Taking Xiao Mausoleum of the Ming Dynasty in Nanjing City for example,IPAT conceptual model of the system dynamics was introduced to construct the ROMCPE living development mode suitable for monument parks centering o...Taking Xiao Mausoleum of the Ming Dynasty in Nanjing City for example,IPAT conceptual model of the system dynamics was introduced to construct the ROMCPE living development mode suitable for monument parks centering on protection of the authenticity.Through estimating tourist resources,tourism originality,evaluation of living market,capital investment for living development,policy guarantee for the living development,and environmental quality for living development of the Xiao Mausoleum,it was found that the overall resources of the scenic area are in good conditions,but its living development remains in an average level.In view of this,it was suggested that the living development of the Xiao Mausoleum of the Ming Dynasty can be promoted by improving creativity of high-and middle-level management staff,using resource advantages,distributing capital investment reasonably,and applying suitable marketing modes.展开更多
Under the context of the New Three-step strategy of Chinese economic development, we use the reverse tracing method and petroleum, natural gas and coal as sources of carbon emissions. To eliminate the impact of region...Under the context of the New Three-step strategy of Chinese economic development, we use the reverse tracing method and petroleum, natural gas and coal as sources of carbon emissions. To eliminate the impact of regional and technological levels in the energy conversion process we improved the IPAT model and used it to predict and analyze China’s per capita carbon emissions in three assumed scenarios up to 2050. We found that China’s per capita carbon emissions peak wil occur respectively in 2020 and 2030 in different assumed scenarios; national per capita carbon emissions wil reach 2.0127–2.6791 tons; China’s per capita carbon emissions wil grow continuously at an average rate of 2.25%–3.40% per year before the peak year and then wil decline at a rate of 1.33%–1.78% per year. By the year of 2050, national per capita carbon emissions wil be 1.3147–1.8817 tons.展开更多
基金Sponsored by Jiangsu Provincial Key Training Program of University Students’ Practicing Innovation(201311122007Z)
文摘Taking Xiao Mausoleum of the Ming Dynasty in Nanjing City for example,IPAT conceptual model of the system dynamics was introduced to construct the ROMCPE living development mode suitable for monument parks centering on protection of the authenticity.Through estimating tourist resources,tourism originality,evaluation of living market,capital investment for living development,policy guarantee for the living development,and environmental quality for living development of the Xiao Mausoleum,it was found that the overall resources of the scenic area are in good conditions,but its living development remains in an average level.In view of this,it was suggested that the living development of the Xiao Mausoleum of the Ming Dynasty can be promoted by improving creativity of high-and middle-level management staff,using resource advantages,distributing capital investment reasonably,and applying suitable marketing modes.
基金National Natural Science Fund of China(51379015)Scientific Research Foundation for the Returned Overseas Chinese Scholars,Ministry of Education of China(2013-46)+3 种基金Humanity and Social Science Foundation of Ministry of Education of China(15YJC790015)Shaanxi Research Fund(2013KW13-01,13D231)Xi’an Social Science Fund(15J24)the Central Universities Fund(2014G2280013,2014G6285067)
文摘Under the context of the New Three-step strategy of Chinese economic development, we use the reverse tracing method and petroleum, natural gas and coal as sources of carbon emissions. To eliminate the impact of regional and technological levels in the energy conversion process we improved the IPAT model and used it to predict and analyze China’s per capita carbon emissions in three assumed scenarios up to 2050. We found that China’s per capita carbon emissions peak wil occur respectively in 2020 and 2030 in different assumed scenarios; national per capita carbon emissions wil reach 2.0127–2.6791 tons; China’s per capita carbon emissions wil grow continuously at an average rate of 2.25%–3.40% per year before the peak year and then wil decline at a rate of 1.33%–1.78% per year. By the year of 2050, national per capita carbon emissions wil be 1.3147–1.8817 tons.
