1 はじめに
1.1 調査目的 28
1.2 市場の定義 28
1.3 調査範囲 29
1.3.1 対象市場 29
1.3.2 考慮した年数 30
1.3.3 対象範囲と除外項目 30
1.3.3.1 ガス絶縁開閉装置市場: 包含と除外、
設備別 30
1.3.3.2 ガス絶縁開閉装置市場: 包含と除外(絶縁タイプ別) 30 1.3.3.2
絶縁タイプ別 30
1.3.3.3 ガス絶縁開閉装置市場: 包含と除外、
定格電圧別 31
1.3.3.4 ガス絶縁開閉装置市場: 包含と除外(構成別) 31 1.3.3.4 ガス絶縁開閉装置市場:包含と除外(構成別
構成別 31
1.3.3.5 ガス絶縁開閉装置市場: エンドユーザー別
エンドユーザー別 31
1.3.3.6 ガス絶縁開閉装置市場: 包含と除外、
地域別 32
1.4 通貨 32
1.5 考慮した単位 32
1.6 制限事項 32
1.7 利害関係者 32
1.8 変更点のまとめ 33
2 調査方法 34
2.1 調査データ 34
2.1.1 二次データ 35
2.1.1.1 二次資料からの主要データ 35
2.1.2 一次データ 36
2.1.2.1 一次インタビュー参加者リスト 36
2.1.2.2 主要な業界インサイト 36
2.1.2.3 一次資料からの主要データ 37
2.1.2.4 一次データの内訳 37
2.2 市場規模の推定方法 39
2.2.1 ボトムアップアプローチ 39
2.2.1.1 地域分析 40
2.2.1.2 国レベル分析 40
2.2.1.3 需要サイドの仮定 40
2.2.1.4 需要サイドの計算 40
2.2.2 トップダウンアプローチ 41
2.2.2.1 供給側の仮定 43
2.2.2.2 供給側の計算 43
2.3 市場の内訳とデータの三角測量 44
2.4 予測 44
2.5 リサーチの前提 45
2.6 リスク分析 45
2.7 調査の限界
3 エグゼクティブサマリー 46
4 プレミアムインサイト 51
4.1 ガス絶縁開閉装置市場におけるプレーヤーにとっての魅力的な機会 51
4.2 ガス絶縁開閉装置市場、地域別 51
4.3 アジア太平洋地域のガス絶縁開閉装置市場:設置場所別、国別(2023 年) 52
4.4 ガス絶縁開閉装置市場:設備別 52
4.5 ガス絶縁開閉装置市場:絶縁タイプ別 53
4.6 ガス絶縁開閉装置市場:定格電圧別 53
4.7 ガス絶縁開閉装置市場:構成別 54
4.8 ガス絶縁開閉装置市場:エンドユーザー別 54
5 市場の概要
5.1 はじめに
5.2 市場ダイナミクス
5.2.1 推進要因 56
5.2.1.1 SF6 フリーソリューションの採用 56
5.2.1.2 再生可能エネルギーへの移行 56
5.2.1.3 電気安全性と効率の向上 58
5.2.2 抑制要因 58
5.2.2.1 高い調達コスト 58
5.2.2.2 SF6 ガス排出に関する規制 59
5.2.3 機会 60
5.2.3.1 都市化と工業化の進展 60
5.2.3.2 スマートグリッドネットワークの拡大 61
5.2.4 課題 62
5.2.4.1 ガス絶縁開閉装置に関する運用上の課題 62
5.2.4.2 未組織部門との競争 63
5.3 ポーターのファイブフォース分析 64
5.3.1 代替品の脅威 65
5.3.2 供給者の交渉力 65
5.3.3 買い手の交渉力 65
5.3.4 新規参入の脅威 66
5.3.5 競合の激しさ 66
5.4 バリューチェーン分析 66
5.4.1 原材料供給業者/サプライヤー 67
5.4.2 部品メーカー 67
5.4.3 ガス絶縁開閉装置メーカー/組立業者 68
5.4.4 販売業者 68
5.4.5 販売後のサービス 68
5.5 投資と資金調達シナリオ 68
5.6 技術分析 69
5.6.1 主要技術 69
5.6.1.1 SF6フリー技術 69
5.6.1.2 デジタル監視制御システム 69
5.6.2 補足技術 70
5.6.2.1 モジュラー開閉装置 70
5.7 主要会議とイベント(2024~2025年) 70
5.8 エコシステムマッピング 71
5.9 特許分析 74
5.10 ケーススタディ分析 79
5.10.1 ノーザン・パワーグリッド社、電気ネットワークにAbb のSF6 フリースイッチギアを採用 79
5.10.2 改修により性能と監視能力が向上 79
5.10.3 シュナイダーエレクトリック社、SF6 フリーのグリーン GIS ソリューションを開発 81
5.10.4 モンゴル、ウランバートルの発電所向け 220kV GIS 設計 81
5.11 貿易分析 82
5.11.1 1,000ボルトを超える電圧の電気回路のスイッチングまたは保護用電気機器の貿易分析 82
5.11.1.1 輸入シナリオ 82
5.11.1.2 輸出シナリオ 83
5.11.2 1,000ボルト未満の電圧の電気回路の開閉用または保護用の電気機器に関する貿易分析 85
5.11.2.1 輸入シナリオ 85
5.11.2.2 輸出シナリオ 86
5.12 価格分析 88
5.12.1 平均販売価格の動向(地域別) 88
5.12.2 指標価格分析(定格電圧別) 88
5.13 関税と規制の状況 89
5.13.1 ガス絶縁開閉装置に関する関税 89
5.13.2 規制機関、政府機関、その他の組織 91
5.13.3 ガス絶縁開閉装置に関連する法規制 94
5.14 顧客のビジネスに影響を与えるトレンド/混乱 96
5.15 主要ステークホルダーと購買基準 98
5.15.1 購入プロセスにおける主要ステークホルダー 98
5.15.2 購入基準 99
5.16 ガス絶縁開閉装置市場におけるジェネレーティブ AI/AI の影響 100
5.16.1 ガス絶縁開閉装置市場におけるジェネレーティブ AI/AI アプリケーションの採用 100
5.16.2 エンドユーザー別ジェネレーティブ AI/AI の影響 101
5.16.3 ガス絶縁開閉装置市場における AI の影響(地域別) 101
5.17 ガス絶縁開閉装置市場のマクロ経済展望 101
6 ガス絶縁開閉装置市場:構成別 103
6.1 導入 104
6.2 ハイブリッド 105
6.2.1 持続可能な送電がセグメントを押し上げる 105
6.3 絶縁相 106
6.3.1 電気損失の削減が主要な促進要因 106
6.4 三相統合 107
6.4.1 再生可能エネルギー統合がセグメントを牽引 107
6.5 小型GIS 109
6.5.1 省スペース、高信頼性、高性能ソリューションへの需要がセグメントを後押し 109
7 ガス絶縁開閉装置市場:エンドユーザー別 111
7.1 導入 112
7.2 産業用 113
7.2.1 プロセス 115
7.2.1.1 高需要プロセス産業におけるエネルギー効率がセグメントを押し上げる 115
7.2.2 ディスクリート 115
7.2.2.1 自動車組立における精密さがセグメントを牽引 115
7.2.3 石油・ガス 116
7.2.3.1 油田におけるハイブリッドエネルギーシステムの促進が成長を後押し 116
7.2.4 その他の産業エンドユーザー 116
7.3 商業・施設 117
7.3.1 商業 119
7.3.1.1 高需要商業施設向けの信頼性の高い電力供給がセグメントを活性化 119
7.3.2 業務用 119
7.3.2.1 大規模教育キャンパスにおける集中電源管理 – 主な促進要因 119
7.3.3 インフラストラクチャー 119
7.3.3.1 コンパクトなGISによるスマートシティユーティリティの強化がセグメントを牽引 119
7.3.4 政府機関 120
7.3.4.1 公共事業におけるスマートユーティリティの利用が需要を押し上げる 120
7.4 電気ユーティリティ 120
7.4.1 発電 122
7.4.1.1 発電所における再生可能エネルギー統合がセグメント成長を促進 122
セグメントの成長を後押し 122
7.4.2 送電・配電 122
7.4.2.1 長距離送電におけるエネルギー損失の最小化が成長を促進 122
7.5 データセンター 123
7.5.1 非ハイパースケール 124
7.5.1.1 規制上の課題を克服するための支援 124
7.5.2 ハイパースケール 125
7.5.2.1 高度な監視機能の提供 125
7.6 アフターマーケット 125
7.6.1 システムの長期性能の確保 125
8 ガス絶縁開閉装置市場、設備別 127
8.1 導入 128
8.2 屋内 129
8.2.1 持続可能なエネルギー統合が需要を押し上げる 129
8.3 屋外 130
8.3.1 変電所や配電所での用途拡大が成長を促進 130
9 ガス絶縁開閉装置市場:絶縁タイプ別 132
9.1 導入 133
9.2 SF6 134
9.2.1 送配電における運用上の利点がセグメントを押し上げる 134
9.3 SF6 フリー 135
9.3.1 公益事業における採用意識の高まりがセグメントを牽引 135
10 ガス絶縁開閉装置市場(定格電圧別) 137
10.1 導入 138
10.2 5 kV まで 139
10.2.1 都市インフラプロジェクトでの広範な採用が成長を促進 139
10.3 6~15 kv 141
10.3.1 ユーティリティ変電所の近代化で重要な役割を果たす 141
10.4 16~27 kV 142
10.4.1 効率的なグリッド接続のための再生可能エネルギーとの統合 – 主要な推進要因 142
10.5 28~40.5 kV 143
10.5.1 厳しい環境条件への適応性がセグメントを押し上げる 143
10.6 40.6~73 kv 145
10.6.1 高電圧システムの運転安全性向上がセグメントを牽引 145
10.7 74~220kV 146
10.7.1 高電圧GISと再生可能エネルギーの統合が市場を押し上げる 146
10.8 220kV以上 147
10.8.1 長距離送電におけるエネルギー損失の最小化 147
11 ガス絶縁開閉装置市場(地域別) 149
11.1 はじめに 150
11.2 アジア太平洋地域 152
11.2.1 設置別 153
11.2.2 絶縁タイプ別 154
11.2.3 定格電圧別 155
11.2.4 構成別 155
11.2.5 エンドユーザー別 156
11.2.6 国別 157
11.2.6.1 中国 157
11.2.6.1.1 充電インフラの拡大が市場を後押し 157
11.2.6.2 インド 159
11.2.6.2.1 GIS統合スマートグリッドによる再生可能エネルギーの拡大が市場を牽引 159
11.2.6.3 日本 160
11.2.6.3.1 スマートコミュニティプロジェクトとエネルギー貯蔵ソリューションの重要な実現要因 160
11.2.6.4 韓国 161
11.2.6.4.1 低炭素経済への移行が市場を牽引 161
11.2.6.5 オーストラリア 163
11.2.6.5.1 老朽化したエネルギーインフラの近代化が市場を後押し 163
11.2.6.6 その他のアジア太平洋地域 164
11.3 欧州 166
11.3.1 設置別 167
11.3.2 絶縁タイプ別 168
11.3.3 定格電圧別 169
11.3.4 構成別 169
11.3.5 エンドユーザー別 170
11.3.6 国別 171
11.3.6.1 ドイツ 171
11.3.6.1.1 エネルギー転換への取り組みが市場を牽引 171
11.3.6.2 イギリス 173
11.3.6.2.1 都市開発プロジェクトと政府のインフラ構想が市場を押し上げる 173
11.3.6.3 イタリア 174
11.3.6.3.1 成長する産業部門が市場を牽引 174
11.3.6.4 スペイン 176
11.3.6.4.1 エネルギー転換のためのGIS活用が需要を創出 176
11.3.6.5 フランス 177
177 11.3.6.5.1 エネルギー転換と産業近代化 – 主要推進要因 177
11.3.6.6 その他のヨーロッパ 179
11.4 中東・アフリカ 181
11.4.1 設置場所別 182
11.4.2 絶縁タイプ別 182
11.4.3 定格電圧別 183
11.4.4 構成別 183
11.4.5 エンドユーザー別 184
11.4.6 国別 185
11.4.6.1 GCC 185
11.4.6.1.1 サウジアラビア 186
11.4.6.1.1 公共部門と民間部門における採用の増加が市場を押し上げる 186
11.4.6.1.2 アラブ首長国連邦 188
11.4.6.1.2.1 商業・施設プロジェクトの急増が需要を押し上げる 188
11.4.6.1.3 クウェート 189
11.4.6.1.3.1 信頼性が高くスペース効率の高い配電システムのニーズが需要を牽引 189
11.4.6.1.4 GCCのその他の地域 191
11.4.6.2 南アフリカ 192
11.4.6.2.1 発電プロジェクト数の増加が市場を押し上げる 192
11.4.6.3 その他の中東・アフリカ 194
11.5 北米 196
11.5.1 設置量別 196
11.5.2 絶縁タイプ別 197
11.5.3 定格電圧別 198
11.5.4 構成別 198
11.5.5 エンドユーザー別 199
11.5.6 国別 200
11.5.6.1 米国 200
11.5.6.1.1 送電網の近代化が市場を押し上げる 200
11.5.6.2 カナダ 202
11.5.6.2.1 主要都市のインフラ整備が市場を牽引 202
11.5.6.3 メキシコ 203
11.5.6.3.1 GISを活用した都市中心部の開発に対する政府の取り組みが成長を後押し 203
11.6 南米 204
11.6.1 設置量別 205
11.6.2 絶縁タイプ別 206
11.6.3 定格電圧別 206
11.6.4 構成別 207
11.6.5 エンドユーザー別 208
11.6.6 国別 208
11.6.6.1 ブラジル 209
11.6.6.1.1 持続可能性と二酸化炭素削減目標が市場を押し上げる 209
11.6.6.2 アルゼンチン 210
11.6.6.2.1 送電網の拡大が市場を牽引 210
11.6.6.3 その他の南米地域 212
12 競争環境 215
12.1 はじめに 215
12.2 主要プレーヤーの戦略/勝利への権利(2020~2024年) 215
12.3 市場シェア分析(2023年) 217
12.4 収益分析(2019-2023年) 220
12.5 企業評価と財務指標 221
12.6 製品タイプ別/地理的プレゼンス別比較 222
12.7 企業評価マトリックス:主要企業、2023年 223
12.7.1 スター企業 223
12.7.2 新興リーダー 223
12.7.3 浸透型プレーヤー 223
12.7.4 参加企業 223
12.7.5 企業フットプリント:主要プレーヤー、2023年 225
12.7.5.1 企業フットプリント 225
12.7.5.2 地域別フットプリント 226
12.7.5.3 設置フットプリント 227
12.7.5.4 断熱タイプのフットプリント 228
12.7.5.5 構成タイプのフットプリント 229
12.7.5.6 定格電圧フットプリント 230
12.7.5.7 エンドユーザーフットプリント 231
12.8 企業評価マトリクス:新興企業/SM(2023年) 232
12.8.1 進歩的企業 232
12.8.2 対応力のある企業 232
12.8.3 ダイナミックな企業 232
12.8.4 スターティングブロック 232
12.8.5 競争ベンチマーキング:新興企業/SM(2023年) 234
12.8.5.1 主要新興企業/SMEの詳細リスト 234
12.8.5.2 主要新興企業/SMEの競合ベンチマーキング 234
12.9 競争シナリオ 235
12.9.1 製品上市 235
12.9.2 取引 236
12.9.3 拡張 239
12.9.4 その他の開発 241
13 会社プロファイル 243
13.1 主要企業 243
ABB (Switzerland)
Siemens (Germany)
General Electric (US)
Schneider Electric (France)
Eaton (Ireland)
Mitsubishi Electric (Japan)
Nissin Electric (Japan)
CG Power and Industrial Solutions (India)
Fuji Electric (Japan)
Powell Industries (US)
Hyundai Electric & Energy Systems (South Korea)
Hitachi (Japan)
14 付録 315
14.1 業界専門家による洞察 315
14.2 ディスカッションガイド 315
14.3 Knowledgestore: Marketsandmarketsの購読ポータル 320
14.4 カスタマイズオプション 322
14.5 関連レポート 322
14.6 著者の詳細 323
This continuous growth in the gas insulated switchgear market is closely associated with the incremental increase in global energy demand due to the increased consumption of energy within the recent years and forms the primary catalyst for the rise in the surge of electricity demand. Among the major drivers, the industrial sector is poised to be the biggest driver of the increased demand, although the commercial, service, and residential sectors also play major significant contributions. The vigorous demand for energy sources creates fluctuations of energy supply and demand, bringing about changes in prices in the energy market. This price variability is mainly due to a combination of factors, such as the presence of good economic conditions, enough energy resources, and increased electrical power consumption. Also, there is the concern for energy management focusing on ways in order to properly manage the scenarios found, especially in the development of the Internet of Things (IoT) home and building automation applications. Hence, these factors highlight the urgent demand for gas-insulated switchgear that would facilitate monitoring and optimization of energy usage.
Sulfur hexafluoride (SF6) gas is placed in gas-tight metallic enclosures, where it acts as both an insulating and arc-quenching medium for all components carrying electrical current inside GIS substations. SF6 is non-flammable and does not deteriorate because it is a dry, inert gas. However, SF6 is fluorinated gases and classified as "greenhouse gases" (GHGs) with the highest potential for fueling global warming among all GHGs. Decreased SF6 emissions will hence affect how the Environmental Protection Agency of the United States examines SF6 in that country. This will lead to even stricter restrictions on SF6 use. Most of the regulations that may be applied to SF6 use are concerning the family of chemically similar fluorinated gases known as F-gases. More pronounced stringent regulations of F-gas will have a greater effect on SF6 usage, thereby affecting the market for gas-insulated switchgear.
“16 to 27 kV segment, by voltage rating, to be fastest growing market from 2024 to 2029.”
In the electrical infrastructure, GIS with a voltage rating of 16 to 27 kV has been popularized both in the distribution and industrial environment for their compact design, reliable performance, and minimum maintenance requirement. In addition, the increasing environmental concerns about sulfur hexafluoride (SF6), which is the insulator typically used, have garnered significant study over sustainable and more environmentally friendly alternatives for insulation, thus representing a growing industry tendency toward green GIS technology. In addition, according to the International Energy Agency, global energy consumption rose by an impressive 4.6% in 2022. These developments have induced extensive investment in the transmission infrastructure: India, China, the UAE, and Argentina are a few emerging economic giants driving such initiatives. This throws open wide prospects for the growth and consolidation of the market for gas-insulated switchgear in this particular sector.
“SF6 segment, by insulation type, to be the largest market from 2024 to 2029.”
Gas-insulated switchgear (GIS) uses sulfur hexafluoride (SF6) gas, which is a dielectric at moderate pressure, for insulation among phases as well as to the ground. All the high-voltage units such as conductors, circuit breaker, switches, voltage transformers, and current transformers are fitted within a metal casing that is full of SF6 gas. SF6-filled GIS systems have an enormous advantage in space-constrained environments where air-insulated systems would have delivered similar insulating attributes in much greater volume. SF6 is a non-toxic, inert, colorless, tasteless, odorless, and non-flammable gas with superior insulating and arcinterruption properties, making it the preferred choice for modern high-voltage circuit interruption, replacing older mediums like oil and air.
“Asia Pacific to be largest and fastest growing region in gas insulated switchgear market.”
The Asia Pacific is expected to lead the global market for gas insulated switchgear and is expected to achieve the highest Compound Annual Growth Rate (CAGR) in this region during 2023-2028. This can be attributed to the strong economic development and rapid growth of big Asian economies. Gas insulated switchgear is primarily used among the following end-users: industrial, commercial & institutional, electrical utilities, data centers and aftermarkets. The manufacturing sector in this region is expected to continue its market growth due to lower capital and labor costs. With the increased population both in China and India, the electricity generation requirement is escalating. Clean energy sources are widely adopted to efficiently meet the region's expanding energy requirements. These nations are actively modernizing their aging infrastructure to facilitate the integration of renewable energy sources into the national grid. Subsequently, the demand for gas insulated switchgear for electrical regulation and fault protection is expected to experience rapid growth is pushing the gas insulated switchgear market in Asia Pacific.
Breakdown of Primaries:
In-depth interviews with key industry participants, subject-matter experts, C-level executives of key market players, and industry consultants, among other experts, were conducted to obtain and verify critical qualitative and quantitative information, as well as to assess future market prospects.
The primary interviews were distributed as follows:
By Company Type: Tier 1-30%, Tier 2-55%, and Tier 3-15%
By Designation: C-Level-30%, D-Level-20%, and Others-50%
By Region: North America–18%, Europe–8%, Asia Pacific–60%, Middle East & Africa–10%, and South America–4%
Note: “Others” include sales managers, engineers, and regional managers
The tiers of the companies are defined based on their total revenue as of 2023: Tier 1: >USD 1 billion, Tier 2: USD 500 million–1 billion, and Tier 3:
The gas insulated switchgear market is largely dominated by well established global players. Major industrial control transformer market participants are ABB (Switzerland), Siemens (Germany), General Electric (US), Schneider Electric (France), Eaton (Ireland), Mitsubishi Electric (Japan), Nissin Electric (Japan), CG Power and Industrial Solutions (India), Fuji Electric (Japan), Powell Industries (US), Hyundai Electric & Energy Systems (South Korea), Hitachi (Japan), and many others.
Research Coverage:
The report provides a comprehensive definition, description, and forecast of the gas insulated switchgear market based on various parameters, including Insulation Type (SF6, SF6 Free), Installation (Indoor, Outdoor), Voltage Rating (Up to 5 kV, 6 to 15 kV, 16 to 27 kV, 28 to 40.5 kV, 40.6 to 73 kV, 74 to 220 kV, Above 220 kV), Configuration (Hybrid, Compact GIS, Integrated Three Phase, Isolated Phase), End-User (Industrial, Commercial & Institutional, Electrical Utilities, Data Centers, Aftermarket), and region (Asia Pacific, North America, Europe, Middle East and Africa, South America). The report provides an in-depth qualitative and quantitative analysis of the gas insulated switchgear market, including detailed thoroughness about the important market drivers, limitations, opportunities, and challenges. It also includes critical elements of the market like a competitive landscape study, market dynamics analysis, value-based market estimates, and future trends of the gas insulated switchgear market.
Key Benefits of Buying the Report
The report has been well-thought out to assist established industry leaders as well as newcomers who are emerging in the gas insulated switchgear market. It offers reliable revenue forecasts for the overall market and its individual sub-segments. This data is helpful for stakeholders as it allows them to gain a comprehensive understanding of the competitive landscape and go on to formulate effective market strategies for the businesses they are involved with. The report also acts as a medium of expression for the stakeholders to understand the prevailing market state. This is achieved by relating the market through the manifest insights that underline market drivers, limitations, challenges, and opportunities for growth. By embedding these insights, stakeholders make well-informed choices and remain updated about the evolving gas insulated switchgear industry dynamics.
• Analysis of key drivers (Adoption of SF6-free solutions, Transition toward Renewable Energy, Enhanced electrical safety and efficiency offered by gas insulated switchgear), restraints (High Procurement Costs affecting the growth of the gas-insulated switchgear, Regulatory restrictions on SF6 gas emissions), opportunities (Increasing urbanization and industrialization, Expansion of Smart Grid Networks), and challenges (Operational Challenges Associated with Gas Insulated Switchgear, Competition from the Unorganized Sector) influencing the growth of the gas insulated switchgear market.
• Product Development/ Innovation: The gas insulated switchgear market is in a constant state of evolution, with a major focus on product development and innovation. Some major industry players such as ABB, Siemens, Schneider Electric, and General Electric are moving ahead with a focus on broadening their product offerings to satisfy changing demands and environmental considerations. With growing environmental concerns related to sulfur hexafluoride (SF6), big strides in research and development are being implemented to usher in the creation and deployment of SF6-free alternatives. The aim is to retain all the performance aspects of SF6 while mitigating its adverse environmental footprint. There is also a marked trend toward increasing the 'intelligence' of gas insulated switchgear by using digital technology and IoT. It will integrate into complete remote monitoring, diagnostics, and even predictive maintenance. All these developments will take the reliability and efficiency to new levels in the equipment. Some other important developments in the market are hybrid gas insulated switchgears. Such switchgears combine the advantages of both gas and solid insulation. This offers an innovative solution toward higher reliability while simultaneously reducing environmental impact.
• Market Development: The gas insulated switchgear market is witnessing tremendous growth and evolution under the impetus of different factors. The thirst for electricity, primarily to satisfy global energy consumption trends, has led to the increasing renewable energy capacity; this has necessitated efficient and reliable distribution power solutions, where gas insulated switchgear is a clear favorite. It is compact in size and has fewer maintenance requirements, making it a more desirable choice for applications in constrained spaces. Besides, the eco-friendly types of insulating gases are increasing rapidly while trying to overcome the environmental issues created by sulfur hexafluoride (SF6). Moreover, the growth in the transmission infrastructure, especially in fast-developing economies, where enormous generation, distribution, and integration of clean energy sources are required to power escalated electricity needs. This market is poised for significant growth, especially in the Asia Pacific region, and is also responsive to new trends in energy as well as environmental issues.
• Market Diversification: As there are many diversifying factors, the gas insulated switchgear market is highly diversified. The market players are now focusing on developing and adopting environment-friendly, SF6-free insulation alternatives for environmental concerns. Thus, the market is diversifying across various kinds of insulations, ranging from traditional SF6 types to newer, emerging SF6-free options. Also, there is installation diversity as both indoor and outdoor GIS systems are establishing an increasing presence to cater to diverse application requirements. Voltage ratings are expanding to meet the range of diverse electrical infrastructure requirements. Configuration choices, such as hybrid, compact GIS, and isolated phase designs, offer end users diversity. This further diversification across the various end-user sectors-from industrial to commercial, institutional, electrical utilities, data centers, and aftermarket-strongly reflects the widespread utility of gas-insulated switchgear across divergent industries. Market diversification reflects industry efforts in response to evolving demands, sustainability objectives, and technological advancements.
• Competitive Assessment: A detailed analysis was carried out to examine the market penetration, growth patterns, and service offering of major players in the gas-insulated switchgear market. Key companies involved are: Eaton (Ireland), ABB (Switzerland), Schneider Electric (France), Siemens (Germany), Hitachi Ltd. (Japan), and many more. This analysis provides in-depth insights into the competitive position of the major players, approaches they apply to drive market growth, and services offered within the gas insulated switchgear segment.
1 INTRODUCTION 28
1.1 STUDY OBJECTIVES 28
1.2 MARKET DEFINITION 28
1.3 STUDY SCOPE 29
1.3.1 MARKETS COVERED 29
1.3.2 YEARS CONSIDERED 30
1.3.3 INCLUSIONS AND EXCLUSIONS 30
1.3.3.1 Gas-insulated switchgear market: Inclusions and exclusions,
by installation 30
1.3.3.2 Gas-insulated switchgear market: Inclusions and exclusions,
by insulation type 30
1.3.3.3 Gas-insulated switchgear market: Inclusions and exclusions,
by voltage rating 31
1.3.3.4 Gas-insulated switchgear market: Inclusions and exclusions,
by configuration 31
1.3.3.5 Gas-insulated switchgear market: Inclusions and exclusions,
by end user 31
1.3.3.6 Gas-insulated switchgear market: Inclusions and exclusions,
by region 32
1.4 CURRENCY CONSIDERED 32
1.5 UNITS CONSIDERED 32
1.6 LIMITATIONS 32
1.7 STAKEHOLDERS 32
1.8 SUMMARY OF CHANGES 33
2 RESEARCH METHODOLOGY 34
2.1 RESEARCH DATA 34
2.1.1 SECONDARY DATA 35
2.1.1.1 Key data from secondary sources 35
2.1.2 PRIMARY DATA 36
2.1.2.1 List of primary interview participants 36
2.1.2.2 Key industry insights 36
2.1.2.3 Key data from primary sources 37
2.1.2.4 Breakdown of primaries 37
2.2 MARKET SIZE ESTIMATION METHODOLOGY 39
2.2.1 BOTTOM-UP APPROACH 39
2.2.1.1 Regional analysis 40
2.2.1.2 Country-level analysis 40
2.2.1.3 Demand-side assumptions 40
2.2.1.4 Demand-side calculations 40
2.2.2 TOP-DOWN APPROACH 41
2.2.2.1 Supply-side assumptions 43
2.2.2.2 Supply-side calculations 43
2.3 MARKET BREAKDOWN AND DATA TRIANGULATION 44
2.4 FORECAST 44
2.5 RESEARCH ASSUMPTIONS 45
2.6 RISK ANALYSIS 45
2.7 RESEARCH LIMITATIONS 45
3 EXECUTIVE SUMMARY 46
4 PREMIUM INSIGHTS 51
4.1 ATTRACTIVE OPPORTUNITIES FOR PLAYERS IN GAS-INSULATED SWITCHGEAR MARKET 51
4.2 GAS-INSULATED SWITCHGEAR MARKET, BY REGION 51
4.3 GAS-INSULATED SWITCHGEAR MARKET IN ASIA PACIFIC, BY INSTALLATION AND COUNTRY, 2023 52
4.4 GAS-INSULATED SWITCHGEAR MARKET, BY INSTALLATION 52
4.5 GAS-INSULATED SWITCHGEAR MARKET, BY INSULATION TYPE 53
4.6 GAS-INSULATED SWITCHGEAR MARKET, BY VOLTAGE RATING 53
4.7 GAS-INSULATED SWITCHGEAR MARKET, BY CONFIGURATION 54
4.8 GAS-INSULATED SWITCHGEAR MARKET, BY END USER 54
5 MARKET OVERVIEW 55
5.1 INTRODUCTION 55
5.2 MARKET DYNAMICS 55
5.2.1 DRIVERS 56
5.2.1.1 Adoption of SF6-free solutions 56
5.2.1.2 Transition toward renewable energy 56
5.2.1.3 Enhanced electrical safety and efficiency 58
5.2.2 RESTRAINTS 58
5.2.2.1 High procurement costs 58
5.2.2.2 Regulatory restrictions on SF6 gas emissions 59
5.2.3 OPPORTUNITIES 60
5.2.3.1 Increasing urbanization and industrialization 60
5.2.3.2 Expansion of smart grid networks 61
5.2.4 CHALLENGES 62
5.2.4.1 Operational challenges associated with gas-insulated switchgear 62
5.2.4.2 Competition from unorganized sector 63
5.3 PORTER’S FIVE FORCES ANALYSIS 64
5.3.1 THREAT OF SUBSTITUTES 65
5.3.2 BARGAINING POWER OF SUPPLIERS 65
5.3.3 BARGAINING POWER OF BUYERS 65
5.3.4 THREAT OF NEW ENTRANTS 66
5.3.5 INTENSITY OF COMPETITIVE RIVALRY 66
5.4 VALUE CHAIN ANALYSIS 66
5.4.1 RAW MATERIAL PROVIDERS/SUPPLIERS 67
5.4.2 COMPONENT MANUFACTURERS 67
5.4.3 GAS-INSULATED SWITCHGEAR MANUFACTURERS/ASSEMBLERS 68
5.4.4 DISTRIBUTORS 68
5.4.5 POST-SALE SERVICES 68
5.5 INVESTMENT AND FUNDING SCENARIO 68
5.6 TECHNOLOGY ANALYSIS 69
5.6.1 KEY TECHNOLOGIES 69
5.6.1.1 SF6-free technology 69
5.6.1.2 Digital monitoring and control systems 69
5.6.2 COMPLEMENTARY TECHNOLOGIES 70
5.6.2.1 Modular switchgear 70
5.7 KEY CONFERENCES AND EVENTS, 2024–2025 70
5.8 ECOSYSTEM MAPPING 71
5.9 PATENT ANALYSIS 74
5.10 CASE STUDY ANALYSIS 79
5.10.1 NORTHERN POWERGRID COMPANY USES ABB’S SF6-FREE SWITCHGEAR FOR ELECTRICAL NETWORK 79
5.10.2 RETROFITTING IMPROVES PERFORMANCE AND MONITORING CAPABILITIES 79
5.10.3 SCHNEIDER ELECTRIC DEVELOPS SF6-FREE GREEN GIS SOLUTIONS 81
5.10.4 220 KV GIS DESIGN FOR GENERATION PLANT IN ULAANBAATAR, MONGOLIA 81
5.11 TRADE ANALYSIS 82
5.11.1 TRADE ANALYSIS OF ELECTRICAL APPARATUS FOR SWITCHING OR PROTECTING ELECTRICAL CIRCUITS WITH VOLTAGE EXCEEDING 1,000 VOLTS 82
5.11.1.1 Import scenario 82
5.11.1.2 Export scenario 83
5.11.2 TRADE ANALYSIS RELATED TO ELECTRICAL APPARATUS FOR SWITCHING OR PROTECTING ELECTRICAL CIRCUITS WITH VOLTAGE LOWER THAN 1,000 VOLTS 85
5.11.2.1 Import scenario 85
5.11.2.2 Export scenario 86
5.12 PRICING ANALYSIS 88
5.12.1 AVERAGE SELLING PRICE TREND, BY REGION 88
5.12.2 INDICATIVE PRICING ANALYSIS, BY VOLTAGE RATING 88
5.13 TARIFFS AND REGULATORY LANDSCAPE 89
5.13.1 TARIFFS RELATED TO GAS-INSULATED SWITCHGEAR 89
5.13.2 REGULATORY BODIES, GOVERNMENT AGENCIES, AND OTHER ORGANIZATIONS 91
5.13.3 CODES AND REGULATIONS RELATED TO GAS-INSULATED SWITCHGEAR 94
5.14 TRENDS/DISRUPTIONS IMPACTING CUSTOMER BUSINESS 96
5.15 KEY STAKEHOLDERS AND BUYING CRITERIA 98
5.15.1 KEY STAKEHOLDERS IN BUYING PROCESS 98
5.15.2 BUYING CRITERIA 99
5.16 IMPACT OF GENERATIVE AI/AI IN GAS-INSULATED SWITCHGEAR MARKET 100
5.16.1 ADOPTION OF GENERATIVE AI/AI APPLICATIONS IN GAS-INSULATED SWITCHGEAR MARKET 100
5.16.2 IMPACT OF GENERATIVE AI/AI BY END USER 101
5.16.3 IMPACT OF AI IN GAS-INSULATED SWITCHGEAR MARKET, BY REGION 101
5.17 MACROECONOMIC OUTLOOK FOR GAS-INSULATED SWITCHGEAR MARKET 101
6 GAS-INSULATED SWITCHGEAR MARKET, BY CONFIGURATION 103
6.1 INTRODUCTION 104
6.2 HYBRID 105
6.2.1 SUSTAINABLE POWER TRANSMISSION TO BOOST SEGMENT 105
6.3 ISOLATED-PHASE 106
6.3.1 REDUCTION IN ELECTRICAL LOSSES – KEY DRIVER 106
6.4 INTEGRATED THREE-PHASE 107
6.4.1 RENEWABLE ENERGY INTEGRATION TO DRIVE SEGMENT 107
6.5 COMPACT GIS 109
6.5.1 DEMAND FOR SPACE-EFFICIENT, RELIABLE, AND HIGH-PERFORMANCE SOLUTIONS TO BOOST SEGMENT 109
7 GAS-INSULATED SWITCHGEAR MARKET, BY END USER 111
7.1 INTRODUCTION 112
7.2 INDUSTRIAL 113
7.2.1 PROCESS 115
7.2.1.1 Energy efficiency in high-demand process industries to boost segment 115
7.2.2 DISCRETE 115
7.2.2.1 Precision in automotive assembly to drive segment 115
7.2.3 OIL & GAS 116
7.2.3.1 Facilitation of hybrid energy systems in oilfields to boost growth 116
7.2.4 OTHER INDUSTRIAL END USERS 116
7.3 COMMERCIAL & INSTITUTIONAL 117
7.3.1 COMMERCIAL 119
7.3.1.1 Reliable power supply for high-demand commercial facilities to fuel segment 119
7.3.2 INSTITUTIONAL 119
7.3.2.1 Centralized power management for large educational campuses – key driver 119
7.3.3 INFRASTRUCTURE 119
7.3.3.1 Enhancement of Smart City utilities with compact GIS to drive segment 119
7.3.4 GOVERNMENT 120
7.3.4.1 Use of smart utilities in public sector projects to boost demand 120
7.4 ELECTRICAL UTILITIES 120
7.4.1 GENERATION 122
7.4.1.1 Renewable energy integration in power plants to boost
segment growth 122
7.4.2 TRANSMISSION & DISTRIBUTION 122
7.4.2.1 Minimal energy loss in long-distance transmission to fuel growth 122
7.5 DATA CENTERS 123
7.5.1 NON-HYPERSCALE 124
7.5.1.1 Help overcome regulatory challenges 124
7.5.2 HYPERSCALE 125
7.5.2.1 Offer advanced monitoring capabilities 125
7.6 AFTERMARKET 125
7.6.1 ENSURES LONG-TERM PERFORMANCE OF SYSTEMS 125
8 GAS-INSULATED SWITCHGEAR MARKET, BY INSTALLATION 127
8.1 INTRODUCTION 128
8.2 INDOOR 129
8.2.1 SUSTAINABLE ENERGY INTEGRATION TO BOOST DEMAND 129
8.3 OUTDOOR 130
8.3.1 INCREASING APPLICATION IN SUBSTATIONS AND SWITCHYARDS TO PROPEL GROWTH 130
9 GAS-INSULATED SWITCHGEAR MARKET, BY INSULATION TYPE 132
9.1 INTRODUCTION 133
9.2 SF6 134
9.2.1 OPERATIONAL BENEFITS IN POWER TRANSMISSION AND DISTRIBUTION TO BOOST SEGMENT 134
9.3 SF6-FREE 135
9.3.1 GROWING AWARENESS FOR ADOPTION IN UTILITIES TO DRIVE SEGMENT 135
10 GAS-INSULATED SWITCHGEAR MARKET, BY VOLTAGE RATING 137
10.1 INTRODUCTION 138
10.2 UP TO 5 KV 139
10.2.1 WIDE-SCALE ADOPTION IN URBAN INFRASTRUCTURE PROJECTS TO FUEL GROWTH 139
10.3 6 TO 15 KV 141
10.3.1 PLAY CRUCIAL ROLE IN UTILITY SUBSTATION MODERNIZATION 141
10.4 16 TO 27 KV 142
10.4.1 INTEGRATION WITH RENEWABLE ENERGY FOR EFFICIENT GRID CONNECTION – KEY DRIVER 142
10.5 28 TO 40.5 KV 143
10.5.1 ADAPTABILITY TO HARSH ENVIRONMENTAL CONDITIONS TO BOOST SEGMENT 143
10.6 40.6 TO 73 KV 145
10.6.1 SEGMENT DRIVEN BY ENHANCED OPERATIONAL SAFETY IN HIGH-VOLTAGE SYSTEMS 145
10.7 74 TO 220 KV 146
10.7.1 INTEGRATION OF RENEWABLE ENERGY WITH HIGH-VOLTAGE GIS TO BOOST MARKET 146
10.8 ABOVE 220 KV 147
10.8.1 MINIMAL ENERGY LOSS IN LONG-DISTANCE POWER TRANSMISSION 147
11 GAS-INSULATED SWITCHGEAR MARKET, BY REGION 149
11.1 INTRODUCTION 150
11.2 ASIA PACIFIC 152
11.2.1 BY INSTALLATION 153
11.2.2 BY INSULATION TYPE 154
11.2.3 BY VOLTAGE RATING 155
11.2.4 BY CONFIGURATION 155
11.2.5 BY END USER 156
11.2.6 BY COUNTRY 157
11.2.6.1 China 157
11.2.6.1.1 Expansion of charging infrastructure to boost market 157
11.2.6.2 India 159
11.2.6.2.1 Scaling of renewable energy with GIS-integrated smart grids to drive market 159
11.2.6.3 Japan 160
11.2.6.3.1 Critical enabler of smart community projects and energy storage solutions 160
11.2.6.4 South Korea 161
11.2.6.4.1 Transition to low-carbon economy to drive market 161
11.2.6.5 Australia 163
11.2.6.5.1 Modernization of aging energy infrastructure to boost market 163
11.2.6.6 Rest of Asia Pacific 164
11.3 EUROPE 166
11.3.1 BY INSTALLATION 167
11.3.2 BY INSULATION TYPE 168
11.3.3 BY VOLTAGE RATING 169
11.3.4 BY CONFIGURATION 169
11.3.5 BY END USER 170
11.3.6 BY COUNTRY 171
11.3.6.1 Germany 171
11.3.6.1.1 Energy transition efforts to drive market 171
11.3.6.2 UK 173
11.3.6.2.1 Urban development projects and government infrastructure initiatives to boost market 173
11.3.6.3 Italy 174
11.3.6.3.1 Market driven by growing industrial sector 174
11.3.6.4 Spain 176
11.3.6.4.1 Utilization of GIS for energy transition to generate demand 176
11.3.6.5 France 177
11.3.6.5.1 Energy transition and industrial modernization – key drivers 177
11.3.6.6 Rest of Europe 179
11.4 MIDDLE EAST & AFRICA 181
11.4.1 BY INSTALLATION 182
11.4.2 BY INSULATION TYPE 182
11.4.3 BY VOLTAGE RATING 183
11.4.4 BY CONFIGURATION 183
11.4.5 BY END USER 184
11.4.6 BY COUNTRY 185
11.4.6.1 GCC 185
11.4.6.1.1 Saudi Arabia 186
11.4.6.1.1.1 Increased adoption in public and private sectors to boost market 186
11.4.6.1.2 UAE 188
11.4.6.1.2.1 Rapid growth in commercial and institutional projects boost demand 188
11.4.6.1.3 Kuwait 189
11.4.6.1.3.1 Need for reliable, space-efficient power distribution systems to drive demand 189
11.4.6.1.4 Rest of GCC 191
11.4.6.2 South Africa 192
11.4.6.2.1 Rise in number of power generation projects to boost market 192
11.4.6.3 Rest of Middle East & Africa 194
11.5 NORTH AMERICA 196
11.5.1 BY INSTALLATION 196
11.5.2 BY INSULATION TYPE 197
11.5.3 BY VOLTAGE RATING 198
11.5.4 BY CONFIGURATION 198
11.5.5 BY END USER 199
11.5.6 BY COUNTRY 200
11.5.6.1 US 200
11.5.6.1.1 Modernization of power grid to boost market 200
11.5.6.2 Canada 202
11.5.6.2.1 Infrastructure upgrades across major cities to drive market 202
11.5.6.3 Mexico 203
11.5.6.3.1 Government initiatives to develop urban centers with GIS to boost growth 203
11.6 SOUTH AMERICA 204
11.6.1 BY INSTALLATION 205
11.6.2 BY INSULATION TYPE 206
11.6.3 BY VOLTAGE RATING 206
11.6.4 BY CONFIGURATION 207
11.6.5 BY END USER 208
11.6.6 BY COUNTRY 208
11.6.6.1 Brazil 209
11.6.6.1.1 Sustainability and carbon reduction goals to boost market 209
11.6.6.2 Argentina 210
11.6.6.2.1 Focus on expansion of electricity grid to drive market 210
11.6.6.3 Rest of South America 212
12 COMPETITIVE LANDSCAPE 215
12.1 INTRODUCTION 215
12.2 KEY PLAYER STRATEGIES/RIGHT TO WIN, 2020–2024 215
12.3 MARKET SHARE ANALYSIS, 2023 217
12.4 REVENUE ANALYSIS, 2019–2023 220
12.5 COMPANY VALUATION AND FINANCIAL METRICS 221
12.6 PRODUCT TYPE-/GEOGRAPHIC PRESENCE-WISE COMPARISON 222
12.7 COMPANY EVALUATION MATRIX: KEY PLAYERS, 2023 223
12.7.1 STARS 223
12.7.2 EMERGING LEADERS 223
12.7.3 PERVASIVE PLAYERS 223
12.7.4 PARTICIPANTS 223
12.7.5 COMPANY FOOTPRINT: KEY PLAYERS, 2023 225
12.7.5.1 Company footprint 225
12.7.5.2 Region footprint 226
12.7.5.3 Installation footprint 227
12.7.5.4 Insulation type footprint 228
12.7.5.5 Configuration type footprint 229
12.7.5.6 Voltage rating footprint 230
12.7.5.7 End user footprint 231
12.8 COMPANY EVALUATION MATRIX: STARTUPS/SMES, 2023 232
12.8.1 PROGRESSIVE COMPANIES 232
12.8.2 RESPONSIVE COMPANIES 232
12.8.3 DYNAMIC COMPANIES 232
12.8.4 STARTING BLOCKS 232
12.8.5 COMPETITIVE BENCHMARKING: STARTUPS/SMES, 2023 234
12.8.5.1 Detailed list of key startups/SMEs 234
12.8.5.2 Competitive benchmarking of key startups/SMEs 234
12.9 COMPETITIVE SCENARIO 235
12.9.1 PRODUCT LAUNCHES 235
12.9.2 DEALS 236
12.9.3 EXPANSIONS 239
12.9.4 OTHER DEVELOPMENTS 241
13 COMPANY PROFILES 243
13.1 KEY PLAYERS 243
13.1.1 ABB 243
13.1.1.1 Business overview 243
13.1.1.2 Products/Solutions/Services offered 244
13.1.1.3 Recent developments 246
13.1.1.3.1 Product launches 246
13.1.1.3.2 Deals 246
13.1.1.3.3 Expansions 248
13.1.1.3.4 Other developments 248
13.1.1.4 MnM view 249
13.1.1.4.1 Key strengths 249
13.1.1.4.2 Strategic choices 249
13.1.1.4.3 Weaknesses & competitive threats 249
13.1.2 SCHNEIDER ELECTRIC 250
13.1.2.1 Business overview 250
13.1.2.2 Products/Solutions/Services offered 251
13.1.2.3 Recent developments 253
13.1.2.3.1 Product launches 253
13.1.2.3.2 Expansions 253
13.1.2.4 MnM view 255
13.1.2.4.1 Key strengths 255
13.1.2.4.2 Strategic choices 255
13.1.2.4.3 Weaknesses & competitive threats 255
13.1.3 HITACHI, LTD. 256
13.1.3.1 Business overview 256
13.1.3.2 Products/Solutions/Services offered 257
13.1.3.3 Recent developments 258
13.1.3.3.1 Deals 258
13.1.3.4 MnM view 259
13.1.3.4.1 Key strengths 259
13.1.3.4.2 Strategic choices 260
13.1.3.4.3 Weaknesses & competitive threats 260
13.1.4 SIEMENS 261
13.1.4.1 Business overview 261
13.1.4.2 Products/Solutions/Services offered 262
13.1.4.3 Recent developments 264
13.1.4.3.1 Deals 264
13.1.4.3.2 Other developments 265
13.1.4.4 MnM view 265
13.1.4.4.1 Key strengths 265
13.1.4.4.2 Strategic choices 266
13.1.4.4.3 Weaknesses & competitive threats 266
13.1.5 EATON 267
13.1.5.1 Business overview 267
13.1.5.2 Products/Solutions/Services offered 268
13.1.5.3 Recent developments 269
13.1.5.3.1 Product launches 269
13.1.5.3.2 Deals 269
13.1.5.3.3 Expansions 270
13.1.5.4 MnM view 270
13.1.5.4.1 Key strengths 270
13.1.5.4.2 Strategic choices 270
13.1.5.4.3 Weaknesses & competitive threats 270
13.1.6 GENERAL ELECTRIC COMPANY 271
13.1.6.1 Business overview 271
13.1.6.2 Products/Solutions/Services offered 272
13.1.6.3 Recent developments 273
13.1.6.3.1 Product launches 273
13.1.6.3.2 Deals 273
13.1.6.3.3 Other developments 274
13.1.6.3.4 Expansions 275
13.1.7 MITSUBISHI ELECTRIC CORPORATION 276
13.1.7.1 Business overview 276
13.1.7.2 Products/Solutions/Services offered 277
13.1.7.3 Recent developments 279
13.1.7.3.1 Expansions 279
13.1.8 HD HYUNDAI ELECTRIC CO., LTD. 280
13.1.8.1 Business overview 280
13.1.8.2 Products/Solutions/Services offered 281
13.1.8.3 Recent developments 281
13.1.8.3.1 Deals 281
13.1.9 FUJI ELECTRIC CO., LTD. 282
13.1.9.1 Business overview 282
13.1.9.2 Products/Solutions/Services offered 284
13.1.9.3 Recent developments 285
13.1.9.3.1 Expansions 285
13.1.9.3.2 Other developments 285
13.1.10 CG POWER AND INDUSTRIAL SOLUTIONS LTD. 286
13.1.10.1 Business overview 286
13.1.10.2 Products/Solutions/Services offered 287
13.1.10.3 Recent developments 288
13.1.10.3.1 Deals 288
13.1.11 NISSIN ELECTRIC CO., LTD. 289
13.1.11.1 Business overview 289
13.1.11.2 Products/Solutions/Services offered 290
13.1.11.3 Recent developments 292
13.1.11.3.1 Expansions 292
13.1.12 MEIDENSHA CORPORATION 293
13.1.12.1 Business overview 293
13.1.12.2 Products/Solutions/Services offered 294
13.1.13 POWELL INDUSTRIES 296
13.1.13.1 Business overview 296
13.1.13.2 Products/Solutions/Services offered 297
13.1.14 HYOSUNG HEAVY INDUSTRIES 298
13.1.14.1 Business overview 298
13.1.14.2 Products/Solutions/Services offered 299
13.1.14.3 Recent developments 299
13.1.14.3.1 Product launches 299
13.1.15 TOSHIBA ENERGY SYSTEMS & SOLUTIONS CORPORATION 300
13.1.15.1 Business overview 300
13.1.15.2 Products/Solutions/Services offered 301
13.1.15.3 Recent developments 302
13.1.15.3.1 Other developments 302
13.1.15.3.2 Expansions 302
13.1.16 G&W ELECTRIC 303
13.1.16.1 Products/Solutions/Services offered 303
13.1.16.2 Recent developments 304
13.1.16.2.1 Deals 304
13.1.17 HENAN PINGGAO ELECTRIC CO., LTD. 305
13.1.17.1 Products/Solutions/Services offered 305
13.1.18 XIAN XD SWITCHGEAR ELECTRIC CO., LTD 307
13.1.18.1 Products/Solutions/Services offered 307
13.1.19 SWITCHGEAR COMPANY 308
13.1.19.1 Products/Solutions/Services offered 308
13.1.20 SIEYUAN ELECTRIC CO., LTD. 310
13.1.20.1 Products/Solutions/Services offered 310
13.2 OTHER PLAYERS 312
13.2.1 ELECKTROBUDOWA SP. Z O.O. 312
13.2.2 CHINT GROUP 312
13.2.3 SEL S.P.A. 313
13.2.4 ILJIN ELECTRIC 313
13.2.5 ZHEJIANG VOLCANO ELECTRICAL TECHNOLOGY CO., LTD 314
14 APPENDIX 315
14.1 INSIGHTS FROM INDUSTRY EXPERTS 315
14.2 DISCUSSION GUIDE 315
14.3 KNOWLEDGESTORE: MARKETSANDMARKETS’ SUBSCRIPTION PORTAL 320
14.4 CUSTOMIZATION OPTIONS 322
14.5 RELATED REPORTS 322
14.6 AUTHOR DETAILS 323
❖ 世界のガス絶縁開閉装置市場に関するよくある質問(FAQ) ❖
・ガス絶縁開閉装置の世界市場規模は?
→MarketsandMarkets社は2024年のガス絶縁開閉装置の世界市場規模を249.3億米ドルと推定しています。
・ガス絶縁開閉装置の世界市場予測は?
→MarketsandMarkets社は2029年のガス絶縁開閉装置の世界市場規模を335.3億米ドルと予測しています。
・ガス絶縁開閉装置市場の成長率は?
→MarketsandMarkets社はガス絶縁開閉装置の世界市場が2024年~2029年に年平均6.1%成長すると予測しています。
・世界のガス絶縁開閉装置市場における主要企業は?
→MarketsandMarkets社は「ABB (Switzerland), Siemens (Germany), General Electric (US), Schneider Electric (France), Eaton (Ireland), Mitsubishi Electric (Japan), Nissin Electric (Japan), CG Power and Industrial Solutions (India), Fuji Electric (Japan), Powell Industries (US), Hyundai Electric & Energy Systems (South Korea), Hitachi (Japan)など ...」をグローバルガス絶縁開閉装置市場の主要企業として認識しています。
※上記FAQの市場規模、市場予測、成長率、主要企業に関する情報は本レポートの概要を作成した時点での情報であり、納品レポートの情報と少し異なる場合があります。
