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E-raamat: Circular Economy in the Construction Industry

Edited by (KIIT Deemed to be University, India), Edited by (University of Colorado Boulder, USA), Edited by (Widener University, USA), Edited by (Jadavpur Univ.)
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Circular Economy in the Construction Industry is an invaluable resource for researchers, policymakers, implementers and PhD and Masters-level students in universities analyzing the present status of Construction and Demolition Wastes (C&DW) management, materials development utilizing slag, fly ash, HDPE fibre, geo-wastes, and other wastes, green concrete, soil stabilization, resource circulation in construction sectors, success in experimentation & commercial production, future needs, and future research areas. While huge C&DW is wasted by dumping, there is potential of recycling preventing greenhouse gas (GHG) emissions and environmental pollution as well as creating business opportunities. Circularity of resources in the construction industry can contribute to a more secure, sustainable, and economically sound future through proper policy instruments, management systems, and recycling by selecting the following:





Supply chain sustainability and collection of C&D Wastes, Appropriate separation and recycling technology, Enforcement of policy instruments, Productivity, quality control of recycled products and intended end use, Economic feasibility as business case, commercialization, generating employment.

This book addresses most of the above issues in a lucid manner by experts in the field from different countries, which are helpful for the related stakeholders, edited by experts in the field.
Foreword vii
Preface ix
Acknowledgements xi
Editors xiii
Contributors xv
Part I Sustainable Construction Practices and Circular Economy
1(110)
1 Circular Economy in Combating Construction and Demolition Wastes Including Seismic Debris
3(8)
Sannidhya Kumar Ghosh
2 Circular Economy in Construction: An Overview with Examples from Materials Research
11(12)
Dhanada K. Mishra
Jing Yu
3 Use of Industrial Waste Slag in the Development of Self-Compacting Concrete for Sustainable Infrastructures
23(6)
K.P. Sethy
K. K. Sahoo
Biswajit Jena
4 Influence of Functionally Graded Region in Ground Granulated Blast Furnace Slag (GGBS) Layered Composite Concrete
29(8)
Sangram K. Sahoo
Benu Gopal Mohapatra
Sanjaya Kumar Patro
Prasanna K. Acharya
5 Utilization of Fly Ash as a Replacement of Sand in Concrete for Sustainable Construction
37(6)
Ankita Sikder
Sukamal Kanta Ghosh
6 Properties of Concrete at Elevated Temperature Using Waste HDPE as Fibre and Copper Slag as Mineral Admixture
43(10)
Marabathina Maheswara Rao
Sanjaya Kumar Patro
7 Utilization of Geo-Waste in Production of Geo-Fiber Papercrete Bricks
53(8)
Areej Palekar
Suraj Patil
Uma Kale
8 Effect of Slag Addition on Compressive Strength and Microstructural Featuresof Fly Ash Based Geopolymer
61(8)
Dipankar Das
Alok Prasad Das
Prasanta Kumar Rout
9 Impacts of Municipal Solid Waste Heavy Metals on Soil Quality: A Case of Visakhapatnam
69(8)
P.V.V. Prasada Rao
G. Siva Praveena
10 Effective Utilization of Industry Solid Waste into the Concrete and Its Management
77(10)
V.S. Vairagade
B.V. Bahoria
Rakesh Patel
P.T. Dhorabe
V.R. Agrawal
N.P. Mungle
11 Utilization of Industrial Waste in Normal Concrete: A Review
87(8)
Srishti Saha
Tribikram Mohanty
Bitanjaya Das
12 Greenhouse Effect by Investigating an Internal Combustion Engine (IC Engine) Using Argemone Mexicana (Waste Plant) Biodiesel Blends
95(8)
Akshaya Kumar Rout
M.K. Parida
Mamuni Arya
13 Fertiliser Plant Phosphogypsum: Potential Applications in Agriculture and Road Construction
103(8)
Durgasi Hariprasad
Harish Chandra Singh
Pranab Bhattacharyya
Ranjit Singh Chugh
Part II Waste Utilization and Soil Stabilization
111(52)
14 Bearing Capacity of Reinforced Soil on Varying Footing Size
113(6)
Bandita Paikaroy
Sarat Kumar Das
Benu Gopal Mohapatra
15 Improvement of Properties of an Expansive Soil with Induction of Bacteria
119(10)
Suresh Gunji
C. H. Sudha Rani
C.H. Paramageetham
Yugandhar Gundlapalli
Basha Sreenivasulu
16 Application of Treated Mixed Fruit Wastes in Soil Stabilization
129(10)
David O. Olukanni
Chukwume G. Ijeh
17 Development of Flexible Pavement Cost Models for Weak Subgrade Stabilized with Fly Ash and Lime
139(6)
Satya Ranjan Samal
Malaya Mohanty
18 Use of Fly Ash and Lime for Attainment of CNS Properties in a Swelling Soil
145(8)
K.V.N. Laxma Naik
A. Thanusree
C. H. Sudha Rani
19 Interface Shear Strengths between Bagasse Ash and Geogrid
153(10)
Aditya Kumar Bhoi
Jnanendra Nath Mandal
Ashish Juneja
Part III Sustainable Green Concrete
163(44)
20 Experimental Investigation on Geopolymer Concrete with Low Density Aggregate
165(10)
Sanghamitra Jena
Ramakanta Panigrahi
Subrat Kumar Padhy
21 Strength Development in Ferrochrome Ash-Based Geopolymer Concrete
175(10)
Jyotirmoy Mishra
Shaswat Kumar Das
Bharadwaj Nanda
Sanjaya Kumar Patro
Syed M. Mustakim
22 Investigation on Strength Factor of Composite Concrete Using Quarry Dust and Artificial Aggregates
185(6)
Sudheer Ponnada
Partheepan Ganesan
G. Praveen
23 Clean C&D Waste Material Cycles through BIM-enhanced Building Stock Examination Practices: An Austrian Case Study
191(8)
M. Raskovic
A.M. Ragofinig
K. Kondracki
M. Ragofinig-Angst
24 Fly Ash-Based Jute Fiber Reinforced Concrete: A Go Green Approach for the Concrete Industry
199(8)
Bidhan Ghosh
T. Senthil Vadivel
Part IV Energy Recovery and Resource Circulation in Construction
207(22)
25 A Study on Tensile Strength and Modulus Properties of Concrete Using Industrial Waste Vermiculite and Granite-Fines
209(10)
Damodhara Reddy Budda
Kiran Kumar Narasimhan
Jyothy S. Aruna
C. Sasidhar
26 Eco-Friendly Utilization of Industrial Sludge as a Building Material: A Study of Steel Industries in the Tarapur Region, Maharashtra
219(10)
Tarang Jobanputra
Vaidik Gajera
Gaurav Kapse
Index 229
Sadhan Kumar Ghosh, Ronald L. Mersky
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