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1. Scale-up fabrication and advanced properties of recycled polyethylene terephthalate aerogels from plastic waste

Author

Goh, Xue Yang, Deng, Xinying, Teo, Wern Sze, Ong, Ren Hong, Nguyen, Luon Tan, Bai, Tianliang, and Duong, Hai M.

Subjects
Porosity -- Analysis -- Usage -- Electric properties, Polyethylene terephthalate -- Waste management -- Usage, Engineering and manufacturing industries, Science and technology
Abstract

Traditional fabrication methods of aerogels are time consuming, toxic, and difficult to implement, making the production of aerogels expensive and severely limits widespread adoption. Nonwoven technology is introduced to prepare fibers that can be used to create polymer-based aerogel. With its introduction, it allows the continuous flow of fine fibers and eliminates the bottlenecking fiber preparation phase of the fabrication process. Using recycled polyethylene terephthalate (rPET) fibers and polyvinyl alcohol, two types of rPET aerogels are successfully fabricated, namely the lab-scale and the large-scale aerogels, to investigate the effectiveness of the nonwoven process line for the fiber preparation processing step. Fibers prepared manually (lab-scale aerogels) and with the aid of a fiber preparation production line (large-scale aerogels) are characterized and compared. Both lab-scale and large-scale aerogels exhibited the required specifications of low densities (12.6-45.9 and 13.2-43.7 mg/[cm.sup.3], respectively) and high porosity (99.1%-96.7% and 99.0%-96.8%, respectively). Their thermal conductivity (23.4-34.0 and 23.2-31.9 mW/m*K, respectively) and compressive modulus (4.74-21.91 and 4.53-22.29 kPa, respectively) were also relatively similar. The advantage of scaled preparation of fibers for aerogel manufacturing includes higher throughputs (the line can produce up to 60 kg/h), improved consistency for defibrillation, homogenous fiber blending, and accurate replication of laboratory-made aerogel properties. This demonstrates the viability of using nonwoven technology to scale for continuous production to bring down the production cost. Highlights * Scale up production of aerogels using nonwoven technology * Improving preparation process of aerogels through homogenous fiber blending * Preparation rate of up to 60 kg/h * Developed high porosity aerogels up to 99% * Good thermal insulation of 23.2-31.9 mW/m*K KEYWORDS continuous process, eco-friendly, large-scale, nonwoven technology, rPET aerogel, scaling up, 1 | INTRODUCTION Aerogels in today's commercial market has seen limited but high value niche uses. Aerogels are a distinct type of engineered material that is mostly made up of [...]

Published
2024
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2. Facile Fabrication of Waterproof and Flame-Retardant Microfibrillated Cellulose Aerogels from Pineapple Leaves for Acoustic Insulation

Author

Do, Nga H. N., Phan, Bao L., Nguyen, Luon Tan, Goh, Xue Yang, Duong, Hai M., Le, Kien A., Le, Phung K., di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Cui, Zhen-Dong, Series Editor, Reddy, J. N., editor, Luong, Van Hai, editor, and Le, Anh Tuan, editor

Published
2024
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24. Preface

Author

Papavassiliou, Dimitrios V., primary, Duong, Hai M., additional, and Gong, Feng, additional

Published
2020
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26. Contributors

Author

Aydin, Fikret, primary, Bui, Khoa, additional, Chu, Xiaolei, additional, Do, Nga Hoang, additional, Duong, Hai M., additional, Dutt, Meenakshi, additional, Gong, Feng, additional, Harrison, Roger G., additional, Islam, Rafikul, additional, Khabaz, Fardin, additional, Khare, Rajesh, additional, Le, Duyen Khac, additional, Le, Phung Kim, additional, Li, Dengfeng, additional, Li, Hao, additional, Liu, Ying, additional, Luu, Thao Phuong, additional, Marepalli, Prabhakar, additional, Mathur, Sanjay R., additional, McKernan, Patrick, additional, Mullen, Kieran, additional, Murthy, Jayathi Y., additional, Nguyen, Son Truong, additional, Papavassiliou, Dimitrios V., additional, Qiao, Rui, additional, Striolo, Alberto, additional, Thai, Quoc Ba, additional, Virani, Needa A., additional, Wang, Wenbin, additional, Wang, Xinwei, additional, Wu, Xinlin, additional, Xie, Yangsu, additional, and Yue, Yanan, additional

Published
2020
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34. Contributors

Author

Abdulhafez, Moataz, primary, Aboagye, Alex, additional, Abot, Jandro L., additional, Adusei, Paa Kwasi, additional, Alemán, Belén, additional, Altun, Ali O., additional, Alvarez, Noe T., additional, Anike, Jude C., additional, Ashrafi, Behnam, additional, Back, T.C., additional, Bai, Zongwu, additional, Bedewy, Mostafa, additional, Bell, Greg, additional, Borgemenke, Ryan, additional, Cahay, Marc, additional, Chaudhary, Sumeet, additional, Chauhan, Devika, additional, Chen, Yun, additional, Chen, Rui, additional, Chen, Tao, additional, Chitranshi, Megha, additional, Dai, Liming, additional, Dénommée, Stéphane, additional, Devarakonda, Surendra, additional, Dong, Zhongyun, additional, Du, Feng, additional, Dugre, Joshua, additional, Duong, Hai M., additional, Fairchild, S.B., additional, Fang, Yanbo, additional, Fialkova, Svitlana, additional, Forbes, R.G., additional, Gazica, Kiera, additional, Gbewonyo, Spero, additional, Gbordzoe, Seyram, additional, Goh, Sook Kuan, additional, Guan, Jingwen, additional, Haase, Mark, additional, Hao, Ayou, additional, Harris, J.R., additional, Haworth, Kevin J., additional, Hou, Guangfeng, additional, Hou, Xiaoda, additional, Hsieh, Yu-Yun, additional, Jakubinek, Michael B., additional, Jensen, K.L., additional, Kanakaraj, Sathya Narayan, additional, Kelkar, Ajit D., additional, Keller, Steven D., additional, Kim, Keun Su, additional, Kim, Taejin, additional, Kingston, Christopher T., additional, Kleismit, Richard, additional, Kopp, Reed, additional, Kubley, Ashley, additional, Lashmore, David S., additional, Liang, Richard, additional, Lightner, Carin R., additional, Lindley, Dustin, additional, Ludwick, J., additional, Lv, Tian, additional, Malik, Rachit, additional, Martinez-Rubi, Yadienka, additional, Mast, David, additional, Mayhew, Eric, additional, McConnell, Colin, additional, Moon, MinSeok, additional, Murray, P.T., additional, Myint, Sandar Myo, additional, Ng, Vianessa, additional, Nguyen, Nam, additional, Noga, Ryan, additional, Oh, JeHa, additional, Osman, Mohamed A., additional, Paine, Michael, additional, Park, Jin Gyu, additional, Park, Hyung Gyu, additional, Patwardhan, Madhura, additional, Paul, Rajib, additional, Peng, Liu, additional, Pinto, Fabrizio, additional, Pixley, Sarah, additional, Prakash, Vikas, additional, Pugno, Nicola, additional, Pujari, Anuptha, additional, Rabiee, Massoud Maxwell, additional, Rahimi, Maham, additional, Rahmat, Meysam, additional, Schulz, Mark J., additional, Shanov, Vesselin, additional, Shi, Qiang Qiang, additional, Shiffler, D.A., additional, Simard, Benoit, additional, Son, Sang Young, additional, Song, JoonHyuk, additional, Song, Yi, additional, Starnes, Sandra, additional, Tran, Thang Q., additional, Turgut, Zafer, additional, Valentini, Luca, additional, Verma, Prasoon, additional, Vijayakumar, Dineshwaran, additional, Vilatela, Juan J., additional, Wang, Jian Nong, additional, Wei, Fei, additional, Windle, Alan, additional, Wolf, Robert, additional, Wu, Guang, additional, Xu, Chenhao, additional, Yarmolenko, Sergey, additional, Yin, Zhangzhang, additional, Yoo, MyungHan, additional, Yu, Qingyue, additional, Yun, Yeoheung, additional, Zaghloul, Amir I., additional, Zhan, Hang, additional, Zhang, Songlin, additional, Zhang, Lu, additional, Zhang, Rufan, additional, Zhang, Qiuhong, additional, Zhang, Lifeng, additional, and Zhu, W., additional

Published
2019
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