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The award-winning Phase Change Matters blog tracks the latest news and research on phase change materials and thermal energy storage. E-mail tips and comments to Ben Welter, communications director at Entropy Solutions. Follow the blog on Twitter at @PureTemp. Subscribe to the monthly PCM newsletter. Or join the discussion on LinkedIn.

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Research roundup: Electrical arc furnace dust; gypsum-based composites; electro-spun coatings; more

Ben Welter - Monday, February 16, 2015

  • Use of PCM–polymer composite dense sheet including EAFD in constructive systems [Energy and Buildings]

  • Preparation and properties of gypsum-based energy storage materials with capric acid-palmitic acid/expanded perlite composite PCM [Energy and Buildings]

  • A simple model to predict the thermal performance of a ventilated facade with phase change materials [Energy and Buildings]

  • Polyethylene glycol/mesoporous calcium silicate shape-stabilized composite phase change material: Preparation, characterization, and adjustable thermal property [Energy]

  • Hierarchical energy management system for multi-source multi-product microgrids [Renewable Energy]

  • Use of Phase Change Materials to Develop Electrospun Coatings of Interest in Food Packaging Applications [Journal of Food Engineering]

  • Research roundup: Nanoparticle-enhanced PCMs; amphiphilic block copolymers; more

    Ben Welter - Thursday, February 12, 2015

  • Energy storage system based on nanoparticle-enhanced phase change material inside porous medium [International Journal of Thermal Sciences]

  • Highly Stable Phase Change Material Emulsions Fabricated by Interfacial Assembly of Amphiphilic Block Copolymers during Phase Inversion [American Chemical Society]

  • Improving thermal conductivity phase change materials—A study of paraffin nanomagnetite composites [Solar Energy Materials and Solar Cells]

  • Energy and economic analysis of a building air-conditioner with a phase change material [Energy Conversion and Management]

  • Research roundup: Paraffin in copper foam; microencapsulated paraffin with poly shell; more

    Ben Welter - Monday, January 12, 2015

  • Experimental analysis of phase change phenomenon of paraffin waxes embedded in copper foams [International Journal of Thermal Sciences]

  • Preparation and characterization of flame retardant phase change materials by microencapsulated paraffin and diethyl ethylphosphonate with poly (methacrylic acid-co-ethyl methacrylate) shell [Journal of Applied Polymer Science]

  • Effect of heating position on thermal energy storage in cavity with/without open-cell metallic foams [Experimental Heat Transfer]

  • Thermal impact of aquifer thermal energy storage systems: a case study in the Netherlands, combining monitoring and modeling [Hydrogeology Journal]
  • Research roundup: N-hexadecanol microencapsulation; flight data recorders; paraffin-based nanofluid; more

    Ben Welter - Thursday, January 08, 2015

  • Microencapsulation of n‐hexadecanol by in situ polymerization of melamine–formaldehyde resin in emulsion stabilized by styrene–maleic anhydride copolymer [International Journal of Energy Research]

  • Thermal protection design for flight data recorders [International Heat Transfer Conference 15]

  • Improving solidification structure of paraffin-based nanofluid by surfactant and ultrasound [International Heat Transfer Conference 15]

  • PCM-based energy recovery from electric arc furnaces [Applied Energy]
  • 20% CAGR projected for advanced PCMs

    Ben Welter - Wednesday, January 07, 2015

    The global market for advanced PCMs is projected to reach $1.47 billion by 2019, according to ReportsnReports.com. That's a compound annual growth rate of more than 20 percent over the next five years. The market for thermal energy storage PCMs is projected to register a CAGR of 22 percent in that period.

    "Organic PCM are projected to have the higher growth rate than inorganic PCM due to the higher prices and ease of microencapsulation for organic PCM," according to the report.

    http://www.reportsnreports.com/reports/237733-advanced-phase-change-material-pcm-market-by-type-inorganic-organic-bio-based-application-building-construction-cold-storage-hvac-textile-thermal-energy-storage-electronics-global-trends-forecast-to-2018.html

    Global demand for PCMs projected to hit $1.47 billion by 2019

    Ben Welter - Monday, December 15, 2014

    The global demand for advanced phase change materials is expected to reach $1.47 billion by 2019. The latest research report on the industry by Markets and Markets attributes the growth to increasing demand for advanced PCM in several areas, including thermal energy storage, building/construction, HVAC, cold chain, shipping, packaging/transportation, textiles and electronics.

    The main types of advanced PCMs are salt hydrates, paraffins and biobased compounds. "Biobased PCM is estimated to have the highest CAGR from 2014 to 2019," the report said. "Prices of biobased PCM are also likely to fall significantly during the same period."

    http://www.marketsandmarkets.com/Market-Reports/advanced-phase-change-material-pcm-market-1087.html