Handbook of Biomass Valorization for Industrial Applications
eBook - ePub

Handbook of Biomass Valorization for Industrial Applications

  1. English
  2. ePUB (mobile friendly)
  3. Available on iOS & Android
eBook - ePub

Handbook of Biomass Valorization for Industrial Applications

About this book

HANDBOOK of BIOMASS VALORIZATION for INDUSTRIAL APPLICATIONS

The handbook provides a comprehensive view of cutting-edge research on biomass valorization, from advanced fabrication methodologies through useful derived materials, to current and potential application sectors.

Industrial sectors, such as food, textiles, petrochemicals and pharmaceuticals, generate massive amounts of waste each year, the disposal of which has become a major issue worldwide. As a result, implementing a circular economy that employs sustainable practices in waste management is critical for any industry. Moreover, fossil fuels, which are the primary sources of fuel in the transportation sector, are also being rapidly depleted at an alarming rate. Therefore, to combat these global issues without increasing our carbon footprint, we must look for renewable resources to produce chemicals and biomaterials. In that context, agricultural waste materials are gaining popularity as cost-effective and abundantly available alternatives to fossil resources for the production of a variety of value-added products, including renewable fuels, fuel components, and fuel additives.

Handbook of Biomass Valorization for Industrial Applications investigates current and emerging feedstocks, as well as provides in-depth technical information on advanced catalytic processes and technologies that enable the development of all possible alternative energy sources. The 22 chapters of this book comprehensively cover the valorization of agricultural wastes and their various uses in value-added applications like energy, biofuels, fertilizers, and wastewater treatment.

Audience

The book is intended for a very broad audience working in the fields of materials sciences, chemical engineering, nanotechnology, energy, environment, chemistry, etc. This book will be an invaluable reference source for the libraries in universities and industrial institutions, government and independent institutes, individual research groups, and scientists working in the field of valorization of biomass.

Frequently asked questions

Yes, you can cancel anytime from the Subscription tab in your account settings on the Perlego website. Your subscription will stay active until the end of your current billing period. Learn how to cancel your subscription.
No, books cannot be downloaded as external files, such as PDFs, for use outside of Perlego. However, you can download books within the Perlego app for offline reading on mobile or tablet. Learn more here.
Perlego offers two plans: Essential and Complete
  • Essential is ideal for learners and professionals who enjoy exploring a wide range of subjects. Access the Essential Library with 800,000+ trusted titles and best-sellers across business, personal growth, and the humanities. Includes unlimited reading time and Standard Read Aloud voice.
  • Complete: Perfect for advanced learners and researchers needing full, unrestricted access. Unlock 1.4M+ books across hundreds of subjects, including academic and specialized titles. The Complete Plan also includes advanced features like Premium Read Aloud and Research Assistant.
Both plans are available with monthly, semester, or annual billing cycles.
We are an online textbook subscription service, where you can get access to an entire online library for less than the price of a single book per month. With over 1 million books across 1000+ topics, we’ve got you covered! Learn more here.
Look out for the read-aloud symbol on your next book to see if you can listen to it. The read-aloud tool reads text aloud for you, highlighting the text as it is being read. You can pause it, speed it up and slow it down. Learn more here.
Yes! You can use the Perlego app on both iOS or Android devices to read anytime, anywhere — even offline. Perfect for commutes or when you’re on the go.
Please note we cannot support devices running on iOS 13 and Android 7 or earlier. Learn more about using the app.
Yes, you can access Handbook of Biomass Valorization for Industrial Applications by Shahid Ul Islam,Aabid Hussain Shalla,Salman Ahmad Khan,Shahid Ul-Islam in PDF and/or ePUB format, as well as other popular books in Physical Sciences & Energy. We have over one million books available in our catalogue for you to explore.

Information

Publisher
Wiley-Scrivener
Year
2022
Print ISBN
9781119818731
eBook ISBN
9781119818793
Edition
1
Topic
Physical Sciences
Subtopic
Energy

Part 1
ENERGY, BIOFUELS AND BIO-AROMATICS

1
Photocatalytic Biomass Valorization into Valuable Chemicals

Brajesh Kumar1*, Lovjeet Singh2, Pawan Rekha3 and Pradeep Kumar4
1Department of Chemical Engineering, National Institute of Technology Srinagar, Hazratbal, Srinagar, Jammu and Kashmir, India
2Department of Chemical Engineering, Malaviya National Institute of Technology, Jaipur, Rajasthan, India
3Department of Chemistry, Malaviya National Institute of Technology, Jaipur, Rajasthan, India
4Department of Chemical Engineering, Institute of Engineering & Technology, Lucknow, Uttar Pradesh, India
Abstract
With the increasing demands of green and renewable energy sources due to worldwide environmental concern, the valorization of earth-abundant biomass into valuable fuels and chemicals represents an area of tremendous importance in green chemistry. Biomass has potential to be used as a substitute of non-renewable and rapidly depleting fossil fuels. The integration of biomass utilization and photocatalysis appears as a promising technology to obtain higher grade of sustainability in chemical processes. The photocatalytic process is considered among the top green processes because of its feasibility at room temperature and atmospheric pressure. This chapter thus highlights the fundamental concept and basic mechanism of photocatalytic transformation of biomass and biomass-derived chemicals to electricity, hydrogen and fine chemicals. A detailed discussion on the catalyst aspect such as structure activity relationship, band gap tuning and visible light induced activity will be presented. Furthermore, some possible strategies to avoid various challenges in practical applicability of this process are discussed.
Keywords: Renewable energy, biomass, photocatalysts, solar energy, biohydrogen

1.1 Introduction

A wide range of energy that people use in the human habitation and in other necessary spaces is procured from non-renewable sources of energy. As we all know energy extracted from conventional approach (coal, petrol, diesel, natural gas, hydrates, oil, shale, natural bitumen, extra heavy oil, etc.) is reducing day by day due to finite availability on this globe [1]. The reasons behind this energy crisis are given in Figure 1.1. With great benefits, the sources of conventional energy are also creating huge adverse impacts such as global warming and ocean acidification. In global warming, the average temperature of the atmosphere increases which in turn results in many climatic problems such as high speed of melting glaciers, intense storm threat, disbalances in atmosphere’s chemical composition, scarcity of water, possibility of fire in forests, etc. Ocean acidification is the consequence of some anthropogenic excess that is responsible for global warming in which there is release of more amount of carbon dioxide at faster rates. Due to this impact, the pH level of ocean lowers down causing the absorption of carbon dioxide in the ocean water forcefully creating more and more acids in the oceans.
Schematic illustration of the reasons for energy crisis on earth.
Figure 1.1 Reasons for energy crisis on earth.
The fuels obtained from conventional sources of energy are costly in nature and also influence the global economy. To overcome all these kinds of concerns and keeping an important point of view in mind for the future, there is a great need to focus on research related to renewable sources energy for producing clean and environmental friendly fuels. The possible pathways to obtain fuels from conventional and renewable sources of energy are presented in Figure 1.2.
Schematic illustration of the distribution of sources of energy.
Figure 1.2 Distribution of sources of energy.

1.2 Renewable Energy Sources: The Great Hope of the Future

To reduce the harmful effects created by the exploitation of conventional sources of energy, there are two prime ways [2]:
  1. (i) Find an alternate way to catch the carbon dioxide and release after treatment (generated by fossil fuel consumption) or do not let release carbon dioxide directly into the atmosphere.
  2. (ii) To search for other alternative fuels which do not release carbon dioxide gas.
Among the available sources of renewable energy, solar energy and biomass are attaining great attention by researchers worldwide because the combination of solar energy and biomass provides a great platform to pursue a significant research for producing clean and pure renewable fuel.
In solar energy, photons are used to provide heat (low temperature) instead of thermal energy to carry out a chemical reaction and this process is known as photocatalysis (a subcategory of catalysis). There are basically three big advantages of photocatalysis valorization such as purification of air or water, production of clean fuel from renewable sources, and generation of quality chemicals. It is a well-known fact that the less quantity of absolutely freely available solar radiation on the surface is utilizing.
Still, many industries are dependent on the use of conventional fuels due to lack of research in the field of green chemistry in terms of photocatalysis. Plants manufacture their food due to photochemical reactions which is initiated by sunlight and considered as only renewable source for production of food for human beings and animals, conversion of energy into useful ways, and production of various chemicals. This book chapter discusses in brief about types of biomass and their conversion technologies for obtaining valuable chemicals due to photocatalytic valorization.

1.2.1 Biomass Types and Their Composition

Biomass can be obtained from nature dire...

Table of contents

  1. Cover
  2. Table of Contents
  3. Title Page
  4. Copyright
  5. Preface
  6. Part 1 ENERGY, BIOFUELS AND BIO-AROMATICS
  7. Part 2 FOOD, AGRICULTURAL AND ENVIRONMENTAL SECTORS
  8. Index
  9. End User License Agreement