{
  "docId": "019dd923-5ca1-7489-b639-2a08d768646b",
  "docSlug": "5a3b70353c277846",
  "documentTitle": "Chilean Hydrogen Pathway",
  "authorId": "McKinsey",
  "authorName": "McKinsey",
  "documentKindSlug": "consulting-deck",
  "documentKindLabel": "Consulting deck",
  "sourceTypeSlug": "strategy_consulting",
  "sourceTypeLabel": "Strategy consulting",
  "presentationDate": null,
  "orientation": "landscape",
  "aspectRatio": 1.778,
  "pageNumber": 4,
  "pageCount": 65,
  "prevPage": 3,
  "nextPage": 5,
  "slideType": "comparison_table",
  "function": "compare_options",
  "density": "dense",
  "nDataPoints": 6,
  "notes": "The slide uses a table structure to compare three hydrogen production methods. It highlights the CO2 intensity, CAPEX requirements, and EPC duration for each.",
  "elementsJson": [
    "comparison_table",
    "icon_grid"
  ],
  "metadataConfidence": 1,
  "imagePath": null,
  "slideHref": "/slides/019dd923-5ca1-7489-b639-2a08d768646b/4",
  "deckHref": "/decks/019dd923-5ca1-7489-b639-2a08d768646b",
  "deckJsonHref": "/decks/019dd923-5ca1-7489-b639-2a08d768646b.json",
  "deckAnchorHref": "/decks/019dd923-5ca1-7489-b639-2a08d768646b#slide-4",
  "components": [
    {
      "bbox": {
        "h": 0.1,
        "w": 0.6,
        "x": 0.04,
        "y": 0.85
      },
      "kind": "disclaimer",
      "text": "1. Process: Sulfur Removal, Synthesis Gas Production via Steam-Methane Reforming (SMR) or Auto-Thermal Reforming (ATR), CO Shift Reaction, Purification. The latter is expected to offer higher efficiencies in combination with CCS. In addition, Grey hydrogen can also be produced from coal gasification. 2. In Australia, producing hydrogen from electrolyzers that run on grid electricity would lead to an emission intensity of ~40 kgCO2/kgH2. 3. Especially PEM electrolyzers can be largely pre-assembled, containerized, and stacked.",
      "attrs": null,
      "subkind": null,
      "toolName": null,
      "toolSlug": null,
      "confidence": null,
      "componentId": "53d291cb-6428-463f-a1d4-18e5dd1d73cd",
      "frameworkName": null,
      "frameworkSlug": null
    },
    {
      "bbox": {
        "h": 0.05,
        "w": 0.25,
        "x": 0.72,
        "y": 0.2
      },
      "kind": "legend",
      "text": "CO2 emissions kg CO2 per kgH2 produced",
      "attrs": null,
      "subkind": null,
      "toolName": null,
      "toolSlug": null,
      "confidence": null,
      "componentId": "6aae2aad-bfb7-4710-b72a-98a9e0ad8bf7",
      "frameworkName": null,
      "frameworkSlug": null
    },
    {
      "bbox": null,
      "kind": "metric",
      "text": "CO2 emissions: ~0",
      "attrs": null,
      "subkind": "primary",
      "toolName": "Quantification",
      "toolSlug": "quantification",
      "confidence": null,
      "componentId": "019dd951-cdee-73ea-b07c-19d1c6f5e13b",
      "frameworkName": null,
      "frameworkSlug": null
    },
    {
      "bbox": {
        "h": 0.55,
        "w": 0.92,
        "x": 0.04,
        "y": 0.28
      },
      "kind": "table",
      "text": "Comparison of Grey, Blue, and Green hydrogen production methods",
      "attrs": null,
      "subkind": "data",
      "toolName": null,
      "toolSlug": null,
      "confidence": null,
      "componentId": "6d3503fe-7808-4d25-a05d-391976469909",
      "frameworkName": null,
      "frameworkSlug": null
    },
    {
      "bbox": {
        "h": 0.1,
        "w": 0.85,
        "x": 0.04,
        "y": 0.03
      },
      "kind": "title",
      "text": "1.1/ Blue and Green hydrogen are two low-carbon production methods of H2 with the highest future potential",
      "attrs": null,
      "subkind": "headline",
      "toolName": null,
      "toolSlug": null,
      "confidence": null,
      "componentId": "0767a36a-0e9c-4618-945c-aa4bb78cfd01",
      "frameworkName": null,
      "frameworkSlug": null
    }
  ],
  "metrics": [
    {
      "metricRaw": "CO2 emissions",
      "numberRaw": "~0",
      "numberKind": "plain",
      "actionTitle": "1.1/ Blue and Green hydrogen are two low-carbon production methods of H2 with the highest future potential",
      "calloutText": null,
      "numberScale": null,
      "numberValue": 0,
      "metricFamily": "environment",
      "numberCurrency": null
    }
  ],
  "tools": [],
  "frameworks": [],
  "arcBeats": [
    {
      "to": 5,
      "from": 1,
      "beatId": "956f3899-ae27-4ed8-b005-af29e96faeb2",
      "arcName": "The Sparkline",
      "arcSlug": "sparkline",
      "beatName": "Setup",
      "beatSlug": "setup",
      "evidence": "The deck sets up the context for Chile's hydrogen industry, including global trends and the country's competitive advantages.",
      "position": 0,
      "confidence": 0.8,
      "parentBeatName": null,
      "parentBeatSlug": null
    }
  ],
  "loops": [],
  "imagePathAlt": null,
  "thumbSrc": null,
  "thumbSrcAlt": null,
  "locked": true
}