while inserting additional heat exchanger abilities utilized for BAC's existing evaporative adiabatic and hybrid cooling products.
- 2020-Oct: Steffes introduced Steffes Connect, the first web-based application. The Steffes Connect offers IoT capabilities to authorize lenders with the remote control and transparency of the Steffes heating system at any time from anywhere.
- 2020-Mar: Baltimore Aircoil expanded its prevailing TrilliumSeries Adiabatic Products. The expansion product suite offers cooler fluid models for reducing charge refrigeration applications and software improvements for all models that advance fan energy usage based on system state. Additionally, suite improvements is expected to add flexibility to consumer control in nighttime and winter operation.
- 2019-Apr: Baltimore Aircoil unveiled the HXV Hybrid Cooler, provider of the best of both evaporative and dry cooling in a water-saving and energy-efficient solution. The HXV Hybrid Cooler offers top-notch performance for a diversity of applications where water prices are high, uptime is crucial, water is short or the plume is a worry. Additionally, HXV Hybrid Cooler is ideal for the most challenging projects, such as industrial, data centers, production and HVAC.
- 2018-Jan: SolarReserve received a Development Approval for its Aurora Solar Energy Project, to construct the landmark 150-megawatt solar thermal power station 30 kilometers north of Port Augusta. This approval offers a range of crucial elements such as community, ecosystem, and social collision of the Aurora project, which were negotiated by several South Australian Government organizations.
Scope of the Study
Market Segments Covered in the Report:
By Technology
- Sensible
- Thermochemical
- Latent
- Water
- Molten Salt
- Phase Change Material (pcm)
- Others
- Commercial & amp; Industrial
- Utilities
- Residential
- Heating
- Power Generation
- Cooling
By Geography
- North America
- US
- Canada
- Mexico
- Rest of North America
- Europe
- Germany
- UK
- France
- Russia
- Spain
- Italy
- Rest of Europe
- Asia Pacific
- China
- Japan
- India
- South Korea
- Singapore
- Malaysia
- Rest of Asia Pacific
- LAMEA
- Brazil
- Argentina
- UAE
- Saudi Arabia
- South Africa
- Nigeria
- Rest of LAMEA
Key Market Players
List of Companies Profiled in the Report:
- Baltimore Aircoil Company, Inc.(Amsted Industries)
- Steffes, LLC
- Dunham Bush Limited (Yantai Moon Group Co Ltd) (Moon Environment Technology Co., Ltd.)
- Evapco, Inc.
- SR ENERGY (SolarReserve)
- Caldwell Energy Company
- Abengoa
- BrightSource Energy, Inc.
- Terrafore Technologies, LLC
- Goss, Inc.
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Table of Contents
Chapter 1. Market Scope & Methodology
Chapter 2. Market Overview
Chapter 4. Global Thermal Energy Storage Market by Technology
Chapter 5. Global Thermal Energy Storage Market by Storage Material
Chapter 6. Global Thermal Energy Storage Market by End-user
Chapter 7. Global Thermal Energy Storage Market by Application
Chapter 8. Global Thermal Energy Storage Market by Region
Chapter 9. Company Profiles
Companies Mentioned
- Baltimore Aircoil Company, Inc.(Amsted Industries)
- Steffes, LLC
- Dunham Bush Limited (Yantai Moon Group Co Ltd) (Moon Environment Technology Co., Ltd.)
- Evapco, Inc.
- SR ENERGY (SolarReserve)
- Caldwell Energy Company
- Abengoa
- BrightSource Energy, Inc.
- Terrafore Technologies, LLC
- Goss, Inc.
Methodology
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