Vale | ESG Presentation Deck | 24 slides

Vale · 2021-06
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 1
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Deck intelligence map

5
coverage by narrative range · generated from this deck JSON

Slide inventory

24
every slide · same image gating as the playbook
01
Slide 1
front_matter
Open slide detailBeat · Situation & Context
02
other
Open slide detailBeat · Situation & Context
03
summarize
Open slide detailBeat · Situation & ContextLoop · Cost Of Inaction
04
summarize
Open slide detailBeat · Situation & ContextLoop · Cost Of Inaction
05
Uses a vertical process/timeline-style layout to show governance layers.present_framework
Open slide detailBeat · Situation & ContextLoop · Cost Of Inaction
06
transition
Open slide detailBeat · Problem & ComplicationLoop · Cost Of Inaction
07
The chart shows a 2030 goal of 9.5 Mt CO2 eq compared to a 2017 baseline of 14.1 Mt CO2 eq.present_solution
Open slide detailBeat · Problem & ComplicationLoop · Cost Of Inaction
08
The bridge chart illustrates the transition from 2030 BAU (18.4 Mt CO2 eq) to the 2030 goal (9.5 Mt CO2 eq) through specific reduction levers.present_solution
Open slide detailBeat · Problem & ComplicationLoop · Cost Of Inaction
09
Uses a timeline-like arrow to segment operational areas by their contribution to total emissions.present_solution
Open slide detailBeat · Solution & ApproachLoop · Cost Of Inaction
10
The slide uses a MAC curve to visualize project maturity and cost-efficiency for GHG reduction initiatives.analyze_data
Open slide detailBeat · Solution & ApproachLoop · Cost Of Inaction
11
The chart shows a comparison between a 2035 Business-as-Usual (BaU) scenario and a 2035 target scenario.present_solution
Open slide detailBeat · Solution & ApproachLoop · Why Now
12
transition
Open slide detailBeat · Solution & ApproachLoop · Why Now
13
The slide contrasts macro-industry metrics with process-specific operational challenges.frame_problem
Open slide detailBeat · Solution & ApproachLoop · Why Now
14
Uses a three-phase framework (Pathway Definition, Decarbonization Run, Mainstream Adoption) to map industry transition.present_framework
Open slide detailBeat · Solution & ApproachLoop · Why Now
15
The chart shows a baseline followed by five specific initiatives that contribute to emission reductions.present_solution
Open slide detailBeat · Solution & ApproachLoop · Why Now
16
VIU stands for Value-in-Use. The slide compares traditional Blast Furnace/BOF routes with emerging low-carbon technologies.analyze_data
Open slide detailBeat · Evidence & ProofLoop · Why Now
17
Uses a two-column layout connecting market drivers (left) to company strategic responses (right).present_solution
Open slide detailBeat · Evidence & ProofLoop · Why Now
18
Features a large number '3' indicating section number.transition
Open slide detailBeat · Evidence & Proof
19
The right side of the slide is a 2x2 matrix (though not explicitly gridded) mapping mineral impact/demand against technology coverage.present_framework
Open slide detailBeat · Evidence & Proof
20
The slide highlights the impact of nickel sourcing (NPI vs Conventional) on EV emissions.analyze_data
Open slide detailBeat · Evidence & Proof
21
The chart is a standard industry cost/carbon curve (often called a 'waterfall' or 'cost curve' in mining).analyze_data
Open slide detailBeat · Impact & Next Steps
22
Uses a 'past-present-future' temporal structure to frame sustainability initiatives.present_solution
Open slide detailBeat · Impact & Next Steps
23
front_matter
Open slide detailBeat · Impact & Next Steps
24
front_matter
Open slide detailBeat · Impact & Next Steps