Developing sustainable carbon circularity Looking at advanced applications and business models

Kearney
arc beats above · slides in the middle · loops below · scroll → 2 LOOPS
SETUP TENSION ANALYSIS EVIDENCE RESOLUTION APPENDIX
HOVER FOR DETAILS · CLICK A SLIDE FOR FULLSCREEN · STEP 10
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coverage by narrative range · generated from this deck JSON

Slide inventory

136
every slide · same image gating as the playbook
01
Slide 1
front_matter
Open slide detailBeat · Situation & Context
02
front_matter
Open slide detailBeat · Situation & Context
03
The slide provides foundational definitions and historical context for bioenergy as part of a larger energy transition report.establish_context
Open slide detailBeat · Situation & Context
04
Part of a 2-slide series on bioenergy; references pages 13-31 for further detail.summarize
Open slide detailBeat · Situation & Context
05
The slide acts as a summary for a section on biomass to bioenergy conversion pathways.summarize
Open slide detailBeat · Situation & Context
06
The slide provides a high-level overview of bioenergy feedstock types and their respective sustainability challenges and potentials.summarize
07
The slide provides a high-level summary of biomass-to-bioenergy transformation processes, referencing a deeper section of the report.summarize
08
The slide outlines market dynamics and value chain drivers, referencing a deeper analysis in Section 2.summarize
09
summarize
10
The slide acts as a summary of section 2.2 of the report.summarize
11
summarize
12
front_matter
13
transition
14
The slide uses a split-screen layout to contrast two categories of bioenergy.present_framework
Open slide detailLoop · Pattern Hunter
15
The slide explicitly states the focus of the factbook is on generations 2 and 3.present_framework
Open slide detailLoop · Pattern Hunter
16
The slide uses a circular flow diagram to explain the theoretical carbon neutrality of bioenergy.present_framework
Open slide detailLoop · Pattern Hunter
17
The chart uses a stacked bar approach to visualize sector emissions and the potential for bioenergy substitution.size_opportunity
Open slide detailLoop · Pattern Hunter
18
The chart includes CAGR annotations and specific growth observations for wind, solar, and biofuels.analyze_data
Open slide detailLoop · Pattern Hunter
19
The chart uses a stacked bar format with a trend line indicating CAGR.analyze_data
Open slide detailLoop · Pattern Hunter
20
The chart uses a 'stated policies scenario' from IEA WEO 2019. It includes a trend line for total demand growth and CAGR markers for individual fuel types.analyze_data
Open slide detailLoop · Pattern Hunter
21
The chart uses a waterfall structure to show the growth components (advanced vs traditional) between 2018 and 2040.analyze_data
22
The slide uses a network/node background graphic to visually represent complexity.frame_problem
Open slide detailBeat · Problem & Complication
23
Uses a qualitative heatmap approach with circle icons representing constraint levels.compare_options
Open slide detailBeat · Problem & Complication
24
The slide uses a value-chain style flow to demonstrate complexity. The central 'All routes possible' callout emphasizes the non-linear nature of the process.present_framework
Open slide detailBeat · Problem & Complication
25
The slide uses a linear process flow to define the biomass energy value chain.present_framework
Open slide detailBeat · Problem & Complication
26
The slide uses a value chain flow from feedstock collection to processing and final consumption.present_framework
27
The slide uses a value chain/process flow framework to map the transformation of feedstock into energy.present_framework
28
The slide uses a value chain structure to categorize biofuels by their physical state and end-use applications.present_framework
29
Uses a custom maturity curve framework (similar to a Hype Cycle or Technology Readiness Level curve).present_framework
30
The slide uses a vertical list structure to define assessment criteria.present_framework
31
The slide uses a numbered list structure to define the scope of the analysis across three chapters.present_framework
32
transition
33
front_matter
34
The slide uses a thematic background image of hay bales to introduce the topic of biomass.frame_problem
35
The slide uses a grid layout to define categories of feedstocks.present_framework
Open slide detailBeat · Evidence & Proof
36
The slide uses a matrix structure to define the methodology for assessing bioenergy feedstock potential.present_framework
Open slide detailBeat · Evidence & Proof
37
Includes a legend for potential types (Theoretical, Technical, Sustainable) and source citations.analyze_data
Open slide detailBeat · Evidence & Proof
38
The slide uses a split-layout to define two distinct categories of animal waste with accompanying imagery.establish_context
Open slide detailBeat · Evidence & Proof
39
Includes a data table for chemical/physical properties and a waterfall chart for potential sizing.diagnose
Open slide detailBeat · Evidence & Proof
40
establish_context
Open slide detailBeat · Evidence & Proof
41
Includes a waterfall chart showing the reduction from theoretical to sustainable potential.size_opportunity
Open slide detailBeat · Evidence & Proof
42
establish_context
Open slide detailBeat · Evidence & Proof
43
Includes a waterfall chart showing the reduction from theoretical to sustainable potential.establish_context
Open slide detailBeat · Evidence & Proof
44
The slide uses a split-layout to contrast food waste and paper waste with accompanying imagery.illustrate_case
Open slide detailBeat · Evidence & Proof
45
Includes a waterfall chart for MSW potential and a table of MSW properties.analyze_data
Open slide detailBeat · Evidence & Proof
46
compare_options
Open slide detailBeat · Evidence & Proof
47
Includes a data table of chemical properties and a qualitative assessment of sustainability constraints.diagnose
Open slide detailBeat · Evidence & Proof
48
illustrate_case
Open slide detailBeat · Evidence & Proof
49
Includes a waterfall chart showing the reduction of energy crop potential due to crop losses and land use competition.diagnose
Open slide detailBeat · Evidence & Proof
50
The chart illustrates the constraints of collection and competing uses on biomass availability.quantify_impact
Open slide detailBeat · Evidence & Proof
51
The chart uses a color-coded legend to distinguish between theoretical non-technical, technical non-sustainable, and sustainable potentials.analyze_data
52
The chart uses a waterfall structure to show the narrowing of potential from theoretical to sustainable, then compares the final sustainable potential to total quantify_impact
53
The slide uses a custom visual comparison of energy consumption levels (Mtoe) and CO2 reduction percentages.quantify_impact
54
front_matter
55
frame_problem
56
The timeline uses a break symbol between 1778 and 1840 to compress the scale.establish_context
57
The chart uses a custom maturity curve framework. The left sidebar provides context on the maturity gap between conventional and biomass-specific technologies.present_framework
58
The slide uses a value-chain style process flow to map feedstock processing, conversion, and final products.present_framework
59
The slide highlights the role of intermediates as a bottleneck in biomass processing.illustrate_case
60
The slide uses a process flow framework to map the value chain from raw feedstock conditioning to final biofuel products.decompose_segments
61
The slide uses a 2x2 grid layout to categorize the four types of intermediates.present_framework
62
The slide outlines a sequential evaluation process leading to an optimal combination.present_framework
63
The slide uses a matrix to map processing methods against feedstocks, indicating 'Applicable' (grey) and 'Optimal' (purple) combinations.present_framework
64
The slide uses a visual 'pie chart' icon to represent 'Overall attractiveness' levels.compare_options
65
The table uses a maturity index rating and overall attractiveness indicators (pie charts).compare_options
66
The slide uses a matrix to map biofuel types against processing methods, highlighting 'optimal' vs 'applicable' combinations.present_framework
67
The table uses a maturity index and qualitative/quantitative metrics to compare fermentation, hydrotreatment, Fischer-Tropsch, syngas fermentation, transesterifcompare_options
68
The slide uses a color-coded legend to indicate preferred, second-best, and other possible pathways for biofuel production.present_framework
69
transition
70
front_matter
71
The slide uses a photo of a Tesla energy storage unit as a background, which seems slightly disconnected from the biofuel topic.frame_problem
72
The timeline spans from 125,000 B.C. to 2018, highlighting major technological and commercial breakthroughs.establish_context
73
The chart uses a custom maturity curve framework. The Y-axis represents 'Capital requirement x technology risk'.present_framework
74
The slide uses a grid layout to present 12 distinct biofuel types. Each entry includes a name, a short definition, and a representative photo.establish_context
75
The slide uses a sequential process flow to illustrate the methodology.present_framework
76
front_matter
77
The slide uses a matrix to show applicability and performance levels for different biofuel types.present_framework
78
The slide uses a star-rating system for qualitative metrics and pie charts for 'Technical attractiveness'.compare_options
79
Includes chemical structure of Octane, feedstock icons, and a comparative table of technical performance metrics.illustrate_case
80
Includes a mix of qualitative and quantitative data across three main pillars: industry environment, physico-chemical characteristics, and economic characteristcompare_options
81
Includes a comparison table for technical competitiveness and a summary of feedstock and economic factors.diagnose
82
Includes a comparison table for technical competitiveness and a summary of feedstock and applications.present_framework
83
front_matter
84
The slide defines the scope of analysis for biomass energy demand, distinguishing between input and output energy to avoid double counting.present_framework
Open slide detailLoop · Golden Circle
85
The slide includes a disclaimer about data availability at the global level and a note on rounding.analyze_data
Open slide detailLoop · Golden Circle
86
Uses a mix of pie charts for qualitative ratings and star ratings for quantitative/qualitative assessment.compare_options
Open slide detailLoop · Golden Circle
87
The table uses a color-coded legend for 'Negative' and 'Positive' impact on attractiveness of value chain, though the colors are subtle in the cells.compare_options
Open slide detailLoop · Golden Circle
88
The chart uses a waterfall-style decomposition to show growth contributions by sector, with CAGR percentages overlaid.analyze_data
Open slide detailLoop · Golden Circle
89
The chart uses a custom bridge/waterfall hybrid visualization to show growth in specific energy segments.analyze_data
Open slide detailLoop · Golden Circle
90
Includes a macro trends list, a comparative table of LCOE and policy support, and a waterfall-style growth chart.analyze_data
Open slide detailLoop · Golden Circle
91
The chart uses a custom matrix-like layout to show CAGR and contribution to biofuels growth across different transport modes.analyze_data
92
Includes a comparison table of economic competitiveness and a waterfall-style chart showing fuel consumption growth.analyze_data
93
Includes a waterfall-style chart showing fuel mix evolution and a comparative table for economic competitiveness.analyze_data
94
The slide uses a three-column layout to contrast different regulatory levels.establish_context
95
Includes a waterfall-style chart showing fuel mix evolution from 2018 to 2040.analyze_data
96
Uses a visual gauge/pie chart representation for qualitative data points (High/Medium/Low).prioritize
97
The chart uses a dual-line trajectory to show the shift in market focus from medium-term (power/trucks) to long-term (shipping/aviation).present_framework
98
front_matter
99
Hand-drawn graph on grid paper background.frame_problem
100
The chart uses a waterfall-like structure to compare volumes, with a caveat about energy efficiency/yield.analyze_data
101
The slide uses stacked bar charts overlaid on a world map to show regional energy demand shifts.size_opportunity
102
The slide uses a vertical column structure for the first four drivers and a horizontal bar for the fifth driver.present_framework
103
The slide uses a numbered system (1-4) to link specific drivers to the flow diagram.present_framework
104
The slide uses a structured table format to map categories to their respective supply dependencies and optimization levers.decompose_segments
105
The slide uses a structured table to categorize competing uses for feedstock, highlighting the competitive pressure on supply.analyze_data
106
The slide uses a stacked bar chart to visualize survey sentiment and a structured list to detail barriers and enablers.analyze_data
107
The slide uses a structured table to categorize regulatory impacts on the bioenergy sector.present_framework
108
The slide uses a maturity model framework to categorize countries as Lagging, Emerging, or Advanced based on their policy implementation.compare_options
109
References Wüstenhagen et al. (2007) framework for social acceptance.diagnose
110
Includes two charts: a floating bar chart for biofuel production costs and a floating bar chart for biomethane production costs.analyze_data
111
The slide uses a custom legend for technology maturity (circles) and substitution scores (plus signs).analyze_data
112
The slide uses a vertical process flow for four main drivers and a horizontal flow for the fifth, with a legend explaining the impact symbols.present_solution
113
The chart uses a floating bar/range visualization to show min/max/average LCoE values. Includes a list of market enablers for biomass.compare_options
114
The slide uses a matrix structure to map five thematic drivers against chronological milestones.present_framework
115
transition
Open slide detailBeat · Impact & Next Steps
116
front_matter
Open slide detailBeat · Impact & Next Steps
117
frame_problem
Open slide detailBeat · Impact & Next Steps
118
illustrate_case
Open slide detailBeat · Impact & Next Steps
119
Includes a map of UK facilities and a bar chart of power generation trends.establish_context
Open slide detailBeat · Impact & Next Steps
120
Includes a map of the UK and specific data points on waste processing and emissions.illustrate_case
Open slide detailBeat · Impact & Next Steps
121
Includes a map of the UK, a value chain diagram, a stacked area chart for market development, a cost comparison table, and a regulatory timeline.establish_context
Open slide detailBeat · Impact & Next Steps
122
Includes a world map highlighting the US and a stacked bar chart showing aviation energy consumption forecasts.establish_context
Open slide detailBeat · Impact & Next Steps
123
Includes a US map highlighting specific regions and a bar chart comparing GHG emissions.illustrate_case
Open slide detailBeat · Impact & Next Steps
124
Includes a value chain diagram, market data, cost comparison table (HEFA vs FT), and a regulatory timeline.establish_context
Open slide detailBeat · Impact & Next Steps
125
Includes a specific focus on China's market context.establish_context
Open slide detailBeat · Impact & Next Steps
126
Includes a map of China, process descriptions, technical metrics, and LCA GHG emissions data.analyze_data
Open slide detailBeat · Impact & Next Steps
127
Includes a value chain diagram, market data points, a cost analysis table, and a regulatory timeline.illustrate_case
Open slide detailBeat · Impact & Next Steps
128
Includes a map of global production and a stacked area chart of US production.establish_context
Open slide detailBeat · Impact & Next Steps
129
Includes a map of the US with California highlighted, likely indicating the primary market or production hub.present_framework
Open slide detailBeat · Impact & Next Steps
130
Includes a map of California, a value chain diagram, a bar chart with forecast, a cost comparison table, and a regulatory timeline.present_solution
Open slide detailBeat · Impact & Next Steps
131
Includes a world map, a stacked bar chart for emissions, and a pie chart for global production.frame_problem
Open slide detailBeat · Impact & Next Steps
132
Includes a world map, a stacked bar chart of CO2 emissions, and a comparison table of fuel characteristics.present_framework
Open slide detailBeat · Impact & Next Steps
133
Includes a world map, two bar charts, and text summaries of costs and barriers.establish_context
Open slide detailBeat · Impact & Next Steps
134
appendix
Open slide detailBeat · Impact & Next Steps
135
appendix
Open slide detailBeat · Impact & Next Steps
136
appendix
Open slide detailBeat · Impact & Next Steps