Preparation and Characterization of Alkanoic Acid Grafted Hydroxypropyl Cellulose Phase Change Materials

doi:10.11944/j.issn.1000-0518.2015.05.140303

Chinese Journal of Applied Chemistry ›› 2015, Vol. 32 ›› Issue (5): 535-541.DOI: 10.11944/j.issn.1000-0518.2015.05.140303

Previous Articles Next Articles

Preparation and Characterization of Alkanoic Acid Grafted Hydroxypropyl Cellulose Phase Change Materials

CHEN Xi^{a, b}, ZHANG Nan^{a, b}, LIU Lingzhi^a, MEN Yongfeng^{a, *}

^aState Key laboratory of Polymer Physics and Chemistry, Changchun Institute of Applied Chemistry, Chinese Academy of Science, Changchun 130022, China
^bUniversity of the Chinese Academy of Science, Beijing 100049, China

Received:2014-09-01 Revised:2014-09-15 Accepted:2014-11-05 Published:2015-05-05 Online:2015-05-05
Contact: MEN Yongfeng
Supported by:

Abstract

Abstract:

A serials of hydroxypropyl cellulose esters graft copolymers with different phase change temperature was prepared. In these materials, semi-flexible hydroxypropyl celluloses serve as skeleton, and flexible alkanoic acid molecules serve as functional branch chains. The structures of the copolymers were characterized using FT-IR and NMR techniques. Their phase change properties and crystallization behavior were analyzed by DSC, TGA and X-ray scattering techniques. The results show that the temperatures at which the products absorb or release heat(melting or crystallization of the side chains) increase with the increase of side chain length. The phase change temperature of the materials can be adjusted by varying the length of the side chain. The fusion enthalpy reaches 60 J/g in case palmitic acid, stearic acid and eicosanoic acid are used. Furthermore, it is found that when mixed long-chain alkanoic acids are used as the reactant, the phase change temperatures of the products can be easily adjusted by changing the ratio of components in the mixture. This result are also proven by X-ray scattering results, the d-Spacing of hydroxypropyl cellulose mixed esters falls in between two single hydroxypropyl cellulose esters indicating that an effective grafting of both kinds of alkanoic acids on to the same hydroxypropyl cellulose chains. The results provide a facile method in preparing phase change temperature tunable polymer based solid-state phase change materials within certain temperature range.

Key words: hydroxypropyl cellulose, alkanoic acid, phase change material

CLC Number:

CHEN Xi, ZHANG Nan, LIU Lingzhi, MEN Yongfeng. Preparation and Characterization of Alkanoic Acid Grafted Hydroxypropyl Cellulose Phase Change Materials[J]. Chinese Journal of Applied Chemistry, 2015, 32(5): 535-541.

References

[1]	Belen Z, Marin J M, Luisa F. Review on Thermal Eenergy Storage with Phase Change Materials:Heat Transfer Analysis and Applications[J]. Appl Therm Eng, 2003, 23:251-283.
[2]	Mondal S. Phase Change Materials for Smart Textiles-An Overview[J]. Appl Therm Eng, 2008, 28:1536-1550.
[3]	Babaev B D, Gasanaliev A M. Phase Diagram of the System LiF-NaF-CaF2-BaF2- BaMoO4[ J ].Inorg Mater, 2003, 39:1203-1207.
[4]	Nagano K, Ogawa K, Mochida T, et al.Thermal Characteristics of Magnesium Nitrate Hexahydrate and Magnesium Chloride Hexahydrate Mixture as a Phase Change Material for Effective Utilization of Urban Waste Heat[J]. Appl Therm Eng, 2004, 24:221-232.
[5]	Ahmet S, Kamil K. Thermal Energy Storage System Using Stearic Acid as a Phase Change Material[J]. Solar Energy, 2001, 71:365-376.
[6]	Li W D, Ding E Y. Preparation and Characterization of a Novel Solid-liquid PCM:Butanediol Di-stearate[J]. Mater Lett, 2000, 61:1526-1528.
[7]	JIANG Yong, DING Enyong, LI Guokang. Progress in Studies of Phase Change Materials for Heat Energy Storage[J]. Guangzhou Chem, 1999, 3:48-54(in Chinese). 姜勇, 丁恩勇, 黎国康. 相变储能材料的研究进展[J]. 广州化学, 1999, 3:48-54.
[8]	He B, Martin V, Setterwall F. Phase Transition Temperature Ranges and Storage Density of Paraffin Wax Phase Change Materials[J]. Energy, 2004, 29:1785-1804.
[9]	Sharma S D, Iwata T, Kitano H, et al.Thermal Performance of a Solar Cooker Based on an Evacuated Tube Solar Collector with a PCM Storage Unit[J]. Solar Energy, 2005, 78:416-426.
[10]	Sari A. Thermal Characteristics of a Eutectic Mixture of Myristic and Palmitic Acids as Phase Change Material for Heating Applications[J]. Appl Therm Eng, 2003, 23:1005-1017.
[11]	Hawes D W, Feldman D, Banu D. Latent Heat Storage in Building Materials[J]. Energy Build, 1993, 20:77-86.
[12]	Nelson G. Application of Microencapsulation in Textiles[J]. Int J Pharmaceut, 2002, 242:55-62.
[13]	Vigo T L, Bruno J S. Temperature-Adaptable Textiles Containing Durably Bound Polyethylene Glycols[J]. Text Res J, 1987, 7:427-429.
[14]	Yuan X P, Ding E Y. Synthesis and Characterization of Storage Energy Materials Prepared from Nano-crystalline Cellulose Polyethylene Glycol[J]. Chinese Chem Lett, 2006, 17:1129-1132.
[15]	Han S O, Woo S K, Lee D W, et al.High Density Polyethylene as a Thermal Energy Storage Material[J]. Polym Mater Sci Eng, 1997, 77:525-526.
[16]	Guo Y Q, Liang X H. Phase Transition Properties of PEG-Cellulose Blends and Their Miscibility in Mixed Solvent[J]. J Macromol Sci-Phys, 1999, 38:449-459.
[17]	Jiang Y, Ding E Y, Li G K. Study on Transition Characteristics of PEG/CDA Solid-solid Phase Change Materials[J]. Polymer, 2002, 43:117-122.
[18]	Ival O S. Phase Change Materials Incorporated Throughout the Structure of Polymer Fibers:USP, 5885475[P], 1999-03-23.
[19]	LIU Xianzhi, LIU Lingzhi, MEN Yongfeng. Synthesis and Characterization of Chitosan/Paraffin PCM Microcapsules[J]. Chinese J Appl Chem, 2012, 29:7-13(in Chinese). 刘先之, 刘凌志, 门永锋. 石蜡相变微胶囊的制备与表征[J]. 应用化学, 2012, 29:7-13.
[20]	ZHANG Mei, NA Ying, JIANG Zhenhua. Preparation and Properties of Polymeric Solid-solid Phase Change Materials of Polyethylene Glycol(PEG)/Poly(vinyl alcohol)(PVA) Copolymers by Graft Copolymerization[J]. Chem J Chinese Univ, 2005, 26:170-174(in Chinese). 张梅, 那莹, 姜振华. 接枝共聚法制备聚乙二醇(PEG)/聚乙烯醇(PVA)高分子固-固相变材料性能研究[J]. 高等学校化学学报, 2005, 26:170-174.
[21]	Chen X, Liu L Z, Men Y F, et al.Effect of Synthetic Pathways on the Phase Transition and Side-chain Crystallization Behavior of Alkyl-substituted Cellulose Ethers[J]. Polym Chem, 2014, 5:4105-4114
[22]	Son C H, Morehouse J H. Thermal Conductivity Enhancement of Solid-solid Phase Materials for Thermal Storage[J]. J Thermophys Heat Transfer, 1991, 5:122-124.
[23]	Jiang Y, Ding E Y, Li G K. Study on Transition Characteristics of PEG/CDA Solid solid Phase Change Materials[J]. Polymer, 2002, 43:117-122.

Preparation and Characterization of Alkanoic Acid Grafted Hydroxypropyl Cellulose Phase Change Materials

RichHTML

PDF

Knowledge

Cited

Abstract

Cite this article

share this article

References

Related Articles 7

Recommended Articles

Metrics

Comments

[1]	Zhong XU, Jun LI, En-Hui WU, Yan JIANG. Influence of Vanadium Tailings on the Thermal Stability and Electrical Conductivity of Expanded Graphite/ Paraffin Composite Phase Change Materials [J]. Chinese Journal of Applied Chemistry, 2022, 39(3): 461-469.
[2]	WU Qiu-Ping, CAI Kun-Ting, WANG Yuan-Kang, SUN Kai, YANG Jin-Bo, HAN Song-Bai, LIU Yun-Tao. Microwave Absorption Properties of Co/C and Microwave-Heat Conversion Properties of Co/C-Polyurethane Phase Change Composites [J]. Chinese Journal of Applied Chemistry, 2021, 38(12): 0-0.
[3]	WU Qiu-Ping, CAI Kun-Ting, WANG Yuan-Kang, SUN Kai, YANG Jin-Bo, HAN Song-Bai, LIU Yun-Tao. Microwave Absorption Properties of Co/C and Microwave-Heat Conversion Properties of Co/C-Polyurethane Phase Change Composites [J]. Chinese Journal of Applied Chemistry, 2021, 38(12): 1588-1598.
[4]	AN Pinping, LUO Fubin, HUANG Baoquan, XIAO Liren, QIAN Qingrong, LI Hongzhou, CHEN Qinghua. Properties of Thermal Conductivity Enhanced Polyethylene Glycol-Based Phase Change Composites [J]. Chinese Journal of Applied Chemistry, 2020, 37(1): 46-53.
[5]	JIN Yi,HUANG Xinyu,WU Wenhao,SONG Pengxiang,YANG Cenyu,YAO Ruimin,ZOU Ruqiang. Research Progress on Compatibility of Heat Exchanger and Phase Change Materials [J]. Chinese Journal of Applied Chemistry, 2016, 33(12): 1366-1374.
[6]	LIU Xianzhi, LIU Lingzhi, MEN Yongfeng*. SSynthesis and Characterization of Chitosan/paraffin Phase Change Microcapsules [J]. Chinese Journal of Applied Chemistry, 2012, 29(01): 9-13.
[7]	Huang Jicai, Mao Runsheng, Wu Fenglian, Yang Kexuan, Qi Qinghui. SYNTHESIS OF HYDROXYPROPYL CELLULOSE ACETATE AND PROPERTIES OF REVERSE OSMOSIS MEMBRANES [J]. Chinese Journal of Applied Chemistry, 1991, 0(4): 34-38.