Low Carbon Development of China’s Yangtze River Delta Region

• Autorzy: Shan S. , Bi X.

Warianty tytułu

PL

Gospodarka niskowęglowa w delcie rzeki Jangcy w Chinach

• Języki publikacji: EN

Abstrakty

EN

Low carbon development is a development pattern to enable social and economic progress along the path of sustainable development. This paper analyzes the low carbon development situation and trend in the China’s Yangtze River Delta region, one of the most important industrial and economic centers of China. The results indicate low carbon development in this region continues to move forward. However, many barriers, such as unbalanced energy consumption structure and limited research and development capability still exist. Some solutions to overcoming the barriers are proposed in the paper, covering policy, strategic, technological, educa-tional measures.

PL

Gospodarka niskowęglowa sprzyja zarówno rozwojowi społecznemu, jak ekonomicznemu i jest zgodna z kon-cepcją rozwoju zrównoważonego. Ten artykuł analizuje uwarunkowania wprowadzania gospodarki niskowę-glowej w delcie rzeki Jangcy w Chinach, będącej jednym z najważniejszych przemysłowych i ekonomicznych obszarów w tym kraju. Otrzymane rezultaty wskazują na pozytywny rozwój gospodarki niskowęglowej na tym obszarze. Jednakże nadal występuje wiele barier, takich jak niezrównoważona struktura konsumpcja energii i ograniczone możliwości badawcze i rozwojowe. W artykule zawarto propozycje pokonania tych barier, uwzględniające wskaźniki polityczne, strategiczne, techniczne i edukacyjne,

Słowa kluczowe

EN

sustainable development; low carbon development; Yangtze River Delta region of China; barriers; solutions

PL

rozwój zrównoważony; gospodarka niskowęglowa; delta rzeki Jangcy w Chinach; bariery; rozwiązania

• Wydawca: Lublin University of Technology
• Czasopismo: Problemy Ekorozwoju
• Rocznik: 2012
• Tom: Vol. 7, nr 2
• Strony: 33--41
• Opis fizyczny: Bibliogr. 77 poz., fig., tab.

Twórcy

autor

Shan S.

autor

Bi X.

• School of Economics &Management, Tongji University, Shanghai, 200092, China,

Bibliografia

• 1. BERNAT P., 2012, Sustainable Development and the Values We Share-Sustainability as the Confluence of Islamic and Western Ethical Frameworks, in: Problemy Ekorozwoju/ Prob-lems of Sustainable Development, vol. 7, no 1, p. 33-41.
• 2. BISZEK M., PAWŁOWSKA M., CZERWIŃSKI J. Evaluation of Measurement Meth-ods and Estimation of Biogas Emission from Landfills, in: Rocznik Ochrona Środowiska, T8, Koszalin 2006.
• 3. BP, Global Energy Consumption in 2010 Re-bounded Strongly, Driven by Economic Recovery, http://www.bp.com/sectiongenericartic le800.do?categoryId=9037128&contentId=70 6855 (accessed in October 2011).
• 4. BP, BP Statistical Review of World Energy 2011, 2011.
• 5. CCID, China’s New Energy Industrial Sustainable Policies and Resource Superior Regions Agglomeration, http://roll.sohu.com/ 20110627/n318312758.sht, 2011 (accessed in October 2011).
• 6. DASGUPTA P., TANEJA A., 2011, Low Carbon Growth: An Indian Perspective on Sustainability and Technology Transfer, in: Prob-lemy Ekorozwoju/Problems of Sustainable De-velopment, vol. 6, no 1, p. 65-74.
• 7. GAWOR L., 2010, Philosophy of Sustainable Development-Preliminaries, in: Problemy Ekorozwoju/Problems of Sustainable Devel-opment, vol. 5, no 2, p. 69-76.
• 8. GOLUŠIN M., OLJA MUNITLAK IVANOV-IĆ, JOVANOVIĆ L., DOMAZET S., 2012, Determination of the Ecological-Economic Degree of Development in Countries of SE Europe-Weight Coefficients Technique, in: Problemy Ekorozwoju/Problems of Sustainable De-velopment, vol. 7, no 1, p. 87-93.
• 9. GURTOWSKI S., 2011, Green Economy Idea-Limits, Perspectives, Implications, in: Problemy Ekorozwoju/Problems of Sustainable Development, vol. 6, no 1, p. 75-82.
• 10. HE Y, J., SHAN S.D., Theory and Practice of Circular Economy, Science Press, Beijing 2009.
• 11. HOEDL E., 2011, Europe 2020 Strategy and European Recovery, in: Problemy Ekorozwoju/Problems of Sustainable Devel-opment, vol. 6, no 2, p. 11-18.
• 12. HUETING R., 2011, Environmentally Sustainable National Income and Other Ways to Improve Information About Growth, in: Problemy Ekorozwoju/Problems of Sustainable Devel-opment, vol. 6, no 1, p. 31-46.
• 13. IPCC, IPCC Guidelines for National Greenhouse Gas Inventories, Institute for Global En-vironmental Strategies, Japan 2006.
• 14. IPCC, Climate Change 2007: Synthesis Report, 2007.
• 15. JIANG J. H., 2011, Evaluation and Decomposition Analysis of Carbon Emissions in China, in: Resources Science (China), vol. 33, no 4, p. 597-603.
• 16. JIANGSU PROVINCIAL BUREAU OF STATISTICS, Jiangsu Statistical Yearbook 2010.
• 17. JINGSU PROVINCIAL BUREAU OF STATISTICS, Jiangsu Statistical Yearbook 2011.
• 18. KEITSCH M., 2011, Ethics in Industrial Ecology, in: Problemy Ekorozwoju/Problems of Sustainable Development, vol. 6, no 2, p. 19-31.
• 19. KRAJEWSKI P., 2012, Justice and Accountability as a Basis for Sustainable Development - the Case of International Environmental Law, in: Problemy Ekorozwoju/Problems of Sustain-able Development, vol. 7, no 1, p. 15-31.
• 20. KRAS E., 2011, The Deep Roots of Sustainability, in: Problemy Ekorozwoju/Problems of Sustainable Development, vol. 6, no 1, p. 11-30.
• 21. KRONENBERG J., IIDA N., Simple Living and Sustainable Consumption, in: Problemy Ekorozwoju/Problems of Sustainable Devel-opment, vol. 6, no 2, p. 67-74.
• 22. LEBIOCKA M., MONTUSIEWICZ A., PAWŁOWSKA M., Variability of Heavy Metal Concentrations, in: the Co-Digestion Proceedings of EURASIA Waste Symposium, Is-tanbul, 14-17 November, 2011b.
• 23. LINDZEN R.S., 2010, Global Warming: the Origin and Nature of the Alleged Scientific Consensus, in: Problemy Ekorozwoju/ Problems of Sustainable Development, vol., 5 no 2, p. 13-28.
• 24. NATIONAL BUREAU OF STATISTICS OF CHINA, 2011a, China Statistical Yearbook 2010.
• 25. NATIONAL BUREAU OF STATISTICS OF CHINA, 2011a, China Statistical Yearbook 2011.
• 26. NATIONAL BUREAU OF STATISTICS OF CHINA, China Energy Statistical Yearbook 1997-1999.
• 27. NATIONAL BUREAU OF STATISTICS OF CHINA, China Energy Statistical Yearbook 2004.
• 28. NATIONAL BUREAU OF STATISTICS OF CHINA, China Energy Statistical Yearbook 2007.
• 29. NATIONAL BUREAU OF STATISTICS OF CHINA, China Energy Statistical Yearbook 2010.
• 30. NATIONAL BUREAU OF STATISTICS OF CHINA, 2011b, China Energy Statistical Yearbook 2011.
• 31. PAWŁOWSKA M., Reduction of Methane Emission From Landfills by Its Microbial Oxi-dation in Filter Bed, in: Management of Pollutant Emission from Landfills and Sludge, eds. Pawlowska M., Pawlowski L., Taylor & Francis Group, London 2008.
• 32. PAWŁOWSKA M., Efficiency of Microbiological Oxidation of Methane in Biofilter., in: Environmental Engineering, eds. Pawłowski L., Dudzińska M. R., Pawłowski A., CRC Press Taylor & Francis Group, Boca Raton 2010.
• 33. PAWŁOWSKA M., SIEPAK J., PAWŁOWSKI L., PLECZYŃSKI J., Methods for Sewage Sludge Utilisation for Intensifica-tion of Biogas Production in Refuse Collection depot, Patent EP084165556.5, 2008.09.05, 2008c.
• 34. PAWŁOWSKA M., SIEPAK J., PAWŁOWSKI L., PLECZYŃSKI J., Method for Intensification of Methane Production in Refuse Collection Depot, Patent EP08165558.1, 2008.09.05, 2008d.
• 35. PAWŁOWSKI L., PAWŁOWSKA M., DADEJ W., Method and Device for Methane Recovery from Biogas with Low Content of Methane, Patent EP08169065.3, 2008.11.13, 2008c.
• 36. PAWŁOWSKI L., PAWŁOWSKA M., DADEJ W., Method and Device for Enrichment of Biogas with Methane from Purified Municipal Waste, Patent EP08169066.1, 2008.11.13, 2008d.
• 37. PAWŁOWSKA M., STĘPNIEWSKI W., 2006a, An Influence of Methane Concentration on the Methanotrophic Activity of a Model Landfill Cover, in: Ecological Engineering, vol. 26 no 4, p. 392-395.
• 38. PAWŁOWSKA M., STĘPNIEWSKI W., 2006b, Biochemical Reduction of Methane Emission from Landfills, in: Environmental Engineering Science, vol. 23 no 4, p. 666-672.
• 39. PAWŁOWSKA M., SIEPAK J., 2006c, Enhancement of Methanogenesis at a Municipal Landfill Site by Addition of Sewage, in: Environmental Engineering Sciences, vol. 23 no 4, p. 673-679.
• 40. PAWŁOWSKA M., SZKUTNIK E., CZERWIŃSKI J., 2005, Evaluation of the Methods of Biogas Emission Measurements from The Landfills, in: Proceedings of the International Scientific Conference: Innovation and Utility in the Visegrad Fours, vol.1, 283-288.
• 41. PAWŁOWSKA M., ROŻEJ A., STĘPNIEWSKI W., 2011a, The Effect of Bed Properties on Methane Removal in an Aerated Biofilter-Model Studies, in: Waste Management, vol. 31 no 5, p. 903-913.
• 42. PAWŁOWSKA M., LEBIOCKA M., MONTUSIEWICZ A., Removal of Methane and Se-lected NMOCs From Landfill Gas-Field Studies, in: Proceedings of EURASIA Waste Sym-posium, Istanbul, 14-17 November, 2011b.
• 43. PAWŁOWSKI A., Introducing Sustainable Development-a Polish Perspective, in: Envi-ronmental Engineering Studies, Polish Re-search on the Way to the EU, eds. Pawłowski L., Dudzińska M.R., Pawłowski A., Kluwer Academic/Plenum Press, New York, Boston, Dordrecht, London, Moscow 2003a.
• 44. PAWŁOWSKI L., DUDZIŃSKA M.R., PAWŁOWSKI A., Environmental Engineering Studies, Polish Research on the Way to the EU, Kluwer Academic/Plenum Press, New York, Boston, Dordrecht, London, Moscow 2003b.
• 45. PAWŁOWSKI A., The Historical Aspect to the Shaping of the Sustainable Development Concept, in: Environmental Engineering Stud-ies, eds. Pawlowski L., Dudzinska M.R., Paw-lowski A., Taylor & Francis Group, New York, Singapore 2006.
• 46. PAWŁOWSKI A., 2008, How Many Dimen-sions does Sustainable Development Have?, in: Sustainable Development, vol. 16, no 2, p. 81-90.
• 47. PAWŁOWSKI A., 2009a, The Sustainable Development Revolution, in: Problemy Ekorozwoju/Problems of Sustainable Development, vol. 4, no 1, p. 65-76.
• 48. PAWŁOWSKI A., 2009b, Sustainable Energy as a sine qua non Condition for the Achievement of Sustainable Development, in: Prob-lemy Ekorozwoju/Problems of Sustainable De-velopment, vol. 4, no 2, p. 9-12.
• 49. PAWŁOWSKI A., Sustainable Development as a Civilisational Revolution, in: A Humanist Approach to Sustainable Development, eds. Łepko Z., Sadowski R.F., UKSW, Warsaw 2010a.
• 50. PAWŁOWSKI A., Sustainable Development vs Environmental Engineering: Energy Issues, in: Paths to Sustainable Energy, ed. Nathwani J., Ng A., Tech, Rijeka 2010b.
• 51. PAWŁOWSKI A., Sustainable Development as a Civilizational Revolution, A Multidisciplinary Approach to the Challenges of the 21st Century, CRC Press, Taylor & Francis Group, A Balkema Book, Boca Raton, London, New York, Leiden, 2011a.
• 52. PAWŁOWSKI A., Conditions of Polish Energy Security and Sustainable Development, in: Eco-Management For Sustainable Regional Development, eds. Bojar E., Dom Organiza-tora, Toruń 2011c.
• 53. RAO Q., 2011, Analysis of Carbon Emissions from Energy Consumption in Yangtze River Delta Region, in: Water Resources and Power (China), vol. 29, no 5, p. 189-182.
• 54. PIEŃKOWSKI D., 2012, The Jevons Effect and the Consumption of Energy in the European Union, in: Problemy Ekorozwoju/Problems of Sustainable Development, vol. 7, no 1, p. 105-116.
• 55. RODOJICIC Z., ISLJAMOVIC S., PE-TROVIC N., JEREMIC V., 2012, A Novel Approach to Evaluating Sustainable Development, in: Problemy Ekorozwoju/Problems of Sustainable Development, vol. 7, no 1, p. 81-85.
• 56. SHAN S. D., SHAO F., ZHOU S., Survey on Rural Waste in Zhejiang Province, Science Press, Beijing 2008.
• 57. SHANGHAI MUNICIPAL BUREAU OF STATISTICS, Shanghai Statistical Yearbook 2010.
• 58. SHANGHAI MUNICIPAL BUREAU OF STATISTICS, Shanghai Statistical Yearbook 2011.
• 59. STATE COUNCIL OF THE PEOPLE’S REPUBLIC OF CHINA, State Council’s Decision on the Accelerating the Fostering and Devel-opment of New Strategic Emerging Industries Document, 2010.
• 60. STĘPNIEWSKI W., PAWŁOWSKA M., Examination of the Possibillity to Reduce the Me-thane Emission from Landfills by Its Oxidation in the Landfill Cover in Order to Minimalize Its Contribution in the Green House Effect, 10th International Conference for the Protection of the Environment, Lublin, Poland, Sept. 17-21, 1995.
• 61. STĘPNIEWSKI W., PAWŁOWSKA M., A Possibility to Reduce Methane Emission from Landfills by Its Oxidation in the Soil Cover, in: Chemistry from the Protection of the Environment 2, Environmental Science Research, Vol. 51, eds. Pawlowski L., William J. Lacy, Christopher G. Uchrin, Dudzinska M.R., Plenum Press, New York 1996.
• 62. STĘPNIEWSKI W, PAWŁOWSKA M., Effect of Grain Size on Methane Oxidation Capacity in Sand Layer – a Model Laboratory Study, 6th International Conference on Agrophysics, Lublin, Poland, Sept.15-18, 1997.
• 63. STĘPNIEWSKI W., PAWŁOWSKA M., Preliminary Short-Term Test of Methane Oxida-tion Capacity in Porous Materials-Evaluation of Reliability, in: Environmental Engineering, eds. Cygas D., Froehner K.D., Vilnus, Lithua-nia 2008a.
• 64. STĘPNIEWSKI W., PAWŁOWSKA, M., Biofilters and Biocovers of Landfills-Effect of Biophysical Factors on Their Efficiency, in: Proceedings of the National Seminar on Solid Waste Management-WasteSafe 2008, eds. Alamgir M., Hossain Q.S., Rafizul I.M., Mohiuddin K.M., Bari Q.H., Kbulna, Bangladesh 2008b.
• 65. TUZIAK A., 2010, Socio-Economic Aspects of Sustainable Development on Global and Local Level, in: Problemy Ekorozwoju/Problems of Sustainable Development, vol. 5, no 2, p. 39-49.
• 66. UDO V., PAWŁOWSKI A., 2010, Human Progress Towards Equitable Sustainable Development: A Philosophical Exploration, in: Problemy Ekorozwoju/Problems of Sustainable Development, vol. 5, no 1, p. 23-44.
• 67. UDO V., PAWŁOWSKI A., 2011b, Human Progress Towards Equitable Sustainable Development-part II, Empirical Exploration of Sustainable Development, in: Problemy Ekorozwoju/Problems of Sustainable Devel-opment, vol. 6, no 2, p. 33-62.
• 68. UNDP, China Human Development Report 2009/10: Towards a Low Carbon Economy and Sustainable Society, China Translation & Publishing Corporation, Beijing 2000.
• 69. U.S. ENVIRONMENTAL PROTECTION AGENCY (U.S. EPA), 2006, Global Anthro-pogenic Non-CO2 Greenhouse Gas Emissions: 1990–2020.
• 70. VENKATESH G., 2010, Triple Bottom Line Approach to Individual and Global Sustainability, in: Problemy Ekorozwoju/Problems of Sus-tainable Development, vol. 5 no 2, p. 29-37.
• 71. WANG X. K., China Energy Conservation and Emission Reduction Development Report 2010, China Water Power Press, Beijing 2010.
• 72. WECD, Our Common Future, OXFORD Uni-versity Press, New York 1987.
• 73. WMO 2010 equals record for world’s warmest year, http://www.wmo.int/pages/mediacentre/ press_releases/pr_906_en.html (accessed in October 2011).
• 74. ZHAO M., ZHANG W., YU L., 2009, Carbon Emissions from Energy Consumption in Shanghai City, in: Research of Environment Sciences (China), vol. 22 no 8, p. 984-989.
• 75. ZHEIJANG PROVINCIAL BUREAU OF STATISTICS, Zhejiang Statistical Yearbook 2010.
• 76. ZHEIJANG PROVINCIAL BUREAU OF STATISTICS, Zhejiang Statistical Yearbook 2011.
• 77. ZHU D. J., 2011, The Strategic Thinking on Low Carbon Development of Shanghai Me-tropolis, in: Journal of Shanghai Economic Management College (China), vol. 9, no 2, p. 1-5.