Phase Change Material (PCM) is basically an energy storage technology. They are used in the thermal packaging industry to maintain a temperatureāsensitive product within the manufacturer’s required temperature range, especially during all transportation phases. Advanced PCM materials are used at commercial level as they help adhere to the carbon credits allotted to buildings.
The European advanced phase change materials market is one of the most emerging markets in the temperature controlled packaging and textile industries. The market is expected to grow at a CAGR of 21.9% from 2013 to 2018. The growth in the market is triggered by the increasing consumption of eco-friendly applications, such as heating ventilation and air conditioning system (HVAC). This growth is also attributed to the climatic condition in the European region that directly fuels the demand of textile industry. These factors result in accelerating the market growth of advanced PCM’s, with respect to the textile industry being its most important end-user.
The European advanced phase change materials market is segmented on the basis of application, sub-market, and geography. The market segmented in terms of application covers building & construction, energy storage systems, HVAC system, phase change memory, refrigeration, supply chain, and textile application among others. On the basis of sub-market, the advanced PCM market is classified into organic, inorganic, and bio-based PCM’s.
The market is further segmented on the basis of geography that includes countries, such as Germany, France, and the U.K., among others. Europe offers a lucrative market to PCM players due to its focus on energy security. It significantly reduces energy consumption in applications, such as HVAC systems and solar heaters.
The market report also covers some of the leading companies operating in this region. They are BASF SE, Ewald Dörken AG, Intel Corporation, Honeywell Electronics Materials Inc., and Micron Technologies Inc., among others.
This market research involves the usage of both primary and secondary data. It offers a comprehensive overview of the drivers, restraints, and upcoming opportunities. This report also lays emphasis on the comprehensive landscape of companies thriving in this market, along with their product portfolio, recent developments, growth strategies & trends, financials, and market share.
1 Introduction
1.1 Objective of the study
1.2 Market Definitions and scope of the study
1.3 Markets Covered
1.4 Stakeholders
2. Research Methodology
2.1 Integrated Ecosystem of Americas Advanced Phase Change Material
2.2 Arriving at Americas Advanced Phase Change Material Size
2.3 Top Down Approach
2.4 Bottom Up
2.5 Assumptions
3 Executive Summary
4 Market Overview
4.1 Introduction
4.2 Parent Market Comparison
4.3 Drivers and Inhibitors of Americas Advanced Phase Change Material
4.3.1 Drivers of Americas Advanced Phase Change Material
4.3.1.1 Regulations
4.3.1.2 Comfort in textile
4.3.1.3 Energy saving
4.3.1.4 Lower green house gas emissions
4.3.1.5 Used for both heating and cooling purposes
4.3.2 Inhibitors of Americas Advanced Phase Change Material
4.3.2.1 Shifting Cost
4.3.2.2 High flammability & corrosiveness
5 Advanced Phase Change Material - Americas, By Applications
5.1 Research Methodology
5.2 Demand Side Analysis
5.3 Advanced Phase Change Material By Application – HVAC System Snapshot
5.3.1 Advanced Phase Change Material By Application - HVAC System Industry
5.3.2 HVAC System – By Geographies
5.4 Advanced Phase Change Material By Application - Textiles Manufacturing Snapshot
5.4.1 Advanced Phase Change Material By Application - Textiles Manufacturing
5.4.2 Textiles Manufacturing - By Geographies
5.5 Advanced Phase Change Material By Application - Energy Storage Systems Snapshot
5.5.1 Advanced Phase Change Material By Application - Energy Storage Systems
5.5.2 Energy Storage Systems - By Geographies
5.6 Advanced Phase Change Material By Application - Phase change memory Snapshot
5.6.1 Advanced Phase Change Material By Application - Phase change memory
5.6.2 Phase change memory - By Geographies
5.7 Advanced Phase Change Material By Application – Refrigeration Snapshot
5.7.1 Advanced Phase Change Material By Application – Refrigeration
5.7.2 Refrigeration - By Geographies
5.8 Advanced Phase Change Material By Application – Building & Construction Snapshot
5.8.1 Advanced Phase Change Material By Application – Building & Construction
5.8.2 Building & Construction - By Geographies
5.9 Advanced Phase Change Material By Application – Supply Chain Snapshot
5.9.1 Advanced Phase Change Material By Application – Supply Chain
5.9.2 Supply Chain - By Geographies
5.10 Advanced Phase Change Material By Application – Other Applications Snapshot
5.10.1 Advanced Phase Change Material By Application – Other Applications
5.10.2 Other Applications - By Geographies
6 Advanced Phase Change Material-Americas, By Geographies
6.1 Research Methodology
6.2 Introduction
6.3 Advanced Phase Change Material – Americas Snapshot
6.4 Advanced Phase Change Material – U.K.
6.4.1 Advanced Phase Change Material – U.K. By Application
6.4.1.1 Advanced Phase Change Material – Marine Industry
6.4.1.2 Advanced Phase Change Material – Transportation Industry
6.4.1.3 Advanced Phase Change Material – Electrical & Electronics
6.4.1.4 Advanced Phase Change Material – Pipes & Tanks
6.4.1.5 Advanced Phase Change Material – Building & Construction
6.4.1.6 Advanced Phase Change Material – Wind Energy
6.4.1.7 Advanced Phase Change Material – Supply Chain
6.4.1.8 Advanced Phase Change Material – Other Applications
6.5 Advanced Phase Change Material – France
6.5.1 Advanced Phase Change Material – France By Application
6.5.1.1 Advanced Phase Change Material – Marine Industry
6.5.1.2 Advanced Phase Change Material – Transportation Industry
6.5.1.3 Advanced Phase Change Material – Electrical & Electronics
6.5.1.4 Advanced Phase Change Material – Pipes & Tanks
6.5.1.5 Advanced Phase Change Material – Building & Construction
6.5.1.6 Advanced Phase Change Material – Wind Energy
6.5.1.7 Advanced Phase Change Material – Supply Chain
6.5.1.8 Advanced Phase Change Material – Other Applications
6.6 Advanced Phase Change Material – Germany
6.6.1 Advanced Phase Change Material – Germany By Application
6.6.1.1 Advanced Phase Change Material – Marine Industry
6.6.1.2 Advanced Phase Change Material – Transportation Industry
6.6.1.3 Advanced Phase Change Material – Electrical & Electronics
6.6.1.4 Advanced Phase Change Material – Pipes & Tanks
6.6.1.5 Advanced Phase Change Material – Building & Construction
6.6.1.6 Advanced Phase Change Material – Wind Energy
6.6.1.7 Advanced Phase Change Material – Supply Chain
6.6.1.8 Advanced Phase Change Material – Other Applications
6.7 Advanced Phase Change Material – Italy
6.7.1 Advanced Phase Change Material – Italy By Application
6.7.1.1 Advanced Phase Change Material – Marine Industry
6.7.1.2 Advanced Phase Change Material – Transportation Industry
6.7.1.3 Advanced Phase Change Material – Electrical & Electronics
6.7.1.4 Advanced Phase Change Material – Pipes & Tanks
6.7.1.5 Advanced Phase Change Material – Building & Construction
6.7.1.6 Advanced Phase Change Material – Wind Energy
6.7.1.7 Advanced Phase Change Material – Supply Chain
6.7.1.8 Advanced Phase Change Material – Other Applications
6.8 Advanced Phase Change Material – Spain
6.8.1 Advanced Phase Change Material – Spain By Application
6.8.1.1 Advanced Phase Change Material – Marine Industry
6.8.1.2 Advanced Phase Change Material – Transportation Industry
6.8.1.3 Advanced Phase Change Material – Electrical & Electronics
6.8.1.4 Advanced Phase Change Material – Pipes & Tanks
6.8.1.5 Advanced Phase Change Material – Building & Construction
6.8.1.6 Advanced Phase Change Material – Wind Energy
6.8.1.7 Advanced Phase Change Material – Supply Chain
6.8.1.8 Advanced Phase Change Material – Other Applications
6.9 Advanced Phase Change Material – Russia
6.9.1 Advanced Phase Change Material – Russia By Application
6.9.1.1 Advanced Phase Change Material – Marine Industry
6.9.1.2 Advanced Phase Change Material – Transportation Industry
6.9.1.3 Advanced Phase Change Material – Electrical & Electronics
6.9.1.4 Advanced Phase Change Material – Pipes & Tanks
6.9.1.5 Advanced Phase Change Material – Building & Construction
6.9.1.6 Advanced Phase Change Material – Wind Energy
6.9.1.7 Advanced Phase Change Material – Supply Chain
6.9.1.8 Advanced Phase Change Material – Other Applications
7 Advanced Phase Change Material-Americas, By Companies
7.1 Competitive Landscape
7.1.1 Merger & Acquisition
7.1.2 Other Expansion
7.1.3 New Synergies
7.2 SGL ROTEC GMBH & CO. KG
7.3 Rubitherm Technologies GMBH
7.4 Ewald Dörken AG
7.5 Climator Sweden AB
7.6 SALCA BV
7.7 Phase Change Material Products Limited
7.8 Cryopak Inc.
7.9 BASF SE
7.10 Outlast Technologies LIC
7.11 Emco Klimatechnik Gmbh & Co. KG
7.12 Datum Phase Change Ltd
7.13 E.I. DU Pont DE Nemours
7.14 Sonoco Products Co.
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