{
  "docId": "019dd923-5de0-76bd-a164-23169247fb38",
  "docSlug": "1ea0011115e97fc2",
  "documentTitle": "Trend 2050 Economics and Business",
  "authorId": "RolandBerger",
  "authorName": "Roland Berger",
  "documentKindSlug": "consulting-deck",
  "documentKindLabel": "Consulting deck",
  "sourceTypeSlug": "strategy_consulting",
  "sourceTypeLabel": "Strategy consulting",
  "presentationDate": null,
  "orientation": "landscape",
  "aspectRatio": 1.778,
  "pageNumber": 50,
  "pageCount": 91,
  "prevPage": 49,
  "nextPage": 51,
  "slideType": "industry_trends",
  "function": "quantify_impact",
  "density": "dense",
  "nDataPoints": 14,
  "notes": "The slide uses two waterfall charts to illustrate the change in electricity generation mix.",
  "elementsJson": [
    "headline_text",
    "waterfall_chart",
    "bullet_list"
  ],
  "metadataConfidence": 1,
  "imagePath": null,
  "slideHref": "/slides/019dd923-5de0-76bd-a164-23169247fb38/50",
  "deckHref": "/decks/019dd923-5de0-76bd-a164-23169247fb38",
  "deckJsonHref": "/decks/019dd923-5de0-76bd-a164-23169247fb38.json",
  "deckAnchorHref": "/decks/019dd923-5de0-76bd-a164-23169247fb38#slide-50",
  "components": [
    {
      "bbox": null,
      "kind": "callout",
      "text": "In the Net Zero Emissions by 2050 Scenario, electricity generation needs to more than double, necessitating an additional 60,000 TWh from renewable energy sources.",
      "attrs": null,
      "subkind": null,
      "toolName": "Visual emphasis",
      "toolSlug": "visual-emphasis",
      "confidence": null,
      "componentId": "019dd951-dfa7-70a9-900a-3dd09592d0ff",
      "frameworkName": null,
      "frameworkSlug": null
    },
    {
      "bbox": {
        "h": 0.7,
        "w": 0.55,
        "x": 0.15,
        "y": 0.18
      },
      "kind": "chart",
      "text": "Global electricity generation by source, 2022, and path to 2050 [TWh]",
      "attrs": null,
      "subkind": "waterfall",
      "toolName": null,
      "toolSlug": null,
      "confidence": null,
      "componentId": "84737c45-1861-438d-9952-f1e31df9ebc3",
      "frameworkName": null,
      "frameworkSlug": null
    },
    {
      "bbox": null,
      "kind": "metric",
      "text": "TWh: 76,838",
      "attrs": null,
      "subkind": "primary",
      "toolName": "Quantification",
      "toolSlug": "quantification",
      "confidence": null,
      "componentId": "019dd951-dfa7-70a9-900a-401e57e4dd7b",
      "frameworkName": null,
      "frameworkSlug": null
    },
    {
      "bbox": {
        "h": 0.6,
        "w": 0.22,
        "x": 0.75,
        "y": 0.25
      },
      "kind": "paragraph",
      "text": "It is essential not only to increase the share of electricity in final energy demand but also to decarbonize the electricity generation process itself. In the Net Zero Emissions by 2050 Scenario, electricity generation needs to more than double, necessitating an additional 60,000 TWh from renewable energy sources. While electricity generation from nuclear energy sources will also increase, the demand for energy from fossil fuels, by contrast, is expected to decrease. Global coal-fired power generation decreases by around 50% by 2050 in the Stated Policies Scenario (current trajectory), reflecting a broad-based decline across most regions of the world, with the main exceptions being India and emerging Asia. In the NZE Scenario, coal-fired electricity generation even decreases by more than 90%.",
      "attrs": null,
      "subkind": "paragraph",
      "toolName": null,
      "toolSlug": null,
      "confidence": null,
      "componentId": "b943187b-6a48-4f3f-ae40-e235936d6478",
      "frameworkName": null,
      "frameworkSlug": null
    },
    {
      "bbox": {
        "h": 0.02,
        "w": 0.15,
        "x": 0.15,
        "y": 0.97
      },
      "kind": "source-note",
      "text": "Source: IEA; Roland Berger",
      "attrs": null,
      "subkind": null,
      "toolName": null,
      "toolSlug": null,
      "confidence": null,
      "componentId": "6e0d3500-c971-48f3-941d-544464298b33",
      "frameworkName": null,
      "frameworkSlug": null
    },
    {
      "bbox": {
        "h": 0.08,
        "w": 0.75,
        "x": 0.15,
        "y": 0.04
      },
      "kind": "title",
      "text": "Boosting electricity generation from renewable energy sources is key to improving clean energy production",
      "attrs": null,
      "subkind": "headline",
      "toolName": null,
      "toolSlug": null,
      "confidence": null,
      "componentId": "d39516ab-83d1-494d-ab6e-7274021ca3d5",
      "frameworkName": null,
      "frameworkSlug": null
    }
  ],
  "metrics": [],
  "tools": [
    {
      "name": "Waterfall chart",
      "slug": "waterfall-chart",
      "agent": null,
      "layer": "slide",
      "matchId": "468b5ba1-1e3e-4beb-9ab0-d997a10e98ec",
      "evidence": "chart/waterfall: Global electricity generation by source, 2022, and path to 2050 [TWh]",
      "confidence": 0.8
    }
  ],
  "frameworks": [
    {
      "name": "waterfall-chart",
      "slug": null,
      "matchId": "edbb3c1f-1a1e-459b-b9a9-d9bfe4fbb24d",
      "evidence": "Two waterfall charts showing the change in electricity generation from 2022 to 2050.",
      "confidence": 1
    }
  ],
  "arcBeats": [
    {
      "to": 60,
      "from": 41,
      "beatId": "46952975-f4ac-4586-9291-63217a51864f",
      "arcName": "The Sparkline",
      "arcSlug": "sparkline",
      "beatName": "Energy Transition",
      "beatSlug": null,
      "evidence": "The document discusses the importance of the energy transition and the need for sustainable technologies to address climate change.",
      "position": 3,
      "confidence": 0.8,
      "parentBeatName": null,
      "parentBeatSlug": null
    }
  ],
  "loops": [
    {
      "to": 60,
      "from": 41,
      "name": "Cost Of Inaction",
      "slug": "27-cost-of-inaction",
      "bestFor": "Urgent budget requests, compliance, risk mitigation",
      "matchId": "7a73af3c-9c85-417d-bc67-005410bb6e72",
      "evidence": "The document discusses the costs of inaction on climate change and the need for sustainable technologies.",
      "position": 2,
      "objective": "To understand the costs of inaction on climate change",
      "structure": "The Status Quo -> The Hidden Costs Accumulating -> The Future State of Inaction -> The Tipping Point",
      "confidence": 0.8,
      "description": "Quantify what happens if the audience does nothing"
    }
  ],
  "imagePathAlt": null,
  "thumbSrc": null,
  "thumbSrcAlt": null,
  "locked": true
}