1st Edition

Advances in Carbon Management Technologies Biomass Utilization, Manufacturing, and Electricity Management, Volume 2

Edited By Subhas K. Sikdar, Frank Princiotta Copyright 2021
390 Pages 28 Color & 146 B/W Illustrations
by CRC Press

390 Pages 28 Color & 146 B/W Illustrations
by CRC Press

390 Pages 28 Color & 146 B/W Illustrations
by CRC Press

Volume 2 of Advances in Carbon Management Technologies has 21 chapters. It presents the introductory chapter again, for framing the challenges that confront the proposed solutions discussed in this volume. Section 4 presents various ways biomass and biomass wastes can be manipulated to provide a low-carbon footprint of the generation of power, heat and co-products, and of recovery and reuse of... Read more

Dedication

Preface

Introduction: What Key Low-Carbon Technologies are Needed to Meet Serious Climate Mitigation Targets and What is their Status?

Frank Princiotta

SECTION I. BIOMASS SECTOR

Biomass as a Source for Heat, Power and Chemicals

Kafarov, V and Rosso-Cerón, AM

From Sugarcane to Bioethanol: The Brazilian Experience

Daroda, RJ, Cunha, VS and Brandi, HS

Biomass in Regional and Local Context

Michael Narodoslawsky

Prioritising Uses for Waste Biomass: A Case Study from British Columbia

Roland Clift, Xiaotao Bi, Haoqi Wang and Huimin Yun

Industrial Oleochemicals from Used Cooking Oils (UCOs): Sustainability Benefits and Challenges

Alvaro Orjuela

Advances in Carbon Capture through Thermochemical Conversion of Biomass

Sonal K Thengane

Phytowaste Processing

Josef Maroušek, Otakar Strunecký and Vojtĕch Steh

Anaerobic Digestion for Energy Recovery and Carbon Management

Akihisa Kita, Yutaka Nakashimada and Shohei Riya

Critical Aspects in Developing Sustainable Biorefinery Systems Based on Bioelectrochemical Technology with Carbon Dioxide Capture

Jhuma Sadhukhan

Synthesis of Regional Renewable Supply Networks

Zan Zore, Lidija Cucek and

A Logistics Analysis for Advancing Carbon and Nutrient Recovery from Organic Waste

Victor M. Zavala and Gerardo J Ruiz-Mercado

Efficient and Low-Carbon Energy Solution through Polygeneration with Biomass

Kuntal Jana and Sudipta De

SECTION II. MANUFACTURING AND CONSTRUCTION (BATTERIES, BUILT ENVIRONMENT, AUTOMOTIVE, AND OTHER INDUSTRIES)

Urban Carbon Management Strategies

Joe F Bozeman III, John Mulrow, Sybil Derrible and Thomas L. Theis

Adaptive Lean and Green (L&G) Manufacturing Approach in Productivity and Carbon Management Enhancement

Wei Dong Leong, Hon Loong Lam, Chee Pin Tan and Sivalinga Govinda Ponnambalam

Advancement, Challenges and Opportunities of Li-ion Batteries for Electric Vehicles

Qianran He and Leon Shaw

Charging Strategies for Electrified Transport

Sheldon Williamson, Deepa Vincent, AVJS Praneeth and Phouc Hyunh Sang

SECTION III. ELECTRICITY AND THE GRID

The Role of Microgrids in Grid Decarbonization

Md Rejwanur Rashid Mojumdar, Homan Nikpey Somehsaraei and Mohsen Assadi

Storage of Fluctuating Renewable Energy

Daniel Fozer and Peter Mizsey

Lithium-ion Battery – Future Technology Development Driven by Environmental Impact

Mihaela Buga, Adnana Spinu-Zaulet, and Alin Chitu

Carbon Constrained Electricity Sector Planning with Multiple Objectives

Krishna Priya GS and Santanu Bandyopadhyay

Index

Biography

Subhas K Sikdar retired as Associate Director for Science, National Risk Management Research Laboratory of USEPA. Earlier he held technical and managerial positions at Occidental Research Corp, National Institute of Standards and Technology, and General Electric Corporate Research & Development Center. Dr. Sikdar is an elected Fellow of AAAS, ACS, AIChE, IIChE, and winner of EPA bronze medals, R&D 100 awards, several national awards from AIChE, and distinguished achievement awards from EPA, University of Arizona, and University of Calcutta. He is Editor-in-Chief of Clean Technologies and Environmental Policy (Springer), and serves as a member of the conference committee of Engineering Conferences International. He has edited 16 books.

Frank Princiotta recently retired as Director of the Air Pollution Prevention and Control Division of the Office of Research & Development, Environmental Protection Agency. He has a degree in Chemical Engineering from City University of NY (Tau Beta Pi, Omega Chi Epsilon) and a Nuclear Engineering Certificate from the Oak Ridge School of Reactor Technology. His division is responsible for RD & D on technologies for controlling and characterizing air pollution from major sources. He has been a key agency expert in air pollution control for over 40 years. He has been the recipient of an EPA gold medal, and three bronze medals for his accomplishments in the air pollution control field. He has also received the President's Meritorious Executive Award on two separate occasions (Presidents Carter and H.W. Bush). He played the leadership role in the development and demonstration of sulfur dioxide pollution control technology for coal-fired boilers, which has been the mainstay of SO2 control worldwide. An author of many scientific papers on air pollution control, he has been a frequent speaker before technical societies and conferences and has testified before Congressional Committees. In recent years he has focused on mitigating global climate change. He has analyzed the role that technology and cultural changes will need to play, if we are to avoid the potentially catastrophic impacts associated with unconstrained use of energy.