• 庞明月

女,山东临清人。

青岛大学,环境科学与工程学院,讲师

教育经历(从大学本科开始,按时间倒序排序)

Ø 2016/06-2016/09英国南安普顿大学,工程与环境学院,博士联合培养

Ø 2014/09-2017/06北京师范大学,环境学院,博士

Ø 2012/09-2014/07北京师范大学,环境学院,硕士

Ø 2008/09-2012/07北京师范大学,环境学院,学士

主持或参加科研项目(按时间倒序排序)

1国家自然科学基金面上项目,“我国典型生物质能的可再生性与碳减排潜力研究”(项目编号:41371521),参加

2、区域循环经济技术及其发展模式的风险评估及决策支持研究(国家科技支撑项目,主要参与者)

3、“双高”产品名录绿色信贷运用效果评估(环保部环境与经济政策研究中心,主要参与者)

已取得的研究成果

[1]Pang M Y, Zhang L X*, Bahaj A, et al. Small hydropower development in Tibet: Insights from a survey in Nagqu

Prefecture. Renewable and Sustainable Energy Reviews 2017, Accepted (SCI, IF=8.050, Q1)

[2]Pang M Y, Zhang L X*, Liang S, et al. Trade-off between carbon reduction benefits and ecological costs of biomass-based power plants with carbon capture and storage (CCS) in China. Journal of Cleaner Production 2017, 144: 279-286 (SCI, IF=5.715, Q2).

[3] Zhang L X, Pang M Y*, Wang C B, et al. Environmental sustainability of small hydropower schemes in Tibet: An

emergy-based comparative analysis. Journal of Cleaner Production 2016, 135: 97-104 (SCI, IF=5.715, Q2).

[4] Pang M Y, Zhang L X*, Ulgiati Sergio, et al. Ecological impacts of small hydropower in China: Insights from an

emergy analysis of a case plant. Energy Policy 2015, 76: 112-122 (SCI, IF=4.140, Q1).

[5] Pang M Y, Zhang L X*, Wang C B, et al. Environmental life cycle assessment of a small hydropower plant in China.

The International Journal of Life Cycle Assessment 2015, 20(6): 796-806 (SCI, IF=3.173, Q2).

[6] Zhang L X*, Pang M Y, Wang C B. Emergy analysis of a small hydropower plant in southwestern China. Ecological

Indicators 2014, 38: 81-88 (SCI, IF=3.898, Q2).

[7]Pang M Y, Zhang L X*, Wang C B. Impacts of fuel collecting radius on biomass direct-fired power system: insights

from the emergy analysis of a case plant in China. Emergy Synthesis 8, Proceeding of the 8th Biennial Emergy Conference, 2015, 159-168.

[8]Pang M Y, Zhang L X*, Wang C B, et al. Emergy Analysis of a Biomass Direct-fired Power Plant in Inner Mongolia

of China. Journal of Environmental Accounting and Management 2013, 1(4): 321-331.

[9]庞明月, 张力小*, 王长波. 基于能值分析的我国小水电生态影响研究. 生态学报, 2015,35(8): 2741-2749 (CSSCI).

[10]庞明月, 张力小*, 王长波. 基于生态能量视角的我国小水电可持续性分析. 生态学报, 2014, 34(3): 537-545 (CSSCI).

[11]Xu L, Pang M Y, Zhang L X*, et al. Life cycle assessment of onshore wind power systems in China. Resources,

Conservation and Recycling 2017, Accepted (SCI, IF=3.313, Q3).

[12]Wang C B, Zhang L X*, Chang Y, Pang M Y, et al. A life-cycle comparison of the energy, environmental and

economic impacts of coal versus wood pellets for generating heat in China. Energy 2017, 120: 374-384 (SCI, IF=4.520, Q2).

[13]Zhang L X*, Hao Y, Chang Y, Pang M Y, et al. Emergy based resource intensities of industry  sectors in China.

Journal of Cleaner Production 2017, 142: 829-836 (SCI, IF=5.715, Q2).

[14]Wang C B, Zhang Y Q , Zhang L X*, Pang M Y. lternative policies to subsidize rural household biogas digesters.  Energy Policy 2016, 93: 187-195 (SCI, IF=4.140, Q1).

[15]Wang C B, Zhang L X*, Chang Y, Pang M Y. Biomass direct-fired power generation system in China: An integrated

energy, GHG emissions, and economic valuation for Salix. Energy Policy 2015, 84: 155-165 (SCI, IF=4.140, Q1).

[16]Wang C B, Zhang L X*, Yang S Y, Pang M Y. A hybrid life-cycle assessment of nonrenewable energy and

greenhouse-gas emissions of a village-level biomass gasification project in China. Energies 2012, 5: 2708-2723 (SCI, IF=2.077, Q4).

[17]Evariste R, Zhang L X*, Pang M Y. Simulating the dynamics of e-waste production from mobile phone: model

development and case study of Rwanda. Journal of Environmental Accounting and Management 2015, 3(4): 309-322.

[18]唐守娟, 张力小*, 庞明月, 郝岩. 基于能值分析的中国潮汐能发点可持续研究--以浙江省江厦潮汐试验电站为例. 生态学杂志, 2017, 36(4): 1060-1066.

[19]王长波, 张力小*, 庞明月. 生命周期评价方法研究综述--兼论混合生命周期评价的发展与应用. 自然资源学报, 2015, 30(7): 1232-1242 (CSSCI).



相关学者

最近来访

相同研究领域

同一单位

相同研究兴趣