**Author details**

Rini Setiati1 \*, Septoratno Siregar2 and Deana Wahyuningrum3

1 Petroleum Engineering, FTKE, Universitas Trisakti, Jakarta, Indonesia

2 Petroleum Engineering, FTTM, Institut Teknologi Bandung, Bandung, Indonesia

3 Chemistry, FMIPA, Institut Teknologi Bandung, Bandung, Indonesia

\*Address all correspondence to: rinisetiati@trisakti.ac.id

© 2020 The Author(s). Licensee IntechOpen. This chapter is distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/ by/3.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

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*Laboratory Optimization Study of Sulfonation Reaction toward Lignin Isolated from Bagasse*

[9] Akpan EI, Odeosun SO. Sustainable Lignin for Carbon Fibers: Principles, Techniques, and Applications. Nature Switzerland AG: Springer; 2019

[10] Kumar P, Barrett DM, Delwiche MJ, Stroeve P. Methods for pretreatment of lignocellulosic biomass for efficient hydrolysis and biofuel production. Industrial and Engineering Chemistry Research. 2009;**48**:3713-3729. DOI:

10.1021/ie801542g

10.1155/2017/8951658

2018;**15**:77-102

1981

[11] Yao L, Yong-Chao L, Hong-Qin H, Xie F-J, Wei X-Y, Fan X. Structural characterization of lignin and its degradation products with spectroscopic methods. Journal of Spectroscopy. 2017;**2017**:15. DOI:

[12] Krawczyk N, Moller A, Geigle P, Larionov E, Hartwig J. Process for the Production of Lignin Derived Low Molecular Products, Patent No. WO2018/146343Al. 2018

[13] Sreela Pal MM, Banat F, Al Sumaiti AM. Review of surfactantassisted chemical enhanced oil recovery for carbonate reservoirs: Challenges and future perspectives. Petroleum Science.

[14] Ranjan P, Subrata BG, Pankaj T. Enhanced oil recovery by alkalinesurfactant-alternated-gas/CO2 flooding. Journal of Petroleum Exploration and Production Technology. 2019;**9**:247-260

[15] Miller AC. Bagasse Concrete, Paten

[16] Campbell GE. Bagasse Process and Product, Paten No. 4304361, Fairway.

[17] Varma AJ. Process for Fractionating Sugarcane Bagasse into High Celloluse Pulp, Xylan and Lignin, Patent No. 8529731 B2, New Delhi. 2013

No. 2837435, California. 1958

*DOI: http://dx.doi.org/10.5772/intechopen.93662*

Souza AE, Magalhães R d S, Peña AFV, Aquino D, et al. Sugarcane bagasse: Applications for energy production and ceramic materials. Journal of Solid Waste Technology and Management. 2016;**41(3)**:229. DOI: 10.5276/JSWTM

[1] Teixeira SR, Arenales A, de

**References**

[2] Hallersbo M, Onoszko E. An Investigation of new Markets for the Bagasse in Cuban Sugar Mills, Bachelor of Science Thesis EGI-2015. 2015

ap.fftc.org.tw/article/701

2010;**8**(3):365-377

2010;**5**(4):472-478

[4] Lois-Correa J, Flores-Vela A,

[3] Taslim S. Sugar Development Policy in Indonesia, Food and Fertilizer Tecnology for the Asian and Pacific Region. 2014. Available at: https://

Ortega-Grimaldo D, Berman-Delgado J. Experimental evaluation of sugar cane bagasse storage in bales system. Journal of Applied Research and Technology.

[5] Anwar SI. Determination of moisture content of bagasse of Jaggery unit using microwave oven. Journal of Engineering Science and Technology.

[6] Varma AJ. Process for Fractionating Sugarcane Bagasse into High A-Cellulose

Pulp, Xylan and Lignin, Patent Application Publication, No.: US

[7] Hermiati E, Mangunwidjaja D, Sunarti TC, Suparno O, Prasetya B. Pemanfaatan Biomassa Lignoselulosa

Bioetanol. Jurnal Litbang Pertanian. 2010;**29**(4):121-130. (In Indonesian)

Ampas Tebu untuk Produksi

[8] Abdel-Halim ES. Chemical modification of cellulose extracted from sugarcane bagasse: Preparation of hydroxyethyl cellulose. Arabian Journal

of Chemistry. 2014;**7**:363-371

2010/0276093 A1. 2010

*Laboratory Optimization Study of Sulfonation Reaction toward Lignin Isolated from Bagasse DOI: http://dx.doi.org/10.5772/intechopen.93662*
