Abstract
Mitigation of greenhouse gases (GHG) emissions is desirable without compromising the economic growth. This paper reviews the recent trends to mitigate GHG emissions in the key sectors of energy and solid waste. The energy sector is the key admitter for global GHG emissions, and a range of optimisation and modelling tool has been developed to minimise the GHG emissions and overall cost, especially for the implementation of renewable energies such as biofuel and biogas. A few carbon sequestration technologies such as the carbon capture and storage (CCS) and biochar application have been reviewed. The review included the challenges and knowledge gaps regarding the utilisation of CCS, such as the storage capacity, long-term policy framework, high costs and the potential risk. Although solid waste contributes about < 5% of the global GHG emissions, effective solid waste management remained a great challenge in many fast-growing cities in Asia. Considering the high organic portion (> 40%) in the municipal solid waste for many develo** countries in Asia, composting has been proposed as a viable treatment technology to convert waste-to-wealth. A range of waste management tools, including scenario analyses on different waste technologies, optimisation of waste collection routes, multi-criteria decision tools, is reviewed to support the decision-making for solid waste management. A range of environmental management system (EMS) has been adopted by organisations to improve product quality, reducing production cost and improves reputation of firms. An environmental policy such as tax exemption could be helpful to promote the adoption of EMS that could be costly. CO2 and material flow footprint tools, such as water–energy–materials nexus, are applicable at a city and regional level. The tools are used to mitigate GHG emissions by develo** the mechanisms with shared markets of virtual resource flows (carbon, water, food, energy) between the trading partners regionally and internationally.
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References
ADB (Asian Development Bank) (2016) Asian development outlook 2016 update: meeting the low carbon growth challenge. www.adb.org/sites/default/files/publication/197141/ado2016-update.pdf. Accessed 27 Dec 2017
BP (2017) Statistical review of world energy. www. bp.com/en/global/corporate/energy-economics/statistical-review-of-world-energy.html. Accessed 25 Jan 2018
Chen YT (2016) A cost analysis of food waste composting in Taiwan. Sustainability 8(11):1210
Chen S, Xu B, Chen B (2018) Unfolding the interplay between carbon flows and socioeconomic development in a city: What can network analysis offer? Appl Energy 211:403–412
Das S, Bhattacharyya BK (2015) Optimization of municipal solid waste collection and transportation routes. Waste Manag 43:9–18
Deng L, Liu S, Kim DG, Peng C, Sweeney S, Shangguan Z (2017) Past and future carbon sequestration benefits of China’s grain for green program. Global Environ Change 47:13–20
Eurostat (2017) Greenhouse gas emission statistics. ec.europa.eu/eurostat/statistics-explained/index.php/Greenhouse_gas_emission_statistics. Accessed 27 Dec 2017
ExxonMobil (2017) Develo** cutting edge technology—carbon capture and storage. corporate.exxonmobil.com/en/technology/carbon-capture-and-storage/carbon-capture-and-storage/develo**-cutting-edge-technology-carbon-capture-and-storage. Accessed 27 Dec 2017
Fan YV, Lee CT, Klemeš JJ, Bong CPC, Ho WS (2016) Economic assessment system towards sustainable composting quality in the develo** countries. Clean Technol Environ Policy 18(8):2479–2491
Gasser T, Guivarch C, Tachiiri K, Jones CD, Ciais P (2015) Negative emissions physically needed to keep global warming below 2 °C. Nat Commun. https://doi.org/10.1038/ncomms8958
Guerrero LA, Maas G, Hogland W (2013) Solid waste management challenges for cities in develo** countries. Waste Manag 33:220–232
Han S, Kim J (2017) Optimization-based integration and analysis of a complex renewable energy system for the transportation sector. Chem Eng Res Des 128:1–14
Hiremath RB, Shikha S, Ravindranath NH (2007) Decentralized energy planning, modeling and application—a review. Renew Sustain Energy Rev 11(5):729–752
Houng H, Shen S, Ma H (2014) Municipal solid waste management in Taiwan: from solid waste to sustainable material management. In: Pariatamby A, Tanaka M (eds) Municipal solid waste management in Asia and the Pacific Islands: challenges and strategic solutions. Springer, New York
IPCC (2007) Working group I fourth assessment report ‘the physical science basis’. In particular. wg1.ipcc.ch/publications/wg1-ar4/wg1-ar4.html. Accessed 27 Jan 2017
Iraldo F, Testa F, Frey M (2009) Is an environmental management system able to influence environmental and competitive performance? The case of the eco-management and audit scheme (EMAS) in the European Union. J Clean Prod 17(16):1444–1452
Lee CT, Lim JS, Fan YV, Liu X, Fujiwara T, Klemeš JJ (2018) Enabling low-carbon emissions for sustainable development in Asia and beyond. J Clean Prod 176:726–735. https://doi.org/10.1016/j.jclepro.2017.12.110
Lehmann J (2007) A handful of carbon. Nature 447(7141):143–144
Liddle B (2018) Consumption-based accounting and the trade-carbon emissions nexus. Energy Econ 69:71–78. https://doi.org/10.1016/j.eneco.2017.11.004
Liu LC, Li Q, Zhang JT, Cao D (2016) Toward a framework of environmental risk management for CO2 geological storage in China: gaps and suggestions for future regulations. Mitig Adapt Strateg Glob Change 21(2):191–207
Malakahmad A, Bakri PM, Mokhtar MRM, Khalil N (2014) Solid waste collection routes optimization via GIS techniques in Ipoh city, Malaysia. Proced Eng 77:20–27
Olivier JGJ, Schure KM, Peters JAHW (2017) Trends in global CO2 and total greenhouse gas emissions. PBL Netherlands Environmental Assessment Agency 2017 Report. www.pbl.nl/sites/default/files/cms/publicaties/pbl-2017-trends-in-global-co2-and-total-greenhouse-gas-emissons-2017-report_2674.pdf. Accessed 06.01.2018
Rahman FA, Aziz MMA, Saidur R, Bakar WAWA, Hainin MR, Putrajaya R, Hassan NA (2017) Pollution to solution: capture and sequestration of carbon dioxide (CO2) and its utilization as a renewable energy source for a sustainable future. Renew Sustain Energy Rev 71:112–126
Smith P (2016) Soil carbon sequestration and biochar as negative emission technologies. Glob Change Biol 22(3):1315–1324
Song H, Zhao C, Zeng J (2017) Can environmental management improve financial performance: an empirical study of A-shares listed companies in China. J Clean Prod 141:1051–1056
Tan ST, Lee CT, Hashim H, Ho WS, Lim JS (2014) Optimal process network for municipal solid waste management in Iskandar Malaysia. J Clean Prod 71:48–58
Tanaka Y, Sawada Y, Tanase D, Tanaka J, Shiomi S, Kasukawa T (2017) Tomakomai CCS demonstration project of Japan, CO2 injection in process. Energy Proced 114:5836–5846
UNEP (United Nations Environment Programme) (2015) Global waste management outlook 2015. eprints.whiterose.ac.uk/99773/1/GWMO_report.pdf. Accessed 28 Dec 2017
UNEP (United Nations Environment Programme) (2017) Asia waste management outlook. www.researchgate.net/profile/Guilberto_Borongan/publication/320279932_Asia_Waste_Management_Outlook/links/59dae3b90f7e9b12b36d911b/Asia-Waste-Management-Outlook.pdf. Accessed 27 Jan 2018
Watanabe C (2016) Japan pushes ahead with Hokkaido carbon capture test despite quake concerns. The Japan Times. www.japantimes.co.jp/news/2016/03/01/national/science-health/japan-pushes-ahead-hokkaido-carbon-capture-test-despite-quake-concerns/#.WkAxCkqnFPY. Accessed 27 Dec 2017
White DJ, Hubacek K, Feng K, Sun L, Meng B (2018) The water–energy–food nexus in East Asia: a tele-connected value chain analysis using inter-regional input–output analysis. Appl Energy 210:550–567
Xue W, Cao K, Li W (2015) Municipal solid waste collection optimization in Singapore. Appl Geogr 62:182–190
Yang L, Zhang X, McAlinden KJ (2016) The effect of trust on people’s acceptance of CCS (carbon capture and storage) technologies: evidence from a survey in the People’s Republic of China. Energy 96:69–79
Yang J, Okwananke A, Tohidi B, Chuvilin E, Maerle K, Istomin V, Bukhanov B, Cheremisin A (2017) Flue gas injection into gas hydrate reservoirs for methane recovery and carbon dioxide sequestration. Energy Convers Manag 136:431–438
Zhou X, Xu Z, Yao L, Tu Y, Lev B, Pedrycz W (2018) A novel data envelopment analysis model for evaluating industrial production and environmental management system. J Clean Prod 170(Supplement C):773–788
Acknowledgements
The authors acknowledge research grants from the Ministry of Higher Education (MOHE) Malaysia with Grant Nos. S.J130000.0846.4Y042 and Q.J130000.2546.15H25; and Universiti Teknologi Malaysia Research University Grant No. Q.J130000.2546.14H65; and the EU project Sustainable Process Integration Laboratory—SPIL, Project No. CZ.02.1.01/0.0/0.0/15_003/0000456, funded by Czech Republic Operational Programme Research, Development and Education, Priority 1: Strengthening capacity for quality research, in a collaboration agreement with UTM.
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Lee, C.T., Mohammad Rozali, N.E., Van Fan, Y. et al. Low-carbon emission development in Asia: energy sector, waste management and environmental management system. Clean Techn Environ Policy 20, 443–449 (2018). https://doi.org/10.1007/s10098-018-1512-8
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DOI: https://doi.org/10.1007/s10098-018-1512-8