Asia-Pacific Inorganic Advanced Phase Change Materials Market
The Asia-Pacific Inorganic Advanced Phase Change Materials Market is witnessing a high growth due the feasible properties of inorganic PCM which makes it suitable for various end user applications. The report estimates the size of the Asia-Pacific Inorganic Advanced Phase Change Materials Market both, in terms of volume and value. The report provides a comprehensive overview of the key market drivers, challenges and issues. Asia-Pacific Inorganic Advanced Phase Change Materials Market is projected to reach $120.8 million by 2018, growing at a CAGR of 20.8% from 2013 to 2018. The key driver of the market is the rising consumption of the inorganic PCM in major applications such as HVAC, thermal energy storage and fixed refrigeration.
The report “Asia-Pacific Inorganic Advanced Phase Change Materials Market ” defines and segments the Inorganic Advanced Phase Change Materials Market in the region with analyses and projections of the size of the Asia-Pacific Inorganic Advanced Phase Change Materials Market with respect to volume (KT) and value ($Million).
The rising demand for energy saving and environment friendly technology drives the growth of the global phase change material (PCM) market. A highest growth has been observed in Asia-Pacific where most of the companies have already been established.
The inorganic PCM are further classified as salt hydrates and metallic. Inorganic PCMs are widely used because of their higher melting enthalpy and sharper melting points than organic and eutectic PCMs.
Inorganic PCMs were commercialized in early times and therefore, have a bigger market size in terms of volume compared to organic and bio-based.
The Asia-Pacific Inorganic Advanced Phase Change Materials Market report covers the Inorganic Advanced Phase Change Materials Market in the Asia-Pacific region and its trends concerning with major countries. The major applications covered in the Asia-Pacific Inorganic Advanced Phase Change Materials Market are building and construction, commercial refrigeration, HVAC, energy storage, textiles, shipping and transportation and other applications.
Further, as a part of qualitative analysis, this report provides a comprehensive review of important drivers, restraints, opportunities, and key burning issues in the Asia-Pacific Inorganic Advanced Phase Change Materials Market.
The Asia-Pacific Inorganic Advanced Phase Change Materials Market report also provides an extensive competitive landscape of the companies operating in this market. It also includes the company profiles and competitive strategies adopted by various market players such as Honeywell Electronics Materials Inc. (Shanghai), PCM Energy Pvt. Ltd. (India), and other market players in the Asia-Pacific Inorganic Advanced Phase Change Materials Market.
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With Market data, you can also customize MMM assessments that meet your Company’s specific needs. Customize to get comprehensive industry standards and deep dive analysis of the following parameters:
- SWOT for top companies in organic advanced phase change material market in the American region
- Porters 5 force analysis for organic advanced phase change material market
- List of Key manufacturers of inorganic advanced phase change material
- Apart from Inorganic Phase Change Materials, a list of major companies also manufacturing organic and bio-based phase change material
- Comparative Analysis – PCM Products, By Companies, Applications, Geographical Presence
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 Inorganic Advanced Phase Change Material
2.2 Arriving at Asia-Pacific Inorganic 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 Inorganic Advanced Phase Change Material
4.3.1 Drivers of Asia-Pacific Inorganic Advanced Phase Change Material
4.3.1.1 Increasing applications for base of phase change material
4.3.1.2 Energy saving
4.3.2 Inhibitors of Asia-Pacific Inorganic Advanced Phase Change Material
4.3.2.1 Low stability of phase change memory in harsh conditions
4.3.2.2 No Government Subsidy
5 Inorganic Advanced Phase Change Material - Asia-Pacific, By Applications
5.1 Research Methodology
5.2 Demand Side Analysis
5.3 Inorganic Advanced Phase Change Material By Application – HVAC System Snapshot
5.3.1 Inorganic Advanced Phase Change Material By Application - HVAC System Industry
5.3.2 HVAC System – By Geographies
5.4 Inorganic Advanced Phase Change Material By Application - Textiles Manufacturing Snapshot
5.4.1 Inorganic Advanced Phase Change Material By Application - Textiles Manufacturing
5.4.2 Textiles Manufacturing - By Geographies
5.5 Inorganic Advanced Phase Change Material By Application - Energy Storage Systems Snapshot
5.5.1 Inorganic Advanced Phase Change Material By Application - Energy Storage Systems
5.5.2 Energy Storage Systems - By Geographies
5.6 Inorganic Advanced Phase Change Material By Application - Phase change memory Snapshot
5.6.1 Inorganic Advanced Phase Change Material By Application - Phase change memory
5.6.2 Phase change memory - By Geographies
5.7 Inorganic Advanced Phase Change Material By Application – Refrigeration Snapshot
5.7.1 Inorganic Advanced Phase Change Material By Application – Refrigeration
5.7.2 Refrigeration - By Geographies
5.8 Inorganic Advanced Phase Change Material By Application – Building & Construction Snapshot
5.8.1 Inorganic Advanced Phase Change Material By Application – Building & Construction
5.8.2 Building & Construction - By Geographies
5.9 Inorganic Advanced Phase Change Material By Application – Supply Chain Snapshot
5.9.1 Inorganic Advanced Phase Change Material By Application – Supply Chain
5.9.2 Supply Chain - By Geographies
5.10 Inorganic Advanced Phase Change Material By Application – Other Applications Snapshot
5.10.1 Inorganic Advanced Phase Change Material By Application – Other Applications
5.10.2 Other Applications - By Geographies
6 Inorganic Advanced Phase Change Material-Asia-Pacific, By Geographies
6.1 Research Methodology
6.2 Introduction
6.3 Inorganic Advanced Phase Change Material – Asia-Pacific Snapshot
6.4 Inorganic Advanced Phase Change Material – India
6.4.1 Inorganic Advanced Phase Change Material – India By Application
6.4.1.1 Inorganic Advanced Phase Change Material – Marine Industry
6.4.1.2 Inorganic Advanced Phase Change Material – Transportation Industry
6.4.1.3 Inorganic Advanced Phase Change Material – Electrical & Electronics
6.4.1.4 Inorganic Advanced Phase Change Material – Pipes & Tanks
6.4.1.5 Inorganic Advanced Phase Change Material – Building & Construction
6.4.1.6 Inorganic Advanced Phase Change Material – Wind Energy
6.4.1.7 Inorganic Advanced Phase Change Material – Supply Chain
6.4.1.8 Inorganic Advanced Phase Change Material – Other Applications
6.5 Inorganic Advanced Phase Change Material – China
6.5.1 Inorganic Advanced Phase Change Material – China By Application
6.5.1.1 Inorganic Advanced Phase Change Material – Marine Industry
6.5.1.2 Inorganic Advanced Phase Change Material – Transportation Industry
6.5.1.3 Inorganic Advanced Phase Change Material – Electrical & Electronics
6.5.1.4 Inorganic Advanced Phase Change Material – Pipes & Tanks
6.5.1.5 Inorganic Advanced Phase Change Material – Building & Construction
6.5.1.6 Inorganic Advanced Phase Change Material – Wind Energy
6.5.1.7 Inorganic Advanced Phase Change Material – Supply Chain
6.5.1.8 Inorganic Advanced Phase Change Material – Other Applications
6.6 Inorganic Advanced Phase Change Material – Japan
6.6.1 Inorganic Advanced Phase Change Material – Japan By Application
6.6.1.1 Inorganic Advanced Phase Change Material – Marine Industry
6.6.1.2 Inorganic Advanced Phase Change Material – Transportation Industry
6.6.1.3 Inorganic Advanced Phase Change Material – Electrical & Electronics
6.6.1.4 Inorganic Advanced Phase Change Material – Pipes & Tanks
6.6.1.5 Inorganic Advanced Phase Change Material – Building & Construction
6.6.1.6 Inorganic Advanced Phase Change Material – Wind Energy
6.6.1.7 Inorganic Advanced Phase Change Material – Supply Chain
6.6.1.8 Inorganic Advanced Phase Change Material – Other Applications
6.7 Inorganic Advanced Phase Change Material – Australia
6.7.1 Inorganic Advanced Phase Change Material – Australia By Application
6.7.1.1 Inorganic Advanced Phase Change Material – Marine Industry
6.7.1.2 Inorganic Advanced Phase Change Material – Transportation Industry
6.7.1.3 Inorganic Advanced Phase Change Material – Electrical & Electronics
6.7.1.4 Inorganic Advanced Phase Change Material – Pipes & Tanks
6.7.1.5 Inorganic Advanced Phase Change Material – Building & Construction
6.7.1.6 Inorganic Advanced Phase Change Material – Wind Energy
6.7.1.7 Inorganic Advanced Phase Change Material – Supply Chain
6.7.1.8 Inorganic Advanced Phase Change Material – Other Applications
6.8 Inorganic Advanced Phase Change Material – South Korea
6.8.1 Inorganic Advanced Phase Change Material – South Korea By Application
6.8.1.1 Inorganic Advanced Phase Change Material – Marine Industry
6.8.1.2 Inorganic Advanced Phase Change Material – Transportation Industry
6.8.1.3 Inorganic Advanced Phase Change Material – Electrical & Electronics
6.8.1.4 Inorganic Advanced Phase Change Material – Pipes & Tanks
6.8.1.5 Inorganic Advanced Phase Change Material – Building & Construction
6.8.1.6 Inorganic Advanced Phase Change Material – Wind Energy
6.8.1.7 Inorganic Advanced Phase Change Material – Supply Chain
6.8.1.8 Inorganic Advanced Phase Change Material – Other Applications
6.9 Inorganic Advanced Phase Change Material – Taiwan
6.9.1 Inorganic Advanced Phase Change Material – Taiwan By Application
6.9.1.1 Inorganic Advanced Phase Change Material – Marine Industry
6.9.1.2 Inorganic Advanced Phase Change Material – Transportation Industry
6.9.1.3 Inorganic Advanced Phase Change Material – Electrical & Electronics
6.9.1.4 Inorganic Advanced Phase Change Material – Pipes & Tanks
6.9.1.5 Inorganic Advanced Phase Change Material – Building & Construction
6.9.1.6 Inorganic Advanced Phase Change Material – Wind Energy
6.9.1.7 Inorganic Advanced Phase Change Material – Supply Chain
6.9.1.8 Inorganic Advanced Phase Change Material – Other Applications
7 Inorganic 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 Sonoco Products Co.
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PRODUCT TITLE | PUBLISHED | |
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Americas Advanced Phase Change Materials Advanced Phase Change Materials-Americas and Inorganic Advanced Phase Change Materials, |
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Europe Advanced Phase Change Materials Advanced Phase Change Materials-Europe and Inorganic Advanced Phase Change Materials, |
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Asia-Pacific Advanced Phase Change Materials Advanced Phase Change Materials-Asia-Pacific and Inorganic Advanced Phase Change Materials, |
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Middle East and Africa Advanced Phase Change Materials Advanced Phase Change Materials-Middle East and Africa and Inorganic Advanced Phase Change Materials, |
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