pdf-to-markdown/examples/Achieving-The-Paris-Climate-Agreement/detectTOC.json

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{"page":36,"change":"Removal","str":"Fig. 3.12 Differences between the raw LDF emission scenario data ........... 62","line":17,"x":53.85845184,"y":238.17608642,"width":"302.04","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":36,"change":"Removal","str":"Fig. 3.13 The 2.0 °C and 1.5 °C scenarios and their absolute fossil ","line":18,"x":53.85845947,"y":226.17608642,"width":"267.15","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
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{"page":37,"change":"Removal","str":"literature-reported scenarios (increasing purplered line ","dir":"ltr","width":"227.71","height":"10.00","transform":["10.00","0.00","0.00","10.00","104.86","573.16"],"fontName":"TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman","x":104.85829925,"y":573.15979003,"line":3}
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{"page":37,"change":"Removal","str":"Fig. 3.14 Example distributions of emissions scenario characteristics ........ 66","line":5,"x":53.8583107,"y":549.15979003,"width":"302.00","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":37,"change":"Removal","str":"Fig. 4.1 Land-use sequestration pathways showing annual ","line":6,"x":53.85832977,"y":531.15979003,"width":"233.79","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":37,"change":"Removal","str":"sequestration rates over time ........................................................ 80","line":7,"x":104.85832977,"y":519.15979003,"width":"264.40","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":37,"change":"Removal","str":"Fig. 4.2 Land-use-related CO 2 emission and sequestration rates ............... 82","line":8,"x":53.85834121,"y":505.65979003,"width":"297.13","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":37,"change":"Removal","str":"Fig. 4.3 Global and regional methane emissions from fossil, ","line":9,"x":53.8569107,"y":495.15979003,"width":"242.06","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":37,"change":"Removal","str":"industrial, and land-use-related sources ....................................... 84","line":10,"x":104.8569107,"y":483.15979003,"width":"264.13","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
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{"page":37,"change":"Removal","str":"Fig. 4.5 Global SF 6 emission levels from literature-reported scenarios ","line":13,"x":53.85694122,"y":445.65979003,"width":"280.07","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
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{"page":37,"change":"Removal","str":"Fig. 4.6 Global tetrafluoromethane (CF 4 ) emissions from ","line":15,"x":53.85802078,"y":421.65979003,"width":"229.38","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":37,"change":"Removal","str":"the collection of assessed literature- reported scenarios ","line":16,"x":104.85690307,"y":411.15979003,"width":"221.33","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
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{"page":37,"change":"Removal","str":"Fig. 4.7 Global and regional sulfate dioxide (SO X ) emissions ","line":18,"x":53.8569107,"y":385.65979003,"width":"244.90","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":37,"change":"Removal","str":"in the literature-reported scenarios considered ","dir":"ltr","width":"188.28","height":"10.00","transform":["10.00","0.00","0.00","10.00","104.86","375.16"],"fontName":"TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman","x":104.85858917,"y":375.15979003,"line":19}
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{"page":37,"change":"Removal","str":"Fig. 4.8 Global and regional nitrate aerosol (NO X ) emissions ","line":21,"x":53.85860824,"y":349.65979003,"width":"244.43","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":37,"change":"Removal","str":"in the literature-reported scenarios considered ","dir":"ltr","width":"188.28","height":"10.00","transform":["10.00","0.00","0.00","10.00","104.86","339.16"],"fontName":"TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman","x":104.85817718,"y":339.15979003,"line":22}
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{"page":37,"change":"Removal","str":"Fig. 4.9 Global and regional black carbon BC emissions ","line":24,"x":53.85820007,"y":315.15979003,"width":"226.78","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
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{"page":37,"change":"Removal","str":"and the LDF pathways derived in this study ................................ 89","line":26,"x":104.85820007,"y":291.15979003,"width":"264.21","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":37,"change":"Removal","str":"Fig. 4.10 Global and regional organic carbon OC emissions ","line":27,"x":53.85821151,"y":279.15979003,"width":"240.43","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":37,"change":"Removal","str":"in the literature-reported scenarios considered ","dir":"ltr","width":"188.28","height":"10.00","transform":["10.00","0.00","0.00","10.00","104.86","267.16"],"fontName":"TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman","x":104.8582077,"y":267.15979003,"line":28}
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{"page":37,"change":"Removal","str":"Fig. 5.1 Historic development and projections of oil prices ","line":30,"x":53.8582306,"y":237.15979003,"width":"235.97","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":37,"change":"Removal","str":"(bottom lines) and historical world oil production ","dir":"ltr","width":"202.67","height":"10.00","transform":["10.00","0.00","0.00","10.00","104.86","225.16"],"fontName":"TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman","x":104.8582306,"y":225.15979003,"line":31}
{"page":37,"change":"Removal","str":"and projections (top lines) by the IEA according ","dir":"ltr","width":"198.02","height":"10.00","transform":["10.00","0.00","0.00","10.00","104.86","213.16"],"fontName":"TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman","x":104.8582306,"y":213.15979003,"line":32}
{"page":37,"change":"Removal","str":"to Wachtmeister et al. (2018) ........................................................ 104","line":33,"x":104.8582306,"y":201.15979003,"width":"270.82","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":37,"change":"Removal","str":"Fig. 5.2 Global supply curve for primary biomass in 2030 ","line":34,"x":53.85823822,"y":189.15979003,"width":"233.17","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":37,"change":"Removal","str":"(IRENA 2014) .............................................................................. 111","line":35,"x":104.85823822,"y":177.15979003,"width":"269.36","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":37,"change":"Removal","str":"Fig. 5.3 Development of the specific final energy use (per $GDP) ","line":36,"x":53.8582611,"y":165.15979003,"width":"262.99","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":37,"change":"Removal","str":"in all stationary sectors (i.e., without transport) per world ","dir":"ltr","width":"233.48","height":"10.00","transform":["10.00","0.00","0.00","10.00","104.86","153.16"],"fontName":"TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman","x":104.8582611,"y":153.15979003,"line":37}
{"page":37,"change":"Removal","str":"region under the 2.0 °C Scenario (left) ","dir":"ltr","width":"158.54","height":"10.00","transform":["10.00","0.00","0.00","10.00","104.86","141.16"],"fontName":"TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman","x":104.8582611,"y":141.15979003,"line":38}
{"page":37,"change":"Removal","str":"and 1.5 °C Scenario (right) ........................................................... 119","line":39,"x":104.8582611,"y":129.15979003,"width":"270.65","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":37,"change":"Removal","str":"Fig. 5.4 Development of the average global RES shares ","line":40,"x":53.85826873,"y":117.15979003,"width":"223.94","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":37,"change":"Removal","str":"in total power generation in the 2.0 °C Scenario .......................... 122","line":41,"x":104.85826873,"y":105.1597824,"width":"270.67","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":37,"change":"Removal","str":"Fig. 5.5 Development of the average global RES shares of future ","line":42,"x":53.85829162,"y":93.1597824,"width":"261.15","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":37,"change":"Removal","str":"heat generation options in Industry in the 2.0 °C scenario ........ 124","line":43,"x":104.85827636,"y":81.1597824,"width":"270.08","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
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{"page":38,"change":"Removal","str":"heat-generation options in the Residential and other ","dir":"ltr","width":"218.30","height":"10.00","transform":["10.00","0.00","0.00","10.00","104.86","585.16"],"fontName":"TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman","x":104.85829925,"y":585.15979003,"line":2}
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{"page":38,"change":"Removal","str":"Fig. 6.1 World final energy use by transport mode in 2015 ....................... 133","line":4,"x":53.8583107,"y":555.15979003,"width":"301.78","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":38,"change":"Removal","str":"Fig. 6.2 Transport mode performances of road, rail, and aviation ............. 133","line":5,"x":53.85832977,"y":543.15979003,"width":"301.90","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
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{"page":38,"change":"Removal","str":"according to region ....................................................................... 134","line":9,"x":104.8583603,"y":495.15979003,"width":"270.11","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
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{"page":38,"change":"Removal","str":"Fig. 6.7 Battery and trolley electric bus share of total bus pkm ","line":15,"x":53.85839843,"y":423.15979003,"width":"249.98","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
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{"page":38,"change":"Removal","str":"of total bus pkm in the 2.0 °C Scenario ( right ) ............................ 138","line":17,"x":104.85839843,"y":399.15979003,"width":"269.35","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman","EHWIUF+GmkwrjQwhrjhPbfgkvTimesLTStd-Italic"],"dir":["ltr"]}
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{"page":38,"change":"Removal","str":"the 2.0 °C Scenario ....................................................................... 139","line":21,"x":104.85842895,"y":351.15979003,"width":"270.38","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":38,"change":"Removal","str":"Fig. 6.10 Powertrain split of the world passenger car fleet in the 2.0 °C ","line":22,"x":53.8584404,"y":339.15979003,"width":"285.01","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":38,"change":"Removal","str":"Scenario ( left ) and 1.5 °C Scenario ( right ) ................................... 140","line":23,"x":104.85843658,"y":327.15979003,"width":"270.64","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman","EHWIUF+GmkwrjQwhrjhPbfgkvTimesLTStd-Italic"],"dir":["ltr"]}
{"page":38,"change":"Removal","str":"Fig. 6.11 Final energy demand in urban and inter-urban passenger ","line":24,"x":53.85845947,"y":315.15979003,"width":"266.24","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":38,"change":"Removal","str":"transport modes in 2015 (world averages) .................................... 140","line":25,"x":104.85845184,"y":303.15979003,"width":"271.46","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":38,"change":"Removal","str":"Fig. 6.12 Final energy demand in freight transport modes in 2015 ","line":26,"x":53.85847091,"y":291.15979003,"width":"263.97","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":38,"change":"Removal","str":"(world averages) ........................................................................... 141","line":27,"x":104.8584671,"y":279.15979003,"width":"269.52","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":38,"change":"Removal","str":"Fig. 6.13 World average energy consumption development for ","line":28,"x":53.85847854,"y":267.15979003,"width":"250.45","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":38,"change":"Removal","str":"passenger cars per powertrain in 2015 ( left ) and 2050 ( right ) ..... 142","line":29,"x":104.85848236,"y":255.15977478,"width":"269.14","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman","EHWIUF+GmkwrjQwhrjhPbfgkvTimesLTStd-Italic"],"dir":["ltr"]}
{"page":38,"change":"Removal","str":"Fig. 6.14 Average global energy intensities of truck drivetrain ","line":30,"x":53.85850143,"y":243.15977478,"width":"248.77","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":38,"change":"Removal","str":"technologies in 2015 and 2050 ..................................................... 143","line":31,"x":104.85849761,"y":231.15977478,"width":"270.27","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":38,"change":"Removal","str":"Fig. 6.15 Average global energy intensities of bus drivetrain ","line":32,"x":53.85850906,"y":219.15977478,"width":"241.91","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":38,"change":"Removal","str":"technologies in 2015 ( left ) and 2050 ( right ) ................................. 144","line":33,"x":104.85851287,"y":207.15977478,"width":"270.82","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman","EHWIUF+GmkwrjQwhrjhPbfgkvTimesLTStd-Italic"],"dir":["ltr"]}
{"page":38,"change":"Removal","str":"Fig. 6.16 Average global energy intensities of two-wheel vehicles ","line":34,"x":53.85852813,"y":195.15977478,"width":"264.47","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":38,"change":"Removal","str":"( left ) and three-wheel vehicles ( right ) by drivetrain technology ","line":35,"x":104.85852813,"y":183.15977478,"width":"255.23","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman","EHWIUF+GmkwrjQwhrjhPbfgkvTimesLTStd-Italic"],"dir":["ltr"]}
{"page":38,"change":"Removal","str":"in 2015 ( left bar ) and 2050 ( right bar ) ......................................... 145","line":36,"x":104.85852813,"y":171.15977478,"width":"270.55","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman","EHWIUF+GmkwrjQwhrjhPbfgkvTimesLTStd-Italic"],"dir":["ltr"]}
{"page":38,"change":"Removal","str":"Fig. 6.17 MJ/tkm of freight rail trains ( left ) and MJ/pkm of passenger ","line":37,"x":53.85853958,"y":159.15977478,"width":"279.98","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman","EHWIUF+GmkwrjQwhrjhPbfgkvTimesLTStd-Italic"],"dir":["ltr"]}
{"page":38,"change":"Removal","str":"rail trains ( right ) for 2015 ( left ) and 2050 ( right ) ......................... 146","line":38,"x":104.8585434,"y":147.15977478,"width":"270.81","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman","EHWIUF+GmkwrjQwhrjhPbfgkvTimesLTStd-Italic"],"dir":["ltr"]}
{"page":38,"change":"Removal","str":"Fig. 6.18 Region-specific MJ/tkm and MJ/pkm in 2015 and 2050 for ","line":39,"x":53.85855102,"y":135.15977478,"width":"276.24","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":38,"change":"Removal","str":"freight rail trains ( left ) and passenger rail trains ( right ) ............... 146","line":40,"x":104.85855102,"y":123.1597824,"width":"269.68","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman","EHWIUF+GmkwrjQwhrjhPbfgkvTimesLTStd-Italic"],"dir":["ltr"]}
{"page":38,"change":"Removal","str":"Fig. 6.19 Shares of bio- and synfuels in all world regions ","line":41,"x":53.8585701,"y":111.1597824,"width":"230.01","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":38,"change":"Removal","str":"under all scenarios ........................................................................ 147","line":42,"x":104.85856628,"y":99.1597824,"width":"269.98","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":38,"change":"Removal","str":"Fig. 6.20 Relative growth in world transport demand ","line":43,"x":53.85858154,"y":87.1597824,"width":"212.57","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":38,"change":"Removal","str":"(2015 = 100% pkm/tkm) in the 5.0 °C scenario ........................... 150","line":44,"x":104.85858154,"y":75.1597824,"width":"270.74","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":38,"change":"Removal","str":"List of Figures","dir":"ltr","width":"50.55","height":"8.50","transform":["8.50","0.00","0.00","8.50","53.86","623.65"],"fontName":"TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman","x":53.85829925,"y":623.65332031,"line":45}
{"page":39,"change":"Removal","str":"xliv","dir":"ltr","width":"13.32","height":"8.50","transform":["8.50","0.00","0.00","8.50","53.86","623.65"],"fontName":"TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman","x":53.85829925,"y":623.65332031,"line":0}
{"page":39,"change":"Removal","str":"Fig. 6.21 Relative growth in world transport demand ","line":1,"x":53.85829925,"y":597.15979003,"width":"212.57","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":39,"change":"Removal","str":"(2015 = 100% pkm/tkm) in the 2.0 °C Scenario ( left ) ","line":2,"x":104.85829925,"y":585.15979003,"width":"216.85","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman","EHWIUF+GmkwrjQwhrjhPbfgkvTimesLTStd-Italic"],"dir":["ltr"]}
{"page":39,"change":"Removal","str":"and 1.5 °C Scenario ( right ) ........................................................... 150","line":3,"x":104.85829925,"y":573.15979003,"width":"271.21","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman","EHWIUF+GmkwrjQwhrjhPbfgkvTimesLTStd-Italic"],"dir":["ltr"]}
{"page":39,"change":"Removal","str":"Fig. 6.22 Regional pkm development .......................................................... 151","line":4,"x":53.8583107,"y":561.15979003,"width":"305.84","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":39,"change":"Removal","str":"Fig. 6.23 World pkm development in all scenarios ...................................... 152","line":5,"x":53.85832977,"y":549.15979003,"width":"307.12","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":39,"change":"Removal","str":"Fig. 6.24 World pkm development in the 2.0 °C Scenario .......................... 152","line":6,"x":53.85834121,"y":537.15979003,"width":"305.29","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":39,"change":"Removal","str":"Fig. 6.25 Pkm development in OECD Europe ( left ) Africa (middle), ","line":7,"x":53.8583603,"y":525.15979003,"width":"270.14","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman","EHWIUF+GmkwrjQwhrjhPbfgkvTimesLTStd-Italic"],"dir":["ltr"]}
{"page":39,"change":"Removal","str":"and China ( right ) in the 2.0 °C Scenario ...................................... 153","line":8,"x":104.8583603,"y":513.15979003,"width":"270.10","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman","EHWIUF+GmkwrjQwhrjhPbfgkvTimesLTStd-Italic"],"dir":["ltr"]}
{"page":39,"change":"Removal","str":"Fig. 6.26 World tkm development in all scenarios ....................................... 154","line":9,"x":53.85837173,"y":501.15979003,"width":"307.40","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":39,"change":"Removal","str":"Fig. 6.27 Regional tkm development ........................................................... 154","line":10,"x":53.85837936,"y":489.15979003,"width":"306.12","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":39,"change":"Removal","str":"Fig. 6.28 World tkm development in the 5.0 °C, 2.0 °C, ","line":11,"x":53.8583908,"y":477.15979003,"width":"223.75","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":39,"change":"Removal","str":"and 1.5 °C Scenarios ..................................................................... 156","line":12,"x":104.8583908,"y":465.15979003,"width":"271.49","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":39,"change":"Removal","str":"Fig. 6.29 Road tkm in the 2.0 °C Scenario .................................................. 156","line":13,"x":53.85839843,"y":453.15979003,"width":"305.67","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":39,"change":"Removal","str":"Fig. 6.30 Rail tkm in the 2.0 °C Scenario .................................................... 157","line":14,"x":53.85842132,"y":441.15979003,"width":"306.23","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":39,"change":"Removal","str":"Fig. 6.31 Share of rail tkm in total rail + road tkm ","line":15,"x":53.85842895,"y":429.15979003,"width":"201.19","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":39,"change":"Removal","str":"in the 2.0 °C Scenario ................................................................... 157","line":16,"x":104.85842895,"y":417.15979003,"width":"270.66","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":39,"change":"Removal","str":"Fig. 7.1 Electricity infrastructure in Africa—power plants ","line":17,"x":53.85845184,"y":399.15979003,"width":"232.77","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":39,"change":"Removal","str":"(over 1 MW) and high-voltage transmission lines ....................... 166","line":18,"x":104.85845184,"y":387.15979003,"width":"269.20","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":39,"change":"Removal","str":"Fig. 7.2 Solar potential in Africa ................................................................ 166","line":19,"x":53.85845947,"y":375.15979003,"width":"302.22","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":39,"change":"Removal","str":"Fig. 7.3 Europes potential for utility-scale solar power plants ................. 167","line":20,"x":53.85847091,"y":363.15979003,"width":"300.84","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":39,"change":"Removal","str":"Fig. 7.4 OECD North America: existing and potential ","line":21,"x":53.85849,"y":351.15979003,"width":"216.51","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":39,"change":"Removal","str":"wind power sites ........................................................................... 168","line":22,"x":104.85849,"y":339.15979003,"width":"270.02","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":39,"change":"Removal","str":"Fig. 7.5 Latin America: potential and existing wind power sites ............... 169","line":23,"x":53.85850143,"y":327.15979003,"width":"302.09","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":39,"change":"Removal","str":"Fig. 8.1 Global: projection of final energy (per $ GDP) intensity ","line":24,"x":53.8585205,"y":309.15979003,"width":"258.41","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":39,"change":"Removal","str":"by scenario .................................................................................... 176","line":25,"x":104.8585205,"y":297.15979003,"width":"270.82","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":39,"change":"Removal","str":"Fig. 8.2 Global: projection of total final energy demand by sector ","line":26,"x":53.85852813,"y":285.15979003,"width":"262.85","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":39,"change":"Removal","str":"in the scenarios (without non- energy use or heat from ","line":27,"x":104.85852813,"y":273.15979003,"width":"219.22","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":39,"change":"Removal","str":"combined heat and power [CHP] autoproducers) ......................... 177","line":28,"x":104.85852813,"y":261.15979003,"width":"271.37","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":39,"change":"Removal","str":"Fig. 8.3 Global: development of gross electricity demand by sector ","line":29,"x":53.85855102,"y":249.15977478,"width":"269.57","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":39,"change":"Removal","str":"in the scenarios ............................................................................. 178","line":30,"x":104.8585434,"y":237.15977478,"width":"269.71","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":39,"change":"Removal","str":"Fig. 8.4 Global: development of final energy demand for transport ","line":31,"x":53.85855865,"y":225.15977478,"width":"266.61","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":39,"change":"Removal","str":"by mode in the scenarios .............................................................. 179","line":32,"x":104.85855865,"y":213.15977478,"width":"269.43","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":39,"change":"Removal","str":"Fig. 8.5 Global: development of heat demand by sector ","line":33,"x":53.8585701,"y":201.15977478,"width":"222.63","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":39,"change":"Removal","str":"in the scenarios ............................................................................. 179","line":34,"x":104.85856628,"y":189.15977478,"width":"269.71","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":39,"change":"Removal","str":"Fig. 8.6 Global: development of the final energy demand by sector ","line":35,"x":53.85858917,"y":177.15977478,"width":"268.00","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":39,"change":"Removal","str":"in the scenarios ............................................................................. 180","line":36,"x":104.85858917,"y":165.15977478,"width":"269.71","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":39,"change":"Removal","str":"Fig. 8.7 Global: development of electricity-generation structure ","line":37,"x":53.85860061,"y":153.15977478,"width":"255.95","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":39,"change":"Removal","str":"in the scenarios ............................................................................. 181","line":38,"x":104.8585968,"y":141.15977478,"width":"269.71","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":39,"change":"Removal","str":"Fig. 8.8 Global: development of total electricity supply costs ","line":39,"x":53.85861968,"y":129.15977478,"width":"244.87","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":39,"change":"Removal","str":"and specific electricity generation costs in the scenarios ............. 182","line":40,"x":104.85861968,"y":117.1597824,"width":"269.40","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":39,"change":"Removal","str":"Fig. 8.9 Global: investment shares for power generation ","line":41,"x":53.85863113,"y":105.1597824,"width":"225.28","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":39,"change":"Removal","str":"in the scenarios ............................................................................. 183","line":42,"x":104.85862731,"y":93.1597824,"width":"269.71","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":39,"change":"Removal","str":"Fig. 8.10 Global: development of heat supply by energy carrier ","line":43,"x":53.85863876,"y":81.1597824,"width":"254.38","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":39,"change":"Removal","str":"in the scenarios ............................................................................. 184","line":44,"x":104.85864257,"y":69.1597824,"width":"269.71","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":39,"change":"Removal","str":"List of Figures","dir":"ltr","width":"50.55","height":"8.50","transform":["8.50","0.00","0.00","8.50","334.96","623.65"],"fontName":"TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman","x":334.96279907,"y":623.65319824,"line":45}
{"page":40,"change":"Removal","str":"xlv","dir":"ltr","width":"10.80","height":"8.50","transform":["8.50","0.00","0.00","8.50","374.59","623.65"],"fontName":"TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman","x":374.59188842,"y":623.65332031,"line":0}
{"page":40,"change":"Removal","str":"Fig. 8.11 Global: development of investment in renewable ","line":1,"x":53.85829925,"y":597.15979003,"width":"234.79","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":40,"change":"Removal","str":"heat-generation technologies in the scenarios .............................. 186","line":2,"x":104.85829925,"y":585.15979003,"width":"269.96","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":40,"change":"Removal","str":"Fig. 8.12 Global: final energy consumption by transport ","line":3,"x":53.8583107,"y":573.15979003,"width":"225.37","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":40,"change":"Removal","str":"in the scenarios ............................................................................. 187","line":4,"x":104.85830688,"y":561.15979003,"width":"269.71","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":40,"change":"Removal","str":"Fig. 8.13 Global: development of CO 2 emissions by sector ","line":5,"x":53.85832977,"y":547.65979003,"width":"235.65","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":40,"change":"Removal","str":"and cumulative CO 2 emissions (since 2015) in the ","line":6,"x":104.8572998,"y":535.65979003,"width":"204.53","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":40,"change":"Removal","str":"scenarios (Savings = lower than in the 5.0 °C Scenario) ........... 188","line":7,"x":104.85749816,"y":525.15979003,"width":"270.54","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":40,"change":"Removal","str":"Fig. 8.14 Global: projection of total primary energy demand ","line":8,"x":53.85750961,"y":513.15979003,"width":"242.85","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":40,"change":"Removal","str":"(PED) by energy carrier in the scenarios ...................................... 189","line":9,"x":104.85751342,"y":501.15979003,"width":"270.88","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
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{"page":40,"change":"Removal","str":"in 2020, 2030, and 2050 in the 2.0 °C and 1.5 °C scenarios ........ 202","line":13,"x":104.85681915,"y":453.15979003,"width":"270.21","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":40,"change":"Removal","str":"Fig. 8.17 OECD North America: development of final energy ","line":14,"x":53.85683822,"y":441.15979003,"width":"247.45","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
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{"page":40,"change":"Removal","str":"Fig. 8.26 Latin America: development of final energy demand ","line":36,"x":53.85712814,"y":177.1598053,"width":"249.67","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
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{"page":40,"change":"Removal","str":"Fig. 8.27 Latin America: development of electricity-generation ","line":38,"x":53.85713958,"y":153.1598053,"width":"253.73","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":40,"change":"Removal","str":"structure in the scenarios .............................................................. 232","line":39,"x":104.85713958,"y":141.1598053,"width":"269.70","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
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{"page":41,"change":"Removal","str":"carrier in the scenarios .................................................................. 236","line":2,"x":104.85829925,"y":585.15979003,"width":"270.80","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":41,"change":"Removal","str":"Fig. 8.31 Latin America: development of investments for renewable ","line":3,"x":53.8583107,"y":573.15979003,"width":"272.83","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
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{"page":41,"change":"Removal","str":"Fig. 8.32 Latin America: final energy consumption by transport ","line":5,"x":53.85832977,"y":549.15979003,"width":"255.64","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
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{"page":41,"change":"Removal","str":"Fig. 8.33 Latin America: development of CO 2 emissions by sector ","line":7,"x":53.85834121,"y":523.65979003,"width":"265.92","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
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{"page":41,"change":"Removal","str":"(Savings = reduction compared with the 5.0 °C Scenario) ........ 240","line":9,"x":104.85749816,"y":501.15979003,"width":"270.79","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":41,"change":"Removal","str":"Fig. 8.34 Latin America: projection of total primary energy demand ","line":10,"x":53.85750961,"y":489.15979003,"width":"273.12","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":41,"change":"Removal","str":"(PED) by energy carrier in the scenarios (including ","dir":"ltr","width":"209.49","height":"10.00","transform":["10.00","0.00","0.00","10.00","104.86","477.16"],"fontName":"TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman","x":104.85751342,"y":477.15979003,"line":11}
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{"page":41,"change":"Removal","str":"Fig. 8.35 OECD Europe: development in the scenarios .............................. 251","line":13,"x":53.85752868,"y":453.15979003,"width":"305.69","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":41,"change":"Removal","str":"Fig. 8.36 OECD Europe: development of electricity-generation ","line":14,"x":53.85754013,"y":441.15979003,"width":"254.84","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":41,"change":"Removal","str":"structure in the scenarios .............................................................. 253","line":15,"x":104.85753631,"y":429.15979003,"width":"269.70","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":41,"change":"Removal","str":"Fig. 8.37 OECD Europe: development of total electricity supply ","line":16,"x":53.85755157,"y":417.15979003,"width":"258.75","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
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{"page":41,"change":"Removal","str":"in the scenarios ............................................................................. 253","line":18,"x":104.85755157,"y":393.15979003,"width":"269.71","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":41,"change":"Removal","str":"Fig. 8.38 OECD Europe: investment shares for power generation ","line":19,"x":53.85757064,"y":381.15979003,"width":"261.66","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
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{"page":41,"change":"Removal","str":"Fig. 8.39 OECD Europe: development of heat supply by energy ","line":21,"x":53.85757827,"y":357.15979003,"width":"257.17","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":41,"change":"Removal","str":"carrier in the scenarios .................................................................. 256","line":22,"x":104.8575821,"y":345.15979003,"width":"270.80","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
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{"page":41,"change":"Removal","str":"Fig. 8.42 OECD Europe: development of CO 2 emissions by sector ","line":27,"x":53.85763168,"y":283.65979003,"width":"267.03","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
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{"page":41,"change":"Removal","str":"(Savings = reduction compared with the 5.0 °C Scenario) ........ 260","line":29,"x":104.85749816,"y":261.15979003,"width":"270.79","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":41,"change":"Removal","str":"Fig. 8.43 OECD Europe: projection of total primary energy demand ","line":30,"x":53.85750961,"y":249.15979003,"width":"274.23","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
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{"page":41,"change":"Removal","str":"Fig. 8.44 Africa: development of final energy demand by sector ","line":33,"x":53.85752868,"y":213.15979003,"width":"256.60","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
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{"page":41,"change":"Removal","str":"Fig. 8.47 Africa: investment shares for power generation ","line":39,"x":53.85757064,"y":141.15979003,"width":"228.60","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
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{"page":41,"change":"Removal","str":"Fig. 8.48 Africa: development of heat supply by energy carrier ","line":41,"x":53.85757827,"y":117.15979003,"width":"252.70","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
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{"page":42,"change":"Removal","str":"Fig. 8.53 Middle East: development of the final energy demand ","line":9,"x":53.85752868,"y":501.15979003,"width":"255.51","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
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{"page":42,"change":"Removal","str":"Fig. 8.56 Middle East: investment shares for power generation ","line":16,"x":53.85757064,"y":417.15979003,"width":"251.67","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
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{"page":42,"change":"Removal","str":"Fig. 8.57 Middle East: development of heat supply by energy ","line":18,"x":53.85757827,"y":393.15979003,"width":"247.18","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":42,"change":"Removal","str":"carrier in the scenarios .................................................................. 292","line":19,"x":104.8575821,"y":381.15979003,"width":"270.80","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":42,"change":"Removal","str":"Fig. 8.58 Middle East: development of investments for renewable ","line":20,"x":53.85760116,"y":369.15979003,"width":"263.95","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
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{"page":42,"change":"Removal","str":"Fig. 8.59 Middle East: final energy consumption by transport ","line":22,"x":53.8576088,"y":345.15979003,"width":"246.76","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":42,"change":"Removal","str":"in the scenarios ............................................................................. 296","line":23,"x":104.8576126,"y":333.15979003,"width":"269.71","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":42,"change":"Removal","str":"Fig. 8.60 Middle East: development of CO 2 emissions by sector ","line":24,"x":53.85763168,"y":319.65979003,"width":"257.04","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
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{"page":42,"change":"Removal","str":"(Savings = reduction compared with the 5.0 °C Scenario) ........ 297","line":26,"x":104.85749816,"y":297.15979003,"width":"270.79","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":42,"change":"Removal","str":"Fig. 8.61 Middle East: projection of total primary energy demand ","line":27,"x":53.85750961,"y":285.15979003,"width":"264.24","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":42,"change":"Removal","str":"(PED) by energy carrier in the scenarios (including ","dir":"ltr","width":"209.49","height":"10.00","transform":["10.00","0.00","0.00","10.00","104.86","273.16"],"fontName":"TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman","x":104.85751342,"y":273.15979003,"line":28}
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{"page":42,"change":"Removal","str":"Fig. 8.62 Eastern Europe/Eurasia: development of the final ","line":30,"x":53.85752868,"y":249.15979003,"width":"237.35","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
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{"page":42,"change":"Removal","str":"Fig. 8.63 Eastern Europe/Eurasia: development of ","line":32,"x":53.85754013,"y":225.15979003,"width":"202.35","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":42,"change":"Removal","str":"electricity-generation structure in the scenarios ........................... 309","line":33,"x":104.85753631,"y":213.15979003,"width":"270.23","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":42,"change":"Removal","str":"Fig. 8.64 Eastern Europe/Eurasia: development of total electricity ","line":34,"x":53.85755157,"y":201.15979003,"width":"265.12","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
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{"page":42,"change":"Removal","str":"in the scenarios ............................................................................. 309","line":36,"x":104.85755157,"y":177.15979003,"width":"269.71","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":42,"change":"Removal","str":"Fig. 8.65 Eastern Europe/Eurasia: investment shares for power ","line":37,"x":53.85757064,"y":165.15979003,"width":"252.49","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":42,"change":"Removal","str":"generation in the scenarios ........................................................... 311","line":38,"x":104.85756683,"y":153.15979003,"width":"269.42","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":42,"change":"Removal","str":"Fig. 8.66 Eastern Europe/Eurasia: development of heat supply ","line":39,"x":53.85757827,"y":141.15979003,"width":"250.68","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":42,"change":"Removal","str":"by energy carrier in the scenarios ................................................. 312","line":40,"x":104.8575821,"y":129.15979003,"width":"270.33","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":42,"change":"Removal","str":"Fig. 8.67 Eastern Europe/Eurasia: development of investments ","line":41,"x":53.85760116,"y":117.15979003,"width":"252.08","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":42,"change":"Removal","str":"for renewable heat-generation technologies in the scenarios ....... 314","line":42,"x":104.85759735,"y":105.1597824,"width":"269.86","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":42,"change":"Removal","str":"Fig. 8.68 Eastern Europe/Eurasia: final energy consumption by ","line":43,"x":53.8576088,"y":93.1597824,"width":"254.24","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":42,"change":"Removal","str":"transport in the scenarios .............................................................. 315","line":44,"x":104.8576126,"y":81.1597824,"width":"270.26","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":42,"change":"Removal","str":"List of Figures","dir":"ltr","width":"50.55","height":"8.50","transform":["8.50","0.00","0.00","8.50","53.86","623.65"],"fontName":"TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman","x":53.85829925,"y":623.65332031,"line":45}
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{"page":43,"change":"Removal","str":"Fig. 8.69 Eastern Europe/Eurasia: development of CO 2 emissions ","line":1,"x":53.85829925,"y":595.65979003,"width":"263.69","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
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{"page":43,"change":"Removal","str":"in the scenarios (Savings = reduction compared ","dir":"ltr","width":"201.51","height":"10.00","transform":["10.00","0.00","0.00","10.00","104.86","573.16"],"fontName":"TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman","x":104.85710144,"y":573.15979003,"line":3}
{"page":43,"change":"Removal","str":"with the 5.0 °C Scenario) .............................................................. 316","line":4,"x":104.85710144,"y":561.15979003,"width":"271.49","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":43,"change":"Removal","str":"Fig. 8.70 Eastern Europe/Eurasia: projection of total primary ","line":5,"x":53.85710906,"y":549.15979003,"width":"246.08","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":43,"change":"Removal","str":"energy demand (PED) by energy carrier in the scenarios ","dir":"ltr","width":"229.57","height":"10.00","transform":["10.00","0.00","0.00","10.00","104.86","537.16"],"fontName":"TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman","x":104.85710906,"y":537.15979003,"line":6}
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{"page":43,"change":"Removal","str":"Fig. 8.71 Non-OECD Asia: development of the final energy ","line":8,"x":53.85712814,"y":513.15979003,"width":"240.79","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":43,"change":"Removal","str":"demand by sector in the scenarios ................................................ 325","line":9,"x":104.85713195,"y":501.15979003,"width":"270.25","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":43,"change":"Removal","str":"Fig. 8.72 Non-OECD Asia: development of electricity-generation ","line":10,"x":53.85713958,"y":489.15979003,"width":"264.29","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":43,"change":"Removal","str":"structure in the scenarios .............................................................. 327","line":11,"x":104.85713958,"y":477.15979003,"width":"269.70","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":43,"change":"Removal","str":"Fig. 8.73 Non-OECD Asia: development of total electricity supply ","line":12,"x":53.85715866,"y":465.15979003,"width":"268.20","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":43,"change":"Removal","str":"costs and specific electricity generation costs ","dir":"ltr","width":"184.69","height":"10.00","transform":["10.00","0.00","0.00","10.00","104.86","453.16"],"fontName":"TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman","x":104.85716247,"y":453.15979003,"line":13}
{"page":43,"change":"Removal","str":"in the scenarios ............................................................................. 328","line":14,"x":104.85716247,"y":441.15979003,"width":"269.71","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":43,"change":"Removal","str":"Fig. 8.74 Non-OECD Asia: investment shares for power ","line":15,"x":53.8571701,"y":429.15979003,"width":"226.40","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":43,"change":"Removal","str":"generation in the scenarios ........................................................... 329","line":16,"x":104.8571701,"y":417.15979003,"width":"269.42","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":43,"change":"Removal","str":"Fig. 8.75 Non-OECD Asia: development of heat supply ","line":17,"x":53.85718917,"y":405.15979003,"width":"224.59","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":43,"change":"Removal","str":"by energy carrier in the scenarios ................................................. 330","line":18,"x":104.85717773,"y":393.15979003,"width":"270.33","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":43,"change":"Removal","str":"Fig. 8.76 Non-OECD Asia: development of investments ","line":19,"x":53.85720062,"y":381.15979003,"width":"225.99","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
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{"page":43,"change":"Removal","str":"Fig. 8.77 Non-OECD Asia: final energy consumption ","line":21,"x":53.85720825,"y":357.15979003,"width":"215.65","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":43,"change":"Removal","str":"by transport in the scenarios ......................................................... 333","line":22,"x":104.85720825,"y":345.15979003,"width":"270.26","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":43,"change":"Removal","str":"Fig. 8.78 Non-OECD Asia: development of CO 2 emissions ","line":23,"x":53.85723114,"y":331.65979003,"width":"237.60","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":43,"change":"Removal","str":"by sector and cumulative CO 2 emissions (after 2015) ","line":24,"x":104.8565979,"y":319.65979003,"width":"216.18","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":43,"change":"Removal","str":"in the scenarios (Savings = reduction compared ","dir":"ltr","width":"201.51","height":"10.00","transform":["10.00","0.00","0.00","10.00","104.86","309.16"],"fontName":"TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman","x":104.85710144,"y":309.15979003,"line":25}
{"page":43,"change":"Removal","str":"with the 5.0 °C Scenario) .............................................................. 334","line":26,"x":104.85710144,"y":297.15979003,"width":"271.49","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":43,"change":"Removal","str":"Fig. 8.79 Non-OECD Asia: projection of total primary energy ","line":27,"x":53.85710906,"y":285.15979003,"width":"249.52","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":43,"change":"Removal","str":"demand (PED) by energy carrier in the scenarios ","dir":"ltr","width":"200.04","height":"10.00","transform":["10.00","0.00","0.00","10.00","104.86","273.16"],"fontName":"TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman","x":104.85710906,"y":273.15979003,"line":28}
{"page":43,"change":"Removal","str":"(including electricity import balance) .......................................... 335","line":29,"x":104.85710906,"y":261.15979003,"width":"269.14","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":43,"change":"Removal","str":"Fig. 8.80 India: development of final energy demand by sector ","line":30,"x":53.85712814,"y":249.15979003,"width":"251.61","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":43,"change":"Removal","str":"in the scenarios ............................................................................. 345","line":31,"x":104.85713195,"y":237.15979003,"width":"269.71","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":43,"change":"Removal","str":"Fig. 8.81 India: development of electricity-generation structure ","line":32,"x":53.85713958,"y":225.15979003,"width":"254.28","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":43,"change":"Removal","str":"in the scenarios ............................................................................. 347","line":33,"x":104.85713958,"y":213.15979003,"width":"269.71","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":43,"change":"Removal","str":"Fig. 8.82 India: development of total electricity supply costs ","line":34,"x":53.85715866,"y":201.15979003,"width":"243.20","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":43,"change":"Removal","str":"and specific electricity generation costs in the scenarios ............. 348","line":35,"x":104.85716247,"y":189.15979003,"width":"269.40","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":43,"change":"Removal","str":"Fig. 8.83 India: investment shares for power generation ","line":36,"x":53.8571701,"y":177.15979003,"width":"223.61","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
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{"page":43,"change":"Removal","str":"Fig. 8.84 India: development of heat supply by energy carrier ","line":38,"x":53.85718917,"y":153.15979003,"width":"247.71","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
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{"page":43,"change":"Removal","str":"Fig. 8.85 India: development of investments for renewable ","line":40,"x":53.85720062,"y":129.15979003,"width":"235.89","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
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{"page":43,"change":"Removal","str":"Fig. 8.86 India: final energy consumption by transport ","line":42,"x":53.85720825,"y":105.1597824,"width":"218.70","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
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{"page":43,"change":"Removal","str":"Fig. 8.87 India: development of CO 2 emissions by sector ","line":44,"x":53.85723114,"y":79.65979766,"width":"228.98","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
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{"page":43,"change":"Removal","str":"(Savings = reduction compared with the 5.0 °C Scenario) ........ 354","line":46,"x":104.85749816,"y":57.15980148,"width":"270.79","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
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{"page":44,"change":"Removal","str":"Fig. 8.88 India: projection of total primary energy demand (PED) ","line":1,"x":53.85829925,"y":597.15979003,"width":"264.23","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":44,"change":"Removal","str":"by energy carrier in the scenarios (including electricity ","dir":"ltr","width":"223.93","height":"10.00","transform":["10.00","0.00","0.00","10.00","104.86","585.16"],"fontName":"TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman","x":104.85829925,"y":585.15979003,"line":2}
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{"page":44,"change":"Removal","str":"Fig. 8.89 China: development of final energy demand by sector ","line":4,"x":53.8583107,"y":561.15979003,"width":"254.95","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
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{"page":44,"change":"Removal","str":"Fig. 8.90 China: development of electricity-generation structure ","line":6,"x":53.85832977,"y":537.15979003,"width":"257.62","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":44,"change":"Removal","str":"in the scenarios ............................................................................. 363","line":7,"x":104.85832977,"y":525.15979003,"width":"269.71","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":44,"change":"Removal","str":"Fig. 8.91 China: development of total electricity supply costs ","line":8,"x":53.85834121,"y":513.15979003,"width":"246.54","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":44,"change":"Removal","str":"and specific electricity-generation costs in the scenarios ............. 364","line":9,"x":104.8583374,"y":501.15979003,"width":"270.23","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":44,"change":"Removal","str":"Fig. 8.92 China: investment shares for power generation ","line":10,"x":53.8583603,"y":489.15979003,"width":"226.95","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":44,"change":"Removal","str":"in the scenarios ............................................................................. 366","line":11,"x":104.8583603,"y":477.15979003,"width":"269.71","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":44,"change":"Removal","str":"Fig. 8.93 China: development of heat supply by energy carrier ","line":12,"x":53.85837173,"y":465.15979003,"width":"251.05","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":44,"change":"Removal","str":"in the scenarios ............................................................................. 366","line":13,"x":104.85836791,"y":453.15979003,"width":"269.71","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":44,"change":"Removal","str":"Fig. 8.94 China: development of investments for renewable ","line":14,"x":53.85837936,"y":441.15979003,"width":"239.23","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
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{"page":44,"change":"Removal","str":"Fig. 8.95 China: final energy consumption by transport ","line":16,"x":53.85839843,"y":417.15979003,"width":"222.04","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":44,"change":"Removal","str":"in the scenarios ............................................................................. 370","line":17,"x":104.85839843,"y":405.15979003,"width":"269.71","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":44,"change":"Removal","str":"Fig. 8.96 China: development of CO 2 emissions by sector ","line":18,"x":53.85840988,"y":391.65979003,"width":"232.32","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":44,"change":"Removal","str":"and cumulative CO 2 emissions (after 2015) ","line":19,"x":104.85739898,"y":379.65979003,"width":"177.30","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":44,"change":"Removal","str":"in the scenarios (Savings = reduction compared ","dir":"ltr","width":"201.51","height":"10.00","transform":["10.00","0.00","0.00","10.00","104.86","369.16"],"fontName":"TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman","x":104.85749816,"y":369.15979003,"line":20}
{"page":44,"change":"Removal","str":"with the 5.0 °C Scenario) .............................................................. 371","line":21,"x":104.85749816,"y":357.15979003,"width":"271.49","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":44,"change":"Removal","str":"Fig. 8.97 China: projection of total primary energy demand ","line":22,"x":53.85750961,"y":345.15979003,"width":"239.52","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":44,"change":"Removal","str":"(PED) by energy carrier in the scenarios (including ","dir":"ltr","width":"209.49","height":"10.00","transform":["10.00","0.00","0.00","10.00","104.86","333.16"],"fontName":"TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman","x":104.85751342,"y":333.15979003,"line":23}
{"page":44,"change":"Removal","str":"electricity import balance) ............................................................ 371","line":24,"x":104.85751342,"y":321.15979003,"width":"270.53","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":44,"change":"Removal","str":"Fig. 8.98 OECD Pacific: development of final energy demand ","line":25,"x":53.85752868,"y":309.15979003,"width":"248.97","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":44,"change":"Removal","str":"by sector in the scenarios .............................................................. 381","line":26,"x":104.85752105,"y":297.15979003,"width":"271.09","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":44,"change":"Removal","str":"Fig. 8.99 OECD Pacific: development of electricity-generation ","line":27,"x":53.85754013,"y":285.15979003,"width":"253.03","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":44,"change":"Removal","str":"structure in the scenarios .............................................................. 383","line":28,"x":104.85753631,"y":273.15979003,"width":"269.70","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":44,"change":"Removal","str":"Fig. 8.100 OECD Pacific: development of total electricity ","line":29,"x":53.85755157,"y":261.15979003,"width":"232.77","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":44,"change":"Removal","str":"supply costs and specific electricity- generation costs ","line":30,"x":104.85755157,"y":249.15979003,"width":"214.69","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":44,"change":"Removal","str":"in the scenarios ............................................................................. 384","line":31,"x":104.85755157,"y":237.15979003,"width":"269.71","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":44,"change":"Removal","str":"Fig. 8.101 OECD Pacific: investment shares for power generation ","line":32,"x":53.85757064,"y":225.15979003,"width":"264.85","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":44,"change":"Removal","str":"in the scenarios ............................................................................. 385","line":33,"x":104.85756683,"y":213.15979003,"width":"269.71","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":44,"change":"Removal","str":"Fig. 8.102 OECD Pacific: development of heat supply by energy ","line":34,"x":53.85757827,"y":201.15979003,"width":"260.36","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":44,"change":"Removal","str":"carrier in the scenarios .................................................................. 386","line":35,"x":104.8575821,"y":189.15979003,"width":"270.80","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":44,"change":"Removal","str":"Fig. 8.103 OECD Pacific: development of investments for renewable ","line":36,"x":53.85760116,"y":177.15977478,"width":"277.13","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":44,"change":"Removal","str":"heat-generation technologies in the scenarios .............................. 388","line":37,"x":104.85759735,"y":165.15977478,"width":"269.96","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":44,"change":"Removal","str":"Fig. 8.104 OECD Pacific: final energy consumption by transport ","line":38,"x":53.8576088,"y":153.15977478,"width":"259.94","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":44,"change":"Removal","str":"in the scenarios ............................................................................. 389","line":39,"x":104.8576126,"y":141.15977478,"width":"269.71","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":44,"change":"Removal","str":"Fig. 8.105 OECD Pacific: development of CO 2 emissions by sector ","line":40,"x":53.85763168,"y":127.65979766,"width":"270.22","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":44,"change":"Removal","str":"and cumulative CO 2 emissions (after 2015) ","line":41,"x":104.85669708,"y":115.65979766,"width":"177.30","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":44,"change":"Removal","str":"in the scenarios (Savings = reduction compared ","dir":"ltr","width":"201.51","height":"10.00","transform":["10.00","0.00","0.00","10.00","104.86","105.16"],"fontName":"TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman","x":104.85749816,"y":105.15979766,"line":42}
{"page":44,"change":"Removal","str":"with the 5.0 °C Scenario) .............................................................. 390","line":43,"x":104.85749816,"y":93.15979766,"width":"271.49","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":44,"change":"Removal","str":"Fig. 8.106 OECD Pacific: projection of total primary energy demand ","line":44,"x":53.85750961,"y":81.15979766,"width":"277.42","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":44,"change":"Removal","str":"(PED) by energy carrier in the scenarios (including ","dir":"ltr","width":"209.49","height":"10.00","transform":["10.00","0.00","0.00","10.00","104.86","69.16"],"fontName":"TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman","x":104.85751342,"y":69.15979766,"line":45}
{"page":44,"change":"Removal","str":"electricity import balance) ............................................................ 391","line":46,"x":104.85751342,"y":57.15980148,"width":"270.53","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":44,"change":"Removal","str":"List of Figures","dir":"ltr","width":"50.55","height":"8.50","transform":["8.50","0.00","0.00","8.50","53.86","623.65"],"fontName":"TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman","x":53.85829925,"y":623.65332031,"line":47}
{"page":45,"change":"Removal","str":"l","dir":"ltr","width":"2.36","height":"8.50","transform":["8.50","0.00","0.00","8.50","53.86","623.65"],"fontName":"TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman","x":53.85829925,"y":623.65332031,"line":0}
{"page":45,"change":"Removal","str":"Fig. 9.1 Global coal production in 19812017 ","line":1,"x":53.85829925,"y":597.15979003,"width":"185.83","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":45,"change":"Removal","str":"(BP 2018—Statistical Review) ..................................................... 405","line":2,"x":104.85829925,"y":585.15979003,"width":"270.89","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":45,"change":"Removal","str":"Fig. 9.2 Global coal production until 2050 under ","line":3,"x":53.8583107,"y":573.15979003,"width":"196.66","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":45,"change":"Removal","str":"the three scenarios ........................................................................ 405","line":4,"x":104.85830688,"y":561.15979003,"width":"269.42","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":45,"change":"Removal","str":"Fig. 9.3 Global oil production in 19652017 ","line":5,"x":53.85832977,"y":549.15979003,"width":"179.73","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":45,"change":"Removal","str":"(BP 2018—Statistical Review) ..................................................... 406","line":6,"x":104.85832977,"y":537.15979003,"width":"270.89","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":45,"change":"Removal","str":"Fig. 9.4 Global oil production until 2050 under ","line":7,"x":53.85834121,"y":525.15979003,"width":"190.56","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":45,"change":"Removal","str":"the three scenarios ........................................................................ 407","line":8,"x":104.8583374,"y":513.15979003,"width":"269.42","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":45,"change":"Removal","str":"Fig. 9.5 Global gas production in 19702017 ","line":9,"x":53.8583603,"y":501.15979003,"width":"182.45","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":45,"change":"Removal","str":"(BP 2018—Statistical Review) ..................................................... 408","line":10,"x":104.8583603,"y":489.15979003,"width":"270.89","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":45,"change":"Removal","str":"Fig. 9.6 Global gas production until 2050 under ","line":11,"x":53.85837173,"y":477.15979003,"width":"193.28","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":45,"change":"Removal","str":"the three scenarios ........................................................................ 408","line":12,"x":104.85836791,"y":465.15979003,"width":"269.42","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":45,"change":"Removal","str":"Fig. 10.1 World employment in the energy sector under ","line":13,"x":53.85837936,"y":447.15979003,"width":"224.17","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":45,"change":"Removal","str":"the 5.0 °C and 2.0 °C Scenarios ( left ) and the 5.0 °C ","line":14,"x":104.85838317,"y":435.15979003,"width":"213.65","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman","EHWIUF+GmkwrjQwhrjhPbfgkvTimesLTStd-Italic"],"dir":["ltr"]}
{"page":45,"change":"Removal","str":"and 1.5 °C Scenarios ( right ) ......................................................... 418","line":15,"x":104.85838317,"y":423.15979003,"width":"270.10","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman","EHWIUF+GmkwrjQwhrjhPbfgkvTimesLTStd-Italic"],"dir":["ltr"]}
{"page":45,"change":"Removal","str":"Fig. 10.2 Distribution of human resources required to manufacture ","line":16,"x":53.85839843,"y":411.15979003,"width":"268.27","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":45,"change":"Removal","str":"the main components of a 50 MW solar photovoltaic ","dir":"ltr","width":"215.74","height":"10.00","transform":["10.00","0.00","0.00","10.00","104.86","399.16"],"fontName":"TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman","x":104.85839843,"y":399.15979003,"line":17}
{"page":45,"change":"Removal","str":"power plant. (IRENA 2017a) ........................................................ 420","line":18,"x":104.85839843,"y":387.15979003,"width":"271.04","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":45,"change":"Removal","str":"Fig. 10.3 Division of occupations between fossil fuels and renewable ","line":19,"x":53.85840988,"y":375.15979003,"width":"278.25","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":45,"change":"Removal","str":"energy in 2015 and 2025 under the 1.5 °C Scenario .................... 427","line":20,"x":104.8584137,"y":363.15979003,"width":"269.90","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":45,"change":"Removal","str":"Fig. 10.4 Division of occupations between fossil fuels and ","line":21,"x":53.85842895,"y":351.15979003,"width":"235.01","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
{"page":45,"change":"Removal","str":"renewable energy in 2015 and 2025 under ","dir":"ltr","width":"172.76","height":"10.00","transform":["10.00","0.00","0.00","10.00","104.86","339.16"],"fontName":"TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman","x":104.85842895,"y":339.15979003,"line":22}
{"page":45,"change":"Removal","str":"the 2.0 °C Scenario ....................................................................... 428","line":23,"x":104.85842895,"y":327.15979003,"width":"270.38","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
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{"page":45,"change":"Removal","str":"by occupational breakdown under the 2.0 °C Scenario ................ 433","line":25,"x":104.85843658,"y":303.15979003,"width":"270.93","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
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{"page":45,"change":"Removal","str":"Fig. 11.6 Annual primary demand for cobalt from EVs and storage ........... 447","line":39,"x":53.85853958,"y":129.15977478,"width":"307.18","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
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{"page":45,"change":"Removal","str":"Fig. 11.8 Annual primary demand for lithium from EVs ","line":42,"x":53.8585701,"y":93.1597824,"width":"225.82","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
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{"page":46,"change":"Removal","str":"Fig. 11.10 Annual primary demand for silver from solar PV (c-Si) .............. 449","line":1,"x":53.85829925,"y":597.15979003,"width":"311.76","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
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{"page":46,"change":"Removal","str":"to inform the Sixth Assessment Report by the IPCC, ","dir":"ltr","width":"214.18","height":"10.00","transform":["10.00","0.00","0.00","10.00","104.86","507.16"],"fontName":"TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman","x":104.85720062,"y":507.15979003,"line":8}
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{"page":46,"change":"Removal","str":"Fig. 12.3 Global cumulative CO2 emissions  2.0 °C and ","line":16,"x":53.85802078,"y":411.15979003,"width":"230.55","height":"10.00","fontName":["TGOZWB+JkylrpTwghlkTlcrnvTimesLTStd-Roman"],"dir":["ltr"]}
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