Int'l : +1-503-894-6022 | Toll Free : +1-800-792-5285 | help@alliedmarketresearch.com
A01645 | Pages: 226 | Charts: 63 | Tables: 104 |
The global advanced phase change materials market was valued at $1.4 billion in 2020, and is projected to reach $4.5 billion by 2030, growing at a CAGR of 12.61% from 2021 to 2030. Advanced phase change materials are substances with high capacity to store and release large amounts of energy in the form of latent heat during phase change. Energy radiation is emitted when the physical state of the material changes at a constant temperature. The purpose is to utilize latent heat. In the event of an energy crisis, it is important to make effective use of existing energy supplies. The phase change material is also called latent heat storage.
In today's world, temperature-controlled packaging plays an important role in a variety of industries, such as food & beverages, pharmaceuticals, and biomedicine. Due to the rapid industrialization, the need for efficient refrigeration and transportation is increasing. The rise in demand for efficient temperature control materials drives demand for advanced phase change materials. Companies globally have adopted good distribution practice guidelines to verify their products and ensure that they are not exposed to harsh conditions that can affect quality in transit. Pharmaceuticals and biomedical products require some degree of temperature protection during transit.
Strict regulations for energy efficient construction and the surge in importance of energy conservation and sustainable development are expected to be key factors that drive the demand for advanced phase change materials during the forecast period. In addition, the growing demand for efficient insulation in commercial freezing and HVAC applications is estimated to increase the demand for advanced phase change materials. However, high product costs and relatively low awareness in developing markets are predicted to continue to limit market growth. Technological advances associated with the development of phase change materials and adoption of environmentally friendly solutions are expected to bring significant opportunities to the advanced phase change materials market.
The advanced phase change materials market is segmented on the basis of type, application, and region.
On the basis of type, it is categorized into organic PCM, inorganic PCM, and bio-based PCM. On the basis of application, it is segregated into building & construction, energy storage, HVAC, shipping & transportation, electronics, textiles, and others. By geography, the market is analyzed across North America, Europe, Asia-Pacific, and LAMEA. The Asia-Pacific region accounted for largest market share of the total revenue in 2020, followed by North America and Europe. The high adoption of phase change materials products in the region are expected to continue to bolster the advanced phase change materials market growth, due to presence of huge population base and presence of many developing countries in the region.
The key players operating in the global advanced phase change materials market are BASF SE, Entropy Solutions, Sonoco Products Company, Outlast Technologies LLC., Advansa B.V., E. I. Du Pont De Nemours and Company, Phase Change Energy Solutions, Cryopak Inc., Microtek Laboratories, Inc., and Pluss Advanced Technologies Pvt. Ltd. Other players in the value chain (not profiled in the report) include, Phase Change Materials Products Ltd., Rubitherm Technologies GmbH, Ciat Group, Datum Phase Change Ltd., Emco Klimatechnik Gmbh & Co. KG, Rgees LLC., Climator Sweden AB, Ewald Dörken AG, and Laird PLC., Companies operating in the global market compete for the share of the market through product launch, joint venture, partnership, and expanding the production capabilities to meet the future demand for the advanced phase change materials market during the forecast period.
[APPLICATIONGRAPH]
The buildings & construction segment dominates the global advanced phase change materials market. Advanced phase change materials have a very important role to play in the construction industry, with the objective of saving energy and ensuring a clean and green future. With the advent of stringent regulations for energy efficient construction, particularly in the developed regions, has led to increase in demand for highly efficient and advanced thermal insulation materials. Also, the increase in emphasis towards green construction and rise in focus on energy conservation have amplified the demand for highly efficient and innovative construction materials owing to which, advanced phase change materials are being used in several applications, such as under floor electric heating system, phase change materials (PCM) filled glass windows, thermal efficient concrete, and other areas.
[TYPEGRAPH]
The bio-based segment is expected to possess highest market growth till 2030. Bio-based PCMs are a green alternative, such as fatty acid esters and fatty acids. Bio-based PCMs are materials derived from renewable and environment-friendly resources, from the agro-food sector production and its by-products, including food-grade materials, such as palm kernel oil, palm oil, coconut oil, and soybean oil. It is becoming more and more important for improving sustainability, minimizing environmental impact, and reducing carbon footprint in all sectors, as commercial materials used in most of the manufacturing industries are environment-friendly.
Organic PCMs are currently the most popular group of phase change materials and are often referred to as paraffin and non-paraffin. Non-paraffins are mostly derived from food-grade materials (vegetable oil) and are environment-friendly. However, considering the ever-growing global population, which increases the ever-growing food demand, in conjunction with the 2nd goal for sustainable development of the 2030 agenda adopted by all United Nations member state in 2015, there is need to focus attention on waste materials, such as food wastes, byproducts from agro-based food industries, and non-edible components of food crops, as potential bio-based PCMs substitute.
[REGIONGRAPH]
Asia-Pacific segment is expected to possess highest market growth till 2030 consisting of countries, such as China, India, Japan, South Korea, and rest of Asia-Pacific. Growth of textile and manufacturing sectors driven by substantial rise in personal income level coupled with improved monetary condition is the key factor that supports the market growth during the forecast spell. Countries such as China and India have begun to use PCMs in packaging, shipping applications, and transportation. China generates the most important profits related to PCM, which is expected to increase during the forecast period, thus driving market growth in the region. In China, phase change materials are used in different application sectors, including electronics, construction, packaging, and other industries. The Chinese government implemented several initiatives that focus on green development and rapid urbanization in the country. Advanced phase change materials are used in the development of green buildings owing to their unique properties. Hence, the PCM market holds immense potential for growth in the region during the forecast period.
Key Market Segments
Key Market Players