Kearney · consulting-deck
Carbon Capture Utilization and Storage
166 pages · 4 arc beats · 2 loops
Carbon Capture Utilization and Storage
Kearney arc beats above · slides in the middle · loops below · scroll → 2 LOOPS
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Deck intelligence map
4 coverage by narrative range · generated from this deck JSON
Narrative range 166 total
Metadata
Components
Metrics
Tools
Frameworks
Beats
Loops
Situation & Context 10 slides 100% 10/10 slides 100% 10/10 slides · 68 hits — 0/10 slides
80% 8/10 slides · 10 hits 10% 1/10 slides 100% 10/10 slides — 0/10 slides
Problem & Complication 12 slides 100% 12/12 slides 100% 12/12 slides · 79 hits — 0/12 slides
41.7% 5/12 slides · 7 hits 41.7% 5/12 slides 100% 12/12 slides 33.3% 4/12 slides Evidence & Proof 18 slides 100% 18/18 slides 100% 18/18 slides · 110 hits — 0/18 slides
44.4% 8/18 slides · 9 hits 38.9% 7/18 slides 100% 18/18 slides — 0/18 slides
Impact & Next Steps 126 slides 100% 126/126 slides 100% 126/126 slides · 839 hits — 0/126 slides
40.5% 51/126 slides · 57 hits 26.2% 33/126 slides 100% 126/126 slides — 0/126 slides
Slide inventory
166 every slide · same image gating as the playbook
01
The slide features the Kearney 'K' logo as a mask for an industrial photo.front_matter
Open slide detailBeat · Situation & Context
02
This is a front-matter/disclosure page for a report.front_matter
Open slide detailBeat · Situation & Context
04
The slide uses a structured list format to present key arguments for CCUS adoption.summarize
Open slide detailBeat · Situation & Context
05
This slide serves as an executive summary of the CCUS value chain, referencing detailed content on pages 23-43.summarize
Open slide detailBeat · Situation & Context
06
The slide provides a high-level overview of CCUS industry trends and regional concentration.summarize
Open slide detailBeat · Situation & Context
07
The slide provides a high-level overview of CCUS trends, referencing specific sectors like power, blue hydrogen, steel, and cement.summarize
Open slide detailBeat · Situation & Context
08
The slide provides a high-level overview of CCUS utilization and storage, referencing further details on pages 99-115.summarize
Open slide detailBeat · Situation & Context
09
The slide acts as a summary for a section on Economics, Policies and Regulations.summarize
Open slide detailBeat · Situation & Context
10
Part of a larger report; references pages 143-149 for further detail.summarize
Open slide detailBeat · Situation & Context
11
The slide features a person standing in front of a whiteboard with hand-drawn illustrations related to energy and finance.transition
Open slide detailBeat · Problem & Complication
12
Provides context for carbon metrics, CCUS project scales, and financial indicators.summarize
Open slide detailBeat · Problem & Complication
13
Includes two charts: a stacked area chart for historical emissions and a line chart for recent atmospheric concentration.establish_context
Open slide detailBeat · Problem & Complication
14
The slide uses a waterfall chart for emissions and a stacked bar chart for the carbon budget.frame_problem
15
The slide uses IPCC SR1.5 scenarios to illustrate the necessity of CDR technologies across different energy demand and mix assumptions.analyze_data
16
The chart illustrates the cumulative impact of different decarbonization levers over time, highlighting the growing role of CCUS.quantify_impact
Open slide detailBeat · Problem & Complication
17
The slide highlights a ~4-fold increase requirement by 2030.quantify_impact
Open slide detailBeat · Problem & Complication
18
The slide uses a visual legend to indicate technology maturity (Commercial, Pilot, Research, Not an option).analyze_data
Open slide detailBeat · Problem & Complication
19
The slide uses a custom scoring system for technology maturity and CCUS opportunity.compare_options
Open slide detailBeat · Problem & Complication
20
The slide uses a tree-like structure to decompose CCUS into Utilization (CCU) and Storage (CCS) and their respective sub-categories and applications.present_framework
Open slide detailBeat · Problem & Complication
21
Includes a waterfall-style growth chart for capture and a stacked bar chart for utilization/storage split.quantify_impact
22
The slide uses a 2x2 grid layout to categorize the four obstacles.diagnose
24
The slide uses a value chain framework to categorize the CCUS process.present_framework
Open slide detailBeat · Evidence & Proof
25
The slide uses a tree diagram to categorize technologies. A specific note highlights that the first two categories (Absorption and Adsorption) require regeneratpresent_framework
Open slide detailBeat · Evidence & Proof
26
The slide lists 5 technologies despite the title mentioning 4.present_framework
Open slide detailBeat · Evidence & Proof
27
The slide uses a 2x2 grid layout to present four distinct technical processes.present_framework
Open slide detailBeat · Evidence & Proof
28
The slide uses a structured table to compare technical characteristics of carbon capture methods.compare_options
Open slide detailBeat · Evidence & Proof
29
The slide uses a horizontal bar chart to represent technological maturity levels across different categories of CO2 capture.present_framework
Open slide detailBeat · Evidence & Proof
30
Part 1 of 2 slides detailing carbon capture technologies.present_framework
Open slide detailBeat · Evidence & Proof
31
Part 2 of a series on CO2 capture systems.present_framework
Open slide detailBeat · Evidence & Proof
32
The slide illustrates a standard chemical engineering process flow for gas sweetening.present_framework
Open slide detailBeat · Evidence & Proof
33
Includes a process diagram of the CCS operation and a detailed table of project characteristics.illustrate_case
Open slide detailBeat · Evidence & Proof
35
The chart highlights that post-combustion and pre-combustion are the dominant technologies, while oxy-combustion is less mature.analyze_data
Open slide detailBeat · Evidence & Proof
36
The chart uses a maturity model framework to visualize the progression of technologies against capital requirement and technology risk.present_framework
Open slide detailBeat · Evidence & Proof
38
Uses a standard technology maturity curve framework.present_framework
Open slide detailBeat · Evidence & Proof
40
The slide uses a technical infographic to explain CCUS (Carbon Capture, Utilization, and Storage) pathways.present_framework
Open slide detailBeat · Evidence & Proof
41
The slide contrasts a list of CO2 utilization methods with a technical diagram of the EOR process.present_solution
Open slide detailBeat · Impact & Next Steps
42
The slide explains the technical process of CO2 injection for methane recovery, highlighting both the potential benefits and the practical challenges.present_framework
Open slide detailBeat · Impact & Next Steps
43
The chart uses a custom maturity curve framework. The y-axis represents 'Capital requirement x technology risk' and the x-axis represents 'Maturity'.present_framework
Open slide detailBeat · Impact & Next Steps
45
The chart uses a combination of a line graph for operational projects and a stacked bar chart for project status (developed vs cancelled/completed).analyze_data
Open slide detailBeat · Impact & Next Steps
46
The slide uses a timeline to show the historical progression of CCS projects, with boxes color-coded by industry type (Oil & Gas vs EOR).illustrate_case
Open slide detailBeat · Impact & Next Steps
47
Includes definitions for Commercial CCUS Facilities vs Pilot and Demonstration facilities.establish_context
Open slide detailBeat · Impact & Next Steps
48
The chart uses a mirrored bar chart structure to show positive (operational/development) and negative (completed/cancelled) project counts.analyze_data
Open slide detailBeat · Impact & Next Steps
49
The chart uses a diverging bar structure to show positive (operational/development) and negative (cancelled) capacity.analyze_data
Open slide detailBeat · Impact & Next Steps
50
The chart uses a split-axis bar chart to show positive capacity (in development/operational) and negative capacity (cancelled/terminated).size_opportunity
Open slide detailBeat · Impact & Next Steps
51
The table uses flags to identify countries and stacked bars to show storage type distribution.analyze_data
Open slide detailBeat · Impact & Next Steps
54
The chart uses a trend line to show the acceleration of project capacity over time, with a break in the Y-axis between 15 and 50.analyze_data
Open slide detailBeat · Impact & Next Steps
55
The chart uses a diverging bar structure to show positive (In development, Operational) and negative (Terminated, Cancelled) project counts.analyze_data
Open slide detailBeat · Impact & Next Steps
56
Includes a legend for performance metrics (Advantage to Drawback).establish_context
Open slide detailBeat · Impact & Next Steps
57
The slide uses a timeline framework to illustrate the maturity model of CCUS technology.present_framework
Open slide detailBeat · Impact & Next Steps
58
The slide highlights the shift towards larger projects and clusters, particularly in power generation and hydrogen.analyze_data
Open slide detailBeat · Impact & Next Steps
60
The slide uses a comparative table structure to profile two specific industrial CCUS projects.illustrate_case
Open slide detailBeat · Impact & Next Steps
61
The chart uses bubble size to represent capture capacity (Mtpa).illustrate_case
Open slide detailBeat · Impact & Next Steps
63
The table is ordered by technology readiness level from high to low.compare_options
Open slide detailBeat · Impact & Next Steps
64
The slide illustrates the technical advantage of MCFC in power generation and CO2 concentration.compare_options
Open slide detailBeat · Impact & Next Steps
65
Includes a process flow diagram for a two-stage flash model.illustrate_case
Open slide detailBeat · Impact & Next Steps
66
The chart uses bubble size to represent capacity (1 Mtpa reference provided).illustrate_case
Open slide detailBeat · Impact & Next Steps
67
Includes a photo with an annotation circle highlighting the capture plant.illustrate_case
Open slide detailBeat · Impact & Next Steps
69
The slide uses a process diagram to explain the carbon capture mechanism at the power station.illustrate_case
Open slide detailBeat · Impact & Next Steps
71
The slide uses a combination of a stacked bar chart for intensity and a stacked bar chart with reduction annotations for total emissions.quantify_impact
Open slide detailBeat · Impact & Next Steps
72
The slide uses a Gantt-style timeline to visualize project lifecycles across different countries.summarize
Open slide detailBeat · Impact & Next Steps
73
The chart shows that the majority of global coal capacity is under 20 years old, implying a long remaining operational life.analyze_data
Open slide detailBeat · Impact & Next Steps
74
The slide provides a technical breakdown of CO2 capture methods specifically for the cement sector.present_framework
Open slide detailBeat · Impact & Next Steps
75
The slide includes a footer note about technology readiness levels and data sources.compare_options
Open slide detailBeat · Impact & Next Steps
77
The slide uses a maturity scale at the bottom (High to Low) to contextualize the technologies.compare_options
Open slide detailBeat · Impact & Next Steps
78
The chart uses bubble size to represent capture capacity and color to distinguish between cement and iron/steel projects.illustrate_case
Open slide detailBeat · Impact & Next Steps
79
The slide uses a Gantt-style timeline to track project lifecycles from 2005 to 2040.illustrate_case
Open slide detailBeat · Impact & Next Steps
80
Includes a process flow diagram and a summary table of pros/cons.illustrate_case
Open slide detailBeat · Impact & Next Steps
81
The slide details the LEILAC project, a carbon capture initiative in the cement industry.illustrate_case
Open slide detailBeat · Impact & Next Steps
82
The slide uses a process flow diagram to explain the CO2 capture and transport mechanism.illustrate_case
Open slide detailBeat · Impact & Next Steps
83
The slide uses a process diagram to explain the microbial fermentation of waste gases.illustrate_case
Open slide detailBeat · Impact & Next Steps
84
Includes a process flow diagram and a detailed project characteristics table.illustrate_case
Open slide detailBeat · Impact & Next Steps
85
Includes a table of CCUS technologies and their descriptions.establish_context
Open slide detailBeat · Impact & Next Steps
86
The slide includes a 'Technology readiness level' arrow at the bottom, implying a maturity ranking.compare_options
Open slide detailBeat · Impact & Next Steps
88
The slide uses a structured table to compare five different hydrogen production technologies.present_framework
Open slide detailBeat · Impact & Next Steps
89
Includes a process flow diagram and a comparative table of pros and cons.present_framework
Open slide detailBeat · Impact & Next Steps
90
The chart uses a bubble plot to visualize project maturity (operational year) against sector and capacity.illustrate_case
Open slide detailBeat · Impact & Next Steps
91
The chart uses a floating bar format to show cost ranges for different hydrogen production methods.quantify_impact
Open slide detailBeat · Impact & Next Steps
92
The chart uses a Gantt-style visualization to show project lifecycles, with flags indicating the country of origin for each project.summarize
Open slide detailBeat · Impact & Next Steps
93
The slide uses a column-based comparison layout to contrast four distinct hydrogen infrastructure projects.compare_options
Open slide detailBeat · Impact & Next Steps
94
The slide uses a process diagram to illustrate the CCUS workflow and a table for project specifications.illustrate_case
Open slide detailBeat · Impact & Next Steps
95
The slide uses a process flow diagram to illustrate the CCUS integration at the refinery.illustrate_case
Open slide detailBeat · Impact & Next Steps
96
The slide highlights a specific industrial application of CCUS technology.illustrate_case
Open slide detailBeat · Impact & Next Steps
97
The slide provides a technical process flow diagram and a structured table of project characteristics.illustrate_case
Open slide detailBeat · Impact & Next Steps
98
The slide uses a case study approach to explain the adaptation of industrial carbon capture technology for the maritime sector.illustrate_case
Open slide detailBeat · Impact & Next Steps
100
The slide emphasizes the disparity between identified capacity and actual exploration, particularly in the Middle East and Southeast Asia.establish_context
Open slide detailBeat · Impact & Next Steps
101
The chart uses a combination of bar charts for capacity and horizontal lines for emissions levels.analyze_data
Open slide detailBeat · Impact & Next Steps
102
The diagram uses a tree structure to categorize CCUS technologies and provides quantitative data for specific segments.present_framework
Open slide detailBeat · Impact & Next Steps
103
The chart highlights a 355% growth projection between 2020E and 2030E.analyze_data
Open slide detailBeat · Impact & Next Steps
104
The slide combines a line chart for oil price confidence intervals and a combo chart (stacked bar + line) for EOR production forecasts.analyze_data
Open slide detailBeat · Impact & Next Steps
105
The diagram uses a hub-and-spoke model to show CO2 as the central feedstock for various chemical products.present_framework
Open slide detailBeat · Impact & Next Steps
106
The slide highlights the high energy demand of low-carbon synthesis routes despite their potential as alternatives to fossil feedstocks.compare_options
Open slide detailBeat · Impact & Next Steps
107
The slide uses a color-coded maturity scale (Commercial, Lab-scale, Demonstration) to categorize chemical pathways.present_framework
Open slide detailBeat · Impact & Next Steps
108
The slide illustrates a circular economy process for chemical production.illustrate_case
Open slide detailBeat · Impact & Next Steps
109
The slide provides a technical overview of BES applications in chemical production.analyze_data
Open slide detailBeat · Impact & Next Steps
110
The chart uses bubble size to represent capacity (Mtpa) and color to represent geographic region.present_framework
Open slide detailBeat · Impact & Next Steps
111
The slide defines clusters and hubs and provides a quantitative breakdown by region.present_framework
Open slide detailBeat · Impact & Next Steps
112
The slide uses a legend of icons to represent different industrial sectors involved in CCUS projects.analyze_data
Open slide detailBeat · Impact & Next Steps
113
The slide uses a legend to map icons to specific industrial sectors.analyze_data
Open slide detailBeat · Impact & Next Steps
114
Includes a legend for industry icons and a map highlighting project locations.establish_context
Open slide detailBeat · Impact & Next Steps
115
The slide uses a custom circular flow diagram to explain the CCE concept.present_framework
Open slide detailBeat · Impact & Next Steps
117
The slide uses a table to categorize project failures, providing a clear overview of the challenges in the CCUS sector.analyze_data
Open slide detailBeat · Impact & Next Steps
118
The chart shows cost ranges in $2020 per t CO2 for various stages of the CCUS value chain.quantify_impact
Open slide detailBeat · Impact & Next Steps
119
The chart illustrates an inverse relationship between CO2 concentration and capture cost.analyze_data
Open slide detailBeat · Impact & Next Steps
120
The chart uses line styles (dashed vs solid) to distinguish project scale and colors to distinguish transport methods.analyze_data
Open slide detailBeat · Impact & Next Steps
121
The chart uses a dot plot with whiskers to represent cost ranges for different storage types.compare_options
Open slide detailBeat · Impact & Next Steps
122
The chart uses a broken y-axis to accommodate a wide range of values. It categorizes technologies into Negative Emissions, Low-carbon Power, CCS to Industries, analyze_data
Open slide detailBeat · Impact & Next Steps
123
The charts are cost curves (marginal abatement cost curves style).analyze_data
Open slide detailBeat · Impact & Next Steps
124
The chart uses floating bars to represent the central 50% of cost estimates for different energy technologies.compare_peers
Open slide detailBeat · Impact & Next Steps
125
The slide uses a waterfall-style annotation to show the percentage increase from 0% capture to 90% capture, and from 90% to 99% capture.quantify_impact
Open slide detailBeat · Impact & Next Steps
126
The chart uses a dashed line to represent the 'Carbon capture technology learning rate'.quantify_impact
Open slide detailBeat · Impact & Next Steps
127
The slide uses waterfall-style annotations to show percentage increases in cost for specific industrial processes when CCUS is integrated.quantify_impact
Open slide detailBeat · Impact & Next Steps
128
The slide uses a horizontal bar chart structure to represent the value chain (Capture, Transport, Storage) across different business models.compare_options
Open slide detailBeat · Impact & Next Steps
129
The slide uses a matrix-like structure to map business models against the CCUS value chain (Capture, Transport, Storage).present_solution
Open slide detailBeat · Impact & Next Steps
130
The chart uses a marimekko (mosaic) plot to visualize both the number of countries and their relative contribution to global emissions.analyze_data
Open slide detailBeat · Impact & Next Steps
131
The table provides a structured overview of climate policy commitments across five major regions/countries.compare_options
Open slide detailBeat · Impact & Next Steps
132
Includes a visual representation of the GHG Protocol value chain and a summary table of scope definitions.present_framework
Open slide detailBeat · Impact & Next Steps
133
The chart uses a marimekko (mosaic) plot to visualize both the relative size of total emissions per sector and the internal composition of Scope 1, 2, and 3.analyze_data
Open slide detailBeat · Impact & Next Steps
134
The chart uses a wave-like path to represent 'Political Attractiveness' over time, annotated with key historical events.present_framework
Open slide detailBeat · Impact & Next Steps
135
The slide provides a non-exhaustive overview of global carbon policy frameworks as of August 2020.compare_options
Open slide detailBeat · Impact & Next Steps
136
The slide highlights the global adoption of carbon pricing mechanisms, specifically distinguishing between operational and scheduled ETS systems.establish_context
Open slide detailBeat · Impact & Next Steps
137
The slide uses a map to visualize the geographic distribution of ETS policies alongside detailed data tables for Canada and the US.establish_context
Open slide detailBeat · Impact & Next Steps
139
The chart uses a multi-line series to compare carbon pricing mechanisms globally.analyze_data
Open slide detailBeat · Impact & Next Steps
142
The slide uses a 2x2 grid layout to contrast regional perspectives on carbon capture.establish_context
Open slide detailBeat · Impact & Next Steps
144
The chart shows a significant shift in R&D allocation over time, with renewables growing and fossil fuels declining.analyze_data
Open slide detailBeat · Impact & Next Steps
145
The slide highlights that while CCUS R&D spending peaked in 2012-13, it remains higher than most other emerging renewable technologies.analyze_data
Open slide detailBeat · Impact & Next Steps
146
The chart uses a stacked area format to show total funding and individual country contributions over time.analyze_data
Open slide detailBeat · Impact & Next Steps
147
The chart highlights the dominance of solar and wind technologies in patent filings compared to CCUS.analyze_data
Open slide detailBeat · Impact & Next Steps
148
The chart shows a significant surge in US patent filings starting around 2008.analyze_data
Open slide detailBeat · Impact & Next Steps
149
The slide uses a value chain framework to categorize industry players.present_framework
Open slide detailBeat · Impact & Next Steps
154
The slide uses a timeline at the bottom to indicate when specific company targets were announced.compare_peers
Open slide detailBeat · Impact & Next Steps
155
Includes a cross-reference to slide 32 (Sleipner case).diagnose
Open slide detailBeat · Impact & Next Steps
156
The table provides specific examples of CCUS integration in power plants across different countries.cite_precedent
Open slide detailBeat · Impact & Next Steps
157
The slide provides evidence of CCUS application in power generation through specific project examples.cite_precedent
Open slide detailBeat · Impact & Next Steps
158
The table provides a snapshot of global CCUS initiatives in the cement sector.illustrate_case
Open slide detailBeat · Impact & Next Steps
159
The table provides a snapshot of international decarbonization efforts in the steel sector.illustrate_case
Open slide detailBeat · Impact & Next Steps
160
The slide uses a process diagram to explain the CCUS workflow and a table to summarize project specifications.illustrate_case
Open slide detailBeat · Impact & Next Steps
161
The slide uses a process diagram to illustrate the CCUS value chain.illustrate_case
Open slide detailBeat · Impact & Next Steps
162
The slide provides a detailed breakdown of a specific hydrogen infrastructure project in the UK.illustrate_case
Open slide detailBeat · Impact & Next Steps
163
The slide uses a combination of a map-based illustration and a structured data table to present a specific energy transition project.illustrate_case
Open slide detailBeat · Impact & Next Steps
165
The slide uses a combination of an isometric illustration and a structured data table to profile a specific energy transition project.illustrate_case
Open slide detailBeat · Impact & Next Steps
166
This is a standard organizational disclosure/about slide.other
Open slide detailBeat · Impact & Next Steps