The Asia-Pacific advanced phase change materials market is one of the most developing markets in the temperature controlled packaging and textile industries. Phase Change Material (PCM) is basically an energy storage technology, which is primarily preferred for commercial applications. 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. The market is expected to grow at a CAGR of 19.2% from 2013 to 2018. The market growth is mainly attributed to the rise in construction works. This is due to the increasing urbanization, which in turn is expected to boost the market in the future.
The Asia-Pacific advanced phase change materials market is segmented on the basis of application, sub-market, and geography. With respect to application, the market is categorized into building & construction, energy storage systems, HVAC system, phase change memory, refrigeration, supply chain, and textile application among others. On the basis of sub-market, it includes organic, inorganic, and bio-based PCM materials.
The market is further segmented on the basis of geography that includes countries such as, Japan, India, and China among others. In the Asia-Pacific advanced phase change materials market, China and India are the potential markets due to their rising demand of advanced PCM materials in the building and construction industry that is triggered by the rapid increase in population. In addition to this, advanced technological improvements made in the field of PCM materials in order to supply highly eco-friendly products to its end-users has also played a responsible role in uplifting the growth of this market in the Asia-Pacific region.
The market report covers some of the leading companies operating in this region, such as BASF SE, Ewald Dörken AG, Intel Corporation, Honeywell Electronics Materials Inc., Micron Technologies Inc., CIAT Group, and Cryopak Inc., among others.
The emerging opportunities in this market have been identified in the report on the basis of secondary research data, such as press releases and industry white papers.The market report offers a comprehensive overview of the market share, value chain analysis, and market metrics such as drivers, restraints, and upcoming opportunities. It also lays emphasis on the comprehensive landscape of companies thriving in this market, along with their product portfolio, recent developments, growth strategies & trends, and company financials.
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 Asia-Pacific Advanced Phase Change Material
2.2 Arriving at Asia-Pacific 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 Asia-Pacific Advanced Phase Change Material
4.3.1 Drivers of Asia-Pacific Advanced Phase Change Material
4.3.1.1 Use of PCM for room temperature control
4.3.1.2 Increasing applications for base of phase change material
4.3.1.3 Energy saving
4.3.1.4 Regulations
4.3.2 Inhibitors of Asia-Pacific Advanced Phase Change Material
4.3.2.1 High cost of pcm
4.3.2.2 No Government Subsidy
4.3.2.3 Low availability of right grade PCM for textile
5 Advanced Phase Change Material - Asia-Pacific, 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-Asia-Pacific, By Geographies
6.1 Research Methodology
6.2 Introduction
6.3 Advanced Phase Change Material – Asia-Pacific Snapshot
6.4 Advanced Phase Change Material – India
6.4.1 Advanced Phase Change Material – India 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 – China
6.5.1 Advanced Phase Change Material – China 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 – Japan
6.6.1 Advanced Phase Change Material – Japan 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 – Australia
6.7.1 Advanced Phase Change Material – Australia 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 – South Korea
6.8.1 Advanced Phase Change Material – South Korea 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 – Taiwan
6.9.1 Advanced Phase Change Material – Taiwan 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-Asia-Pacific, By Companies
7.1 Competitive Landscape
7.1.1 Merger & Acquisition
7.1.2 Other Expansion
7.1.3 New Synergies
7.2 Rubitherm Technologies GMBH
7.3 Ewald Dörken AG
7.4 Cryopak Inc.
7.5 PCM Energy P. Ltd
7.6 Pluss Polymers Pvt. Ltd
7.7 BASF SE
7.8 Entropy Solutions Inc.
7.9 E.I. DU Pont DE Nemours
7.10 Honeywell Business Segments
7.11 Sonoco Products Co.
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