scholarly journals Forecasting the path of China's CO2 emissions using province-level information

2008 ◽  
Vol 55 (3) ◽  
pp. 229-247 ◽  
Author(s):  
Maximilian Auffhammer ◽  
Richard T. Carson
Keyword(s):  
Co2 Emissions ◽  
Level Information ◽  
Province Level

scholarly journals Forecasting The Path of U.S. CO2 Emissions Using State-Level Information

2012 ◽  
Vol 94 (1) ◽  
pp. 172-185 ◽  
Author(s):  
Maximilian Auffhammer ◽  
Ralf Steinhauser
Keyword(s):  
Co2 Emissions ◽  
State Level ◽  
Level Information

scholarly journals The CO<sub>2</sub> release and Oxygen uptake from Fossil Fuel Emission Estimate (COFFEE) dataset: effects from varying oxidative ratios

2011 ◽  
Vol 11 (14) ◽  
pp. 6855-6870 ◽  
Author(s):  
J. Steinbach ◽  
C. Gerbig ◽  
C. Rödenbeck ◽  
U. Karstens ◽  
C. Minejima ◽  
...  
Keyword(s):  
Oxygen Uptake ◽  
Co2 Emissions ◽  
Fossil Fuel ◽  
Transport Model ◽  
Atmospheric Oxygen ◽  
Temporal Trends ◽  
Spatial And Temporal Patterns ◽  
Country Level ◽  
Emission Estimate ◽  
Level Information

Abstract. We present a global dataset of CO2 emissions and O2 uptake associated with the combustion of different fossil fuel types. To derive spatial and temporal patterns of oxygen uptake, we combined high-resolution CO2 emissions from the EDGAR (Emission Database for Global Atmospheric Research) inventory with country level information on oxidative ratios, based on fossil fuel consumption data from the UN energy statistics database. The results are hourly global maps with a spatial resolution of 1°×1° for the years 1996–2008. The potential influence of spatial patterns and temporal trends in the resulting O2/CO2 emission ratios on the atmospheric oxygen signal is examined for different stations in the global measurement network, using model simulations from the global TM3 and the regional REMO transport model. For the station Hateruma Island (Japan, 24°03' N, 123°48' E), the simulated results are also compared to observations. In addition, the possibility of signals caused by variations in fuel use to be mistaken for oceanic signals is investigated using a global APO inversion.

ANALYSIS OF CO2 EMISSIONS MANAGEMENT PERFORMANCE IN CHINA AT SUB-PROVINCE LEVEL

2019 ◽  
Vol 18 (1) ◽  
pp. 203-212
Author(s):  
Lixiao Zhang ◽  
Bofeng Cai ◽  
Weishan Yang ◽  
Yueyi Feng
Keyword(s):  
Co2 Emissions ◽  
Management Performance ◽  
Province Level

scholarly journals Are there Environmental Kuznets Curves for China Province-level CO2 emissions

2018 ◽  
Vol 170 ◽  
pp. 032007
Author(s):  
Feiyin Wang ◽  
Pengtao Wang ◽  
Lihui Dong ◽  
Shuai Fu ◽  
Honglai Xue
Keyword(s):  
Co2 Emissions ◽  
Environmental Kuznets Curves ◽  
Province Level

scholarly journals The CO<sub>2</sub> release and Oxygen uptake from Fossil Fuel Emission Estimate (COFFEE) dataset: effects from varying oxidative ratios

2011 ◽  
Vol 11 (2) ◽  
pp. 6187-6220 ◽  
Author(s):  
J. Steinbach ◽  
C. Gerbig ◽  
C. Rödenbeck ◽  
U. Karstens ◽  
C. Minejima ◽  
...  
Keyword(s):  
Oxygen Uptake ◽  
Co2 Emissions ◽  
Fossil Fuel ◽  
Transport Model ◽  
Atmospheric Oxygen ◽  
Temporal Trends ◽  
Spatial And Temporal Patterns ◽  
Country Level ◽  
Emission Estimate ◽  
Level Information

Abstract. We present a global dataset of CO2 emissions and O2 uptake associated with the combustion of different fossil fuel types. To derive spatial and temporal patterns of oxygen uptake, we combined high-resolution CO2 emissions from the EDGAR (Emission Database for Global Atmospheric Research) inventory with country level information on oxidative ratios, based on fossil fuel consumption data from the UN energy statistics database. The results are hourly global maps with a spatial resolution of 1° × 1° for the years 1996–2008. The potential influence of spatial patterns and temporal trends in the resulting O2/CO2 emission ratios on the atmospheric oxygen signal is examined for different stations in the global measurement network, using model simulations from the global TM3 and the regional REMO transport model. For the station Hateruma Island (Japan, 24° 03' N, 123° 48' E), the simulated results are also compared to observations. In addition, the possibility of signals caused by variations in fuel use to be mistaken for oceanic signals is investigated using a global APO inversion.

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