Smart City Concepts for Treatment of and Resource Recovery from Municipal Organic Wastes: Experiences from Igstc 2+2 Projects

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandAufsatz in KonferenzbandForschungPeer-Review

Autoren

  • Dirk Weichgrebe
  • Moni Mohan Mondal
  • Rahul Ramesh Nair
  • Sathish G.
  • Nishanthi R.
  • S.V. Srinivasan

Organisationseinheiten

Externe Organisationen

  • Central Leather Research Institute
Forschungs-netzwerk anzeigen

Details

OriginalspracheEnglisch
Titel des SammelwerksProceedings 12th Hanseatic India Colloquium, Germany
UntertitelSolid Waste Management: an Indo-German Dialogue
Seiten23-35
Seitenumfang13
ISBN (elektronisch)978-81-962252-0-9
PublikationsstatusVeröffentlicht - 2022
Veranstaltung12th Hanseatic India Colloquium, Germany: Solid Waste Management: an Indo-German Dialogue - Consulate General of India, Hamburg, Deutschland
Dauer: 7 Apr. 20227 Apr. 2022

Abstract

Increasing urbanisation, industrialisation and social development in India is coupled
with an increase in municipal solid waste (MSW) generation. Their collection, treatment, and disposal systems must be managed and organized in an integrated approach for a sustainable and economical result. In India, organic fractions contribute to about 50wt.-% of the MSW, which needs to be disposed in safe manner without polluting the environment. Wet and biodegradable fractions of organic MSW can be treated using anaerobic digestion process while dry and fibrous fractions through thermal treatment for the recovery of energy and value-added products. This concept is investigated with the case studies of two Indo-German collaborative research projects at pilot-scale level for recovery of energy and biochar from organic fractions of MSW funded by Indo German Science and Technology Center (IGSTC) 2+2 framework programme.
In the RESERVES project, urban organic waste from India’s largest vegetable and
flower market (Koyambedu Market Chennai), as well as waste from slaughterhouses
(also Chennai) - which would otherwise end up in municipal waste - is fed into an
innovative fermentation plant to enable material and energy recovery. In addition to
biogas, hygienically safe digestate and fertiliser are produced. This could be achieved
by introducing a bio-extrusion aggregate from Lehmann-UMT GmbH, Pöhl, Germany
as pretreatment of the waste to better breakdown the fibres and ensure the necessary
hygienic properties. In the PYRASOL project, urban organic waste, which is not directly accessible for biological treatment due to its high fibre content and digested municipal sewage sludge are pre-treated with the help of innovative solar drying and subsequently pyrolyzed in a single chamber pyrolysis boiler from Biomacon GmbH, Rehburg Germany to sustainably derive biochar, sequestering CO 2 and providing thermal energy, for land application.

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Zitieren

Smart City Concepts for Treatment of and Resource Recovery from Municipal Organic Wastes: Experiences from Igstc 2+2 Projects. / Weichgrebe, Dirk; Mondal, Moni Mohan; Nair, Rahul Ramesh et al.
Proceedings 12th Hanseatic India Colloquium, Germany: Solid Waste Management: an Indo-German Dialogue. 2022. S. 23-35.

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandAufsatz in KonferenzbandForschungPeer-Review

Weichgrebe, D, Mondal, MM, Nair, RR, G., S, R., N & Srinivasan, SV 2022, Smart City Concepts for Treatment of and Resource Recovery from Municipal Organic Wastes: Experiences from Igstc 2+2 Projects. in Proceedings 12th Hanseatic India Colloquium, Germany: Solid Waste Management: an Indo-German Dialogue. S. 23-35, 12th Hanseatic India Colloquium, Germany, Hamburg, Deutschland, 7 Apr. 2022. <http://cedindia.org/wp-content/uploads/2023/05/Proceedings12th-Hanseatic-India-Colloquium-GermanySolid-Waste-Managementan-Indo-German-Dialogue.pdf>
Weichgrebe, D., Mondal, M. M., Nair, R. R., G., S., R., N., & Srinivasan, S. V. (2022). Smart City Concepts for Treatment of and Resource Recovery from Municipal Organic Wastes: Experiences from Igstc 2+2 Projects. In Proceedings 12th Hanseatic India Colloquium, Germany: Solid Waste Management: an Indo-German Dialogue (S. 23-35) http://cedindia.org/wp-content/uploads/2023/05/Proceedings12th-Hanseatic-India-Colloquium-GermanySolid-Waste-Managementan-Indo-German-Dialogue.pdf
Weichgrebe D, Mondal MM, Nair RR, G. S, R. N, Srinivasan SV. Smart City Concepts for Treatment of and Resource Recovery from Municipal Organic Wastes: Experiences from Igstc 2+2 Projects. in Proceedings 12th Hanseatic India Colloquium, Germany: Solid Waste Management: an Indo-German Dialogue. 2022. S. 23-35
Weichgrebe, Dirk ; Mondal, Moni Mohan ; Nair, Rahul Ramesh et al. / Smart City Concepts for Treatment of and Resource Recovery from Municipal Organic Wastes : Experiences from Igstc 2+2 Projects. Proceedings 12th Hanseatic India Colloquium, Germany: Solid Waste Management: an Indo-German Dialogue. 2022. S. 23-35
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abstract = "Increasing urbanisation, industrialisation and social development in India is coupledwith an increase in municipal solid waste (MSW) generation. Their collection, treatment, and disposal systems must be managed and organized in an integrated approach for a sustainable and economical result. In India, organic fractions contribute to about 50wt.-% of the MSW, which needs to be disposed in safe manner without polluting the environment. Wet and biodegradable fractions of organic MSW can be treated using anaerobic digestion process while dry and fibrous fractions through thermal treatment for the recovery of energy and value-added products. This concept is investigated with the case studies of two Indo-German collaborative research projects at pilot-scale level for recovery of energy and biochar from organic fractions of MSW funded by Indo German Science and Technology Center (IGSTC) 2+2 framework programme.In the RESERVES project, urban organic waste from India{\textquoteright}s largest vegetable andflower market (Koyambedu Market Chennai), as well as waste from slaughterhouses(also Chennai) - which would otherwise end up in municipal waste - is fed into aninnovative fermentation plant to enable material and energy recovery. In addition tobiogas, hygienically safe digestate and fertiliser are produced. This could be achievedby introducing a bio-extrusion aggregate from Lehmann-UMT GmbH, P{\"o}hl, Germanyas pretreatment of the waste to better breakdown the fibres and ensure the necessaryhygienic properties. In the PYRASOL project, urban organic waste, which is not directly accessible for biological treatment due to its high fibre content and digested municipal sewage sludge are pre-treated with the help of innovative solar drying and subsequently pyrolyzed in a single chamber pyrolysis boiler from Biomacon GmbH, Rehburg Germany to sustainably derive biochar, sequestering CO 2 and providing thermal energy, for land application.",
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T2 - 12th Hanseatic India Colloquium, Germany

AU - Weichgrebe, Dirk

AU - Mondal, Moni Mohan

AU - Nair, Rahul Ramesh

AU - G., Sathish

AU - R., Nishanthi

AU - Srinivasan, S.V.

PY - 2022

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N2 - Increasing urbanisation, industrialisation and social development in India is coupledwith an increase in municipal solid waste (MSW) generation. Their collection, treatment, and disposal systems must be managed and organized in an integrated approach for a sustainable and economical result. In India, organic fractions contribute to about 50wt.-% of the MSW, which needs to be disposed in safe manner without polluting the environment. Wet and biodegradable fractions of organic MSW can be treated using anaerobic digestion process while dry and fibrous fractions through thermal treatment for the recovery of energy and value-added products. This concept is investigated with the case studies of two Indo-German collaborative research projects at pilot-scale level for recovery of energy and biochar from organic fractions of MSW funded by Indo German Science and Technology Center (IGSTC) 2+2 framework programme.In the RESERVES project, urban organic waste from India’s largest vegetable andflower market (Koyambedu Market Chennai), as well as waste from slaughterhouses(also Chennai) - which would otherwise end up in municipal waste - is fed into aninnovative fermentation plant to enable material and energy recovery. In addition tobiogas, hygienically safe digestate and fertiliser are produced. This could be achievedby introducing a bio-extrusion aggregate from Lehmann-UMT GmbH, Pöhl, Germanyas pretreatment of the waste to better breakdown the fibres and ensure the necessaryhygienic properties. In the PYRASOL project, urban organic waste, which is not directly accessible for biological treatment due to its high fibre content and digested municipal sewage sludge are pre-treated with the help of innovative solar drying and subsequently pyrolyzed in a single chamber pyrolysis boiler from Biomacon GmbH, Rehburg Germany to sustainably derive biochar, sequestering CO 2 and providing thermal energy, for land application.

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BT - Proceedings 12th Hanseatic India Colloquium, Germany

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