• 00:00 1.
    index 1
  • 01:13 2.
    Geophysics from “a to b”
  • 07:08 3.
    Thermal gradient depends on location
  • 09:59 4.
    Slide 4
  • 10:19 5.
    Larderello Worlds First Geothermal Power Station
  • 11:30 6.
    Slide 6
  • 11:45 7.
    Slide 7
  • 12:09 8.
    Slide 8
  • 15:49 9.
    Slide 9
  • 18:18 10.
    Slide 10
  • 18:20 11.
    Slide 9
  • 18:50 12.
    Slide 10
  • 19:35 13.
    Direct Transmission of geothermal energy?
  • 20:14 14.
    Places in order of difficulty to exploit
  • 23:08 15.
    Slide 13
  • 23:40 16.
    Larderello Worlds First Geothermal Power Station
  • 23:55 17.
    Slide 15
  • 24:21 18.
    Slide 16
  • 24:30 19.
    Hot aquifer schematicunderground layer of water-bearing permeable rock or unconsolidated materials from which groundwater can be usefully extracted using a well.
  • 25:00 20.
    Enhanced Geothermal Systems (EGS)“Hot dry rock” systems
  • 27:12 21.
    What determines the optimum separation between the wells?
  • 28:12 22.
    Basics of a geothermal plant
  • 28:13 23.
    What determines the optimum separation between the wells?
  • 28:56 24.
    Basics of a geothermal plant
  • 30:09 25.
    3 Types of geothermal power plants
  • 30:39 26.
    ** after 2018 地熱.ppt
  • 30:44 27.
    Slide 15
  • 30:50 28.
    ** after 2018 地熱.ppt
  • 30:57 29.
    3 Types of geothermal power plants
  • 34:23 30.
    Basics of a geothermal plant
  • 34:26 31.
    3 Types of geothermal power plants
  • 37:20 32.
    Problem with accessing the resource: Drilling costs
  • 37:57 33.
    Geothermal heat pumps are even simpler – no refrigerant needed
  • 39:57 34.
    Other cons besides high initial cost
  • 40:44 35.
    Is geothermal carbon free?
  • 40:45 36.
    Is geothermal really “renewable?”
  • 40:46 37.
    Possible environmental problem: enhanced earthquake activity – especially for the deepest (and most productive) drilling
  • 40:54 38.
    Is geothermal really “renewable?”
  • 41:04 39.
    Is geothermal carbon free?
  • 41:13 40.
    Is geothermal really “renewable?”
  • 41:17 41.
    Possible environmental problem: enhanced earthquake activity – especially for the deepest (and most productive) drilling
  • 42:23 42.
    ** after 2018 地熱.ppt
  • 42:29 43.
    Basics of a geothermal plant
  • 43:19 44.
    3 Types of geothermal power plants
  • 43:20 45.
    Problem with accessing the resource: Drilling costs
  • 43:21 46.
    Geothermal heat pumps are even simpler – no refrigerant needed
  • 43:22 47.
    Other cons besides high initial cost
  • 43:23 48.
    Is geothermal carbon free?
  • 43:24 49.
    Is geothermal really “renewable?”
  • 43:25 50.
    Possible environmental problem: enhanced earthquake activity – especially for the deepest (and most productive) drilling
  • 43:27 51.
    How serious is the earthquake danger?
  • 43:36 52.
    Possible environmental problem: enhanced earthquake activity – especially for the deepest (and most productive) drilling
  • 43:36 53.
    Is geothermal really “renewable?”
  • 43:37 54.
    Is geothermal carbon free?
  • 43:37 55.
    Other cons besides high initial cost
  • 43:37 56.
    Geothermal heat pumps are even simpler – no refrigerant needed
  • 43:40 57.
    Problem with accessing the resource: Drilling costs
  • 43:40 58.
    3 Types of geothermal power plants
  • 43:41 59.
    Basics of a geothermal plant
  • 43:52 60.
    3 Types of geothermal power plants
  • 43:53 61.
    Problem with accessing the resource: Drilling costs
  • 43:53 62.
    Geothermal heat pumps are even simpler – no refrigerant needed
  • 43:54 63.
    Other cons besides high initial cost
  • 43:54 64.
    Is geothermal carbon free?
  • 43:54 65.
    Is geothermal really “renewable?”
  • 43:55 66.
    Possible environmental problem: enhanced earthquake activity – especially for the deepest (and most productive) drilling
  • 43:56 67.
    How serious is the earthquake danger?
  • 43:58 68.
    韓國浦項地熱發電廠
  • 44:10 69.
    Slide 30
  • 44:16 70.
    The Resource
  • 44:18 71.
    Slide 30
  • 44:22 72.
    The Resource
  • 44:40 73.
    space heating
  • 45:16 74.
    Electricity Generation
  • 46:08 75.
    swimming pool
  • 46:40 76.
    Fish Farming
  • 46:56 77.
    Greenhouses
  • 47:05 78.
    Industrial Users
  • 47:20 79.
    Snow Melting
  • 47:51 80.
    台灣的地溫梯度及地熱資源
  • 48:25 81.
    不同的地熱能淬取方式比較
  • 48:27 82.
    淺層熱水型地熱生成模式
  • 48:29 83.
    淺層地熱發電技術特點
  • 49:01 84.
    EGS加強型地熱系統之關鍵技術
  • 49:05 85.
    Slide 44
  • 49:06 86.
    深層地熱與淺層地熱發電之差異
  • 49:17 87.
    Slide 44
  • 49:18 88.
    深層地熱與淺層地熱發電之差異
  • 49:22 89.
    Complex Energy Extraction from Geothermal resource (CEEG)
  • 50:09 90.
    Slide 47
  • 51:47 91.
    Slide 48
  • 52:16 92.
    清水地熱發電失敗原因
  • 53:03 93.
    Slide 50
  • 53:19 94.
    Slide 51
  • 53:22 95.
    Slide 50
  • 53:22 96.
    清水地熱發電失敗原因
  • 53:24 97.
    Slide 48
  • 53:25 98.
    Slide 47
  • 53:26 99.
    Complex Energy Extraction from Geothermal resource (CEEG)
  • 索引
  • 筆記
  • 討論
  • 全螢幕
地熱
長度: 53:32, 瀏覽: 4067, 最近修訂: 2022-06-08
    • 00:00 1.
      index 1
    • 01:13 2.
      Geophysics from “a to b”
    • 07:08 3.
      Thermal gradient depends on location
    • 09:59 4.
      Slide 4
    • 10:19 5.
      Larderello Worlds First Geothermal Power Station
    • 11:30 6.
      Slide 6
    • 11:45 7.
      Slide 7
    • 12:09 8.
      Slide 8
    • 15:49 9.
      Slide 9
    • 18:18 10.
      Slide 10
    • 18:20 11.
      Slide 9
    • 18:50 12.
      Slide 10
    • 19:35 13.
      Direct Transmission of geothermal energy?
    • 20:14 14.
      Places in order of difficulty to exploit
    • 23:08 15.
      Slide 13
    • 23:40 16.
      Larderello Worlds First Geothermal Power Station
    • 23:55 17.
      Slide 15
    • 24:21 18.
      Slide 16
    • 24:30 19.
      Hot aquifer schematicunderground layer of water-bearing permeable rock or unconsolidated materials from which groundwater can be usefully extracted using a well.
    • 25:00 20.
      Enhanced Geothermal Systems (EGS)“Hot dry rock” systems
    • 27:12 21.
      What determines the optimum separation between the wells?
    • 28:12 22.
      Basics of a geothermal plant
    • 28:13 23.
      What determines the optimum separation between the wells?
    • 28:56 24.
      Basics of a geothermal plant
    • 30:09 25.
      3 Types of geothermal power plants
    • 30:39 26.
      ** after 2018 地熱.ppt
    • 30:44 27.
      Slide 15
    • 30:50 28.
      ** after 2018 地熱.ppt
    • 30:57 29.
      3 Types of geothermal power plants
    • 34:23 30.
      Basics of a geothermal plant
    • 34:26 31.
      3 Types of geothermal power plants
    • 37:20 32.
      Problem with accessing the resource: Drilling costs
    • 37:57 33.
      Geothermal heat pumps are even simpler – no refrigerant needed
    • 39:57 34.
      Other cons besides high initial cost
    • 40:44 35.
      Is geothermal carbon free?
    • 40:45 36.
      Is geothermal really “renewable?”
    • 40:46 37.
      Possible environmental problem: enhanced earthquake activity – especially for the deepest (and most productive) drilling
    • 40:54 38.
      Is geothermal really “renewable?”
    • 41:04 39.
      Is geothermal carbon free?
    • 41:13 40.
      Is geothermal really “renewable?”
    • 41:17 41.
      Possible environmental problem: enhanced earthquake activity – especially for the deepest (and most productive) drilling
    • 42:23 42.
      ** after 2018 地熱.ppt
    • 42:29 43.
      Basics of a geothermal plant
    • 43:19 44.
      3 Types of geothermal power plants
    • 43:20 45.
      Problem with accessing the resource: Drilling costs
    • 43:21 46.
      Geothermal heat pumps are even simpler – no refrigerant needed
    • 43:22 47.
      Other cons besides high initial cost
    • 43:23 48.
      Is geothermal carbon free?
    • 43:24 49.
      Is geothermal really “renewable?”
    • 43:25 50.
      Possible environmental problem: enhanced earthquake activity – especially for the deepest (and most productive) drilling
    • 43:27 51.
      How serious is the earthquake danger?
    • 43:36 52.
      Possible environmental problem: enhanced earthquake activity – especially for the deepest (and most productive) drilling
    • 43:36 53.
      Is geothermal really “renewable?”
    • 43:37 54.
      Is geothermal carbon free?
    • 43:37 55.
      Other cons besides high initial cost
    • 43:37 56.
      Geothermal heat pumps are even simpler – no refrigerant needed
    • 43:40 57.
      Problem with accessing the resource: Drilling costs
    • 43:40 58.
      3 Types of geothermal power plants
    • 43:41 59.
      Basics of a geothermal plant
    • 43:52 60.
      3 Types of geothermal power plants
    • 43:53 61.
      Problem with accessing the resource: Drilling costs
    • 43:53 62.
      Geothermal heat pumps are even simpler – no refrigerant needed
    • 43:54 63.
      Other cons besides high initial cost
    • 43:54 64.
      Is geothermal carbon free?
    • 43:54 65.
      Is geothermal really “renewable?”
    • 43:55 66.
      Possible environmental problem: enhanced earthquake activity – especially for the deepest (and most productive) drilling
    • 43:56 67.
      How serious is the earthquake danger?
    • 43:58 68.
      韓國浦項地熱發電廠
    • 44:10 69.
      Slide 30
    • 44:16 70.
      The Resource
    • 44:18 71.
      Slide 30
    • 44:22 72.
      The Resource
    • 44:40 73.
      space heating
    • 45:16 74.
      Electricity Generation
    • 46:08 75.
      swimming pool
    • 46:40 76.
      Fish Farming
    • 46:56 77.
      Greenhouses
    • 47:05 78.
      Industrial Users
    • 47:20 79.
      Snow Melting
    • 47:51 80.
      台灣的地溫梯度及地熱資源
    • 48:25 81.
      不同的地熱能淬取方式比較
    • 48:27 82.
      淺層熱水型地熱生成模式
    • 48:29 83.
      淺層地熱發電技術特點
    • 49:01 84.
      EGS加強型地熱系統之關鍵技術
    • 49:05 85.
      Slide 44
    • 49:06 86.
      深層地熱與淺層地熱發電之差異
    • 49:17 87.
      Slide 44
    • 49:18 88.
      深層地熱與淺層地熱發電之差異
    • 49:22 89.
      Complex Energy Extraction from Geothermal resource (CEEG)
    • 50:09 90.
      Slide 47
    • 51:47 91.
      Slide 48
    • 52:16 92.
      清水地熱發電失敗原因
    • 53:03 93.
      Slide 50
    • 53:19 94.
      Slide 51
    • 53:22 95.
      Slide 50
    • 53:22 96.
      清水地熱發電失敗原因
    • 53:24 97.
      Slide 48
    • 53:25 98.
      Slide 47
    • 53:26 99.
      Complex Energy Extraction from Geothermal resource (CEEG)
    位置
    資料夾名稱
    李思賢
    發表人
    李思賢
    單位
    powercam.fju.edu.tw (root)
    建立
    2022-06-08 21:32:35
    最近修訂
    2022-06-08 22:53:18
    長度
    53:32
    1. 1.
      海洋保育
    2. 2.
      食品科學系 普通生物學
    3. 3.
      全人通識 環保、能源與生命科學