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Scenario Analysis of Low-Carbon Urban Energy System in Asian Cities

  • Hooman Farzaneh
Chapter

Abstract

The main challenges of the coming urban energy transitions in Asia include increased urbanization in developing countries, climate change-energy security imperatives, and new technologies at local and grid levels. These challenges highlight the need for Asian cities to reconsider how new urban investments should be prioritized in order to reduce resource consumption and emissions, as well as to achieve local and national development goals. This chapter will explore the application of a quantitative bottom-up modeling approach for the assessment of multiple benefits of climate change mitigation in Asian cities. Testing the model in Delhi shows the potential environmental (GHG mitigation and air quality) and health co-benefits of developing a clean transport scenario for this city. The results reveal that the implementation of the strategic plan in Delhi’s urban transportation system has GHG emission reduction potential of about 4.3 million tonnes of CO2 with an aggregated reduction of about 0.2 million tonnes of other local air pollutants, which could prevent about 22,000 cases of mortality and brings more than USD 1850 million per capita by 2030.

Keywords

Climate change Urban energy Energy modeling Asian cities 

References

  1. Asia-Pacific Network for Global Change Research (2015) Fourth strategic plan 2015–2020, ISBN 978-4-9902500-3-4, Kobe, JapanGoogle Scholar
  2. Böhringer C (2004) Sustainability impact assessment: the use of computable general equilibrium models. Écon Int 99:9–26Google Scholar
  3. DieselNet (2017) Emission standard, https://www.dieselnet.com/standards/in
  4. DPCC, Delhi Pollution Control Committee (2015) https://www.dpcc.delhigovt.nic.in/OFFICE_ORDER_02.09.2015.pdf
  5. Farzaneh H (2016) Chapter 5: energy. In: Christopher NH Doll, Puppim de Oliveira JA (eds) Urbanization and climate co-benefits implementation of win-win interventions in cities. Routledge Taylor & Francis, New YorkGoogle Scholar
  6. Farzaneh H (2017a) Multiple benefits assessment of the clean energy development in Asian cities. Energy Procedia 136:8–14CrossRefGoogle Scholar
  7. Farzaneh H (2017b) Development of a bottom-up technology assessment model for assessing the low carbon energy scenarios in the urban system. Energy Procedia 107(2017):321–326CrossRefGoogle Scholar
  8. Farzaneh H, Suwa A, Doll CNH, Puppim de Oliveira JA (2014) Developing a tool to analyze climate co-benefits of the urban energy system. Procedia Environ Sci 20:97–105CrossRefGoogle Scholar
  9. Farzaneh H, Doll CNH, Puppim de Oliveira JA (2016a) An integrated supply-demand model for the optimization of energy flow in the urban energy system. J Clean Prod 114:269–285CrossRefGoogle Scholar
  10. Farzaneh H, McLellan B, Ishihara KN (2016b) Toward a CO2 zero emissions energy system in the Middle East region. Int J Green Energy 13(7):682–694CrossRefGoogle Scholar
  11. MHFW, Ministry of Health and Family Welfare (2018) https://nrhm-mis.nic.in/SitePages/HMIS-PeriodicReport.aspx
  12. Ministry of the Environment, Japan (MOEJ), The Co-benefits Approach for GHG Emission Reduction Projects (2008) https://www.env.go.jp/en/earth/ets/icbaghserp081127.pdf
  13. Nakata T, Silva D, Rodionov M (2011) Application of energy system models for designing a low-carbon society. Prog Energy Combust Sci 37:462–502CrossRefGoogle Scholar
  14. Smith KR, Woodward A, Campbell-Lendrum D, Chadee DD, Honda Y, Liu Q, Olwoch JM, Revich B, Sauerborn R (2014) Human health: impacts, adaptation, and co-benefits. In: Climate change 2014: impacts, adaptation, and vulnerability. Part A: global and sectoral aspects. Contribution of working group II to the fifth assessment report of the intergovernmental panel on climate change. Cambridge University Press, Cambridge, United Kingdom and New York, NY, USA, pp 709–754Google Scholar

Copyright information

© Springer Nature Singapore Pte Ltd. 2019

Authors and Affiliations

  1. 1.Interdisciplinary Graduate School of Engineering Sciences, Kyushu UniversityFukuokaJapan

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