{
  "docId": "019dd923-5de0-76bd-a169-e74518cecd2e",
  "docSlug": "20eb9b28f09b8375",
  "documentTitle": "Carbon Capture Utilization and Storage",
  "authorId": "Kearney",
  "authorName": "Kearney",
  "documentKindSlug": "consulting-deck",
  "documentKindLabel": "Consulting deck",
  "sourceTypeSlug": "strategy_consulting",
  "sourceTypeLabel": "Strategy consulting",
  "presentationDate": null,
  "orientation": "landscape",
  "aspectRatio": 1.778,
  "pageNumber": 89,
  "pageCount": 166,
  "prevPage": 88,
  "nextPage": 90,
  "slideType": "industry_trends",
  "function": "present_framework",
  "density": "dense",
  "nDataPoints": 1,
  "notes": "Includes a process flow diagram and a comparative table of pros and cons.",
  "elementsJson": [
    "headline_text",
    "process_diagram",
    "bullet_list",
    "comparison_table",
    "footnote"
  ],
  "metadataConfidence": 1,
  "imagePath": null,
  "slideHref": "/slides/019dd923-5de0-76bd-a169-e74518cecd2e/89",
  "deckHref": "/decks/019dd923-5de0-76bd-a169-e74518cecd2e",
  "deckJsonHref": "/decks/019dd923-5de0-76bd-a169-e74518cecd2e.json",
  "deckAnchorHref": "/decks/019dd923-5de0-76bd-a169-e74518cecd2e#slide-89",
  "components": [
    {
      "bbox": null,
      "kind": "callout",
      "text": "Currently only about 1% of hydrogen production from fossil fuels includes carbon capture and storage (CCS)",
      "attrs": null,
      "subkind": null,
      "toolName": "Visual emphasis",
      "toolSlug": "visual-emphasis",
      "confidence": null,
      "componentId": "019dd952-0a6a-74c9-8ab9-298ad696f5a2",
      "frameworkName": null,
      "frameworkSlug": null
    },
    {
      "bbox": {
        "h": 0.45,
        "w": 0.6,
        "x": 0.32,
        "y": 0.1
      },
      "kind": "diagram",
      "text": "Process flow diagram showing Heat, SMR, WGS, CO2 capture, H2 separation, and H2 compression.",
      "attrs": null,
      "subkind": "process",
      "toolName": null,
      "toolSlug": null,
      "confidence": null,
      "componentId": "42f75e72-6f40-4232-8369-b2a3ce1f48cd",
      "frameworkName": null,
      "frameworkSlug": null
    },
    {
      "bbox": {
        "h": 0.1,
        "w": 0.2,
        "x": 0.03,
        "y": 0.55
      },
      "kind": "paragraph",
      "text": "Currently only about 1% of hydrogen production from fossil fuels includes carbon capture and storage (CCS)",
      "attrs": null,
      "subkind": "paragraph",
      "toolName": null,
      "toolSlug": null,
      "confidence": null,
      "componentId": "d7f23324-a2f1-46a9-9fc4-1e78a1ee2b1f",
      "frameworkName": null,
      "frameworkSlug": null
    },
    {
      "bbox": {
        "h": 0.05,
        "w": 0.7,
        "x": 0.27,
        "y": 0.91
      },
      "kind": "source-note",
      "text": "1. SMR = Steam Methane Reforming, WGS = Water-gas shift, NG = Natural gas. Sources: GCCSI - Blue Hydrogen (April 2021), SINTEF CSLF WORKSHOP STATUS OF HYDROGEN PRODUCTION WITH CO2 CAPTURE (Nov 2019), Kearney Energy Transition institute analysis.",
      "attrs": null,
      "subkind": null,
      "toolName": null,
      "toolSlug": null,
      "confidence": null,
      "componentId": "edc19f33-d6d7-4257-ab3f-f16e33875d5e",
      "frameworkName": null,
      "frameworkSlug": null
    },
    {
      "bbox": {
        "h": 0.3,
        "w": 0.7,
        "x": 0.27,
        "y": 0.6
      },
      "kind": "table",
      "text": "Description, Pros, and Cons table for Blue Hydrogen.",
      "attrs": null,
      "subkind": "data",
      "toolName": null,
      "toolSlug": null,
      "confidence": null,
      "componentId": "b6042179-b634-4e9b-8067-6bd45ffc4bd0",
      "frameworkName": null,
      "frameworkSlug": null
    },
    {
      "bbox": {
        "h": 0.25,
        "w": 0.22,
        "x": 0.03,
        "y": 0.05
      },
      "kind": "title",
      "text": "Blue hydrogen is derived from the fossil fuel-based production processes as CO2 emissions are captured, utilized, and stored",
      "attrs": null,
      "subkind": "action-title",
      "toolName": null,
      "toolSlug": null,
      "confidence": null,
      "componentId": "5bd17213-9bfb-4cd4-a8bd-3d670ed1b09b",
      "frameworkName": null,
      "frameworkSlug": null
    },
    {
      "bbox": {
        "h": 0.03,
        "w": 0.45,
        "x": 0.28,
        "y": 0.05
      },
      "kind": "title",
      "text": "Steam Methane Reforming with Carbon capture",
      "attrs": null,
      "subkind": "headline",
      "toolName": null,
      "toolSlug": null,
      "confidence": null,
      "componentId": "c5415178-7c2c-4466-8dc3-df5033eca754",
      "frameworkName": null,
      "frameworkSlug": null
    }
  ],
  "metrics": [],
  "tools": [
    {
      "name": "Process flow",
      "slug": "process-flow",
      "agent": null,
      "layer": "slide",
      "matchId": "e8ab2966-7495-4720-9c72-ec83966c5bd3",
      "evidence": "Process flow diagram showing Heat, SMR, WGS, CO2 capture, H2 separation, and H2 compression.",
      "confidence": 0.7
    }
  ],
  "frameworks": [
    {
      "name": "process-flow",
      "slug": null,
      "matchId": "9bfce4d8-02e9-4b37-867b-da67261fc133",
      "evidence": "Diagram showing the steps of SMR with CCS",
      "confidence": 0.9
    }
  ],
  "arcBeats": [
    {
      "to": 166,
      "from": 41,
      "beatId": "fe8271bb-772f-484a-a616-dfe52603a74c",
      "arcName": "The Consultant's Gambit",
      "arcSlug": "consultants-gambit",
      "beatName": "Impact & Next Steps",
      "beatSlug": "consultants-gambit-impact-next-steps",
      "evidence": "Outlook, economics, policies, and regulations.",
      "position": 3,
      "confidence": 0.8,
      "parentBeatName": "Resolution",
      "parentBeatSlug": "resolution"
    }
  ],
  "loops": [],
  "imagePathAlt": null,
  "thumbSrc": null,
  "thumbSrcAlt": null,
  "locked": true
}