1 はじめに 25
1.1 調査の目的 25
1.2 市場定義 25
1.3 調査範囲 26
1.3.1 対象市場と地域範囲 26
1.3.2 対象年 27
1.3.3 対象範囲と除外範囲 27
1.3.4 対象通貨 28
1.3.5 対象単位 28
1.4 制限事項 28
1.5 利害関係者 28
2 調査方法 29
2.1 調査データ 29
2.1.1 二次データ 30
2.1.1.1 主要な二次情報源 30
2.1.1.2 二次情報源からの主要データ 31
2.1.2 一次データ 31
2.1.2.1 一次情報源からの主要データ 32
2.1.2.2 主要な一次参加者 32
2.1.2.3 専門家へのインタビューの内訳 33
2.1.2.4 業界の主要な洞察 33
2.2 ベース数値の算出 34
2.2.1 供給側分析 34
2.2.2 需要側分析 34
2.3 成長予測 34
2.3.1 供給側 34
2.3.2 需要側 35
2.4 市場規模の推定 35
2.4.1 ボトムアップ・アプローチ 36
2.4.2 トップダウン・アプローチ 36
2.5 データ・トライアングル 37
2.6 調査の前提条件 38
2.7 成長予測 38
2.8 リスク評価 39
2.9 因子分析 40
3 エグゼクティブサマリー 41
4 プレミアムインサイト 46
4.1 高密度ポリエチレンパイプ市場における魅力的な機会 46
4.2 高密度ポリエチレンパイプ市場:等級別 46
4.3 高密度ポリエチレンパイプ市場:エンドユーザー別 47
4.4 高密度ポリエチレンパイプ市場:主要国別 47
5 市場概要 48
5.1 はじめに 48
5.2 市場力学 49
5.2.1 推進要因 49
5.2.1.1 新興経済圏におけるインフラ開発を推進する政府の取り組み 49
5.2.1.2 製造技術の進歩と
産業の近代化 50
5.2.1.3 HDPEパイプの優れた耐腐食性および耐薬品性 50
5.2.1.4 動的水プロジェクトにおけるHDPEパイプの安定性および高い歪み耐性
51
5.2.2 阻害要因 51
5.2.2.1 パイプにおける温度制限および化学汚染 51
5.2.3 機会 52
5.2.3.1 持続可能性基準およびグリーンビルディング認証に適合するHDPEパイプ 52
5.2.4 課題 53
5.2.4.1 原材料の価格変動 53
5.3 ジェネレーティブAIの影響 53
5.3.1 はじめに 53
5.3.2 AIがHDPEパイプ市場に与える影響 54
5.4 業界トレンド 55
5.4.1 はじめに 55
5.4.2 顧客のビジネスに影響を与えるトレンドと混乱 55
5.5 バリューチェーン分析 56
5.5.1 原材料サプライヤー 57
5.5.2 メーカー 57
5.5.3 パイプ流通業者および小売業者 57
5.5.4 エンドユース産業 57
5.6 価格分析 58
5.6.1 地域別平均販売価格動向、2021年~2024年 58
5.6.2 グレード別平均販売価格動向、2021年~2024年 59
5.6.3 主要企業の等級別平均販売価格動向、2021年~2024年 59
5.7 投資環境と資金調達シナリオ 60
5.8 生態系分析 61
5.9 代替製品分析 63
5.9.1 代替パイプ市場 63
5.9.1.1 代替製品の特定 63
5.9.1.1.1 グラスファイバー 63
5.9.1.1.2 非可塑化ポリ塩化ビニル 63
5.9.1.1.3 コンクリートパイプ 63
5.10 技術分析 64
5.10.1 主要技術 64
5.10.2 補完技術 65
5.10.3 隣接技術 66
5.11 特許分析 66
5.11.1 方法論 67
5.11.2 世界各国で付与された特許 67
5.11.3 特許公開の傾向 67
5.11.4 洞察 68
5.11.5 特許の法的状況 68
5.11.6 管轄権分析 68
5.11.7 主な用途 69
5.11.8 主要特許の一覧 70
5.12 貿易分析 72
5.12.1 輸入シナリオ(HSコード391721) 73
5.12.2 輸出シナリオ(HSコード391721) 74
5.13 2025年の主要会議およびイベント 75
5.14 関税および規制の概観 76
5.14.1 HDPEパイプに関連する関税および規制 76
5.14.2 規制当局、政府機関、
76
5.14.3 HDPEパイプ市場に関連する規制 81
5.15 ポーターのファイブフォース分析 82
5.15.1 新規参入の脅威 83
5.15.2 代替品の脅威 83
5.15.3 供給業者の交渉力 83
5.15.4 購入業者の交渉力 84
5.15.5 競争の激しさ 84
5.16 主要な利害関係者と購買基準 85
5.16.1 購買プロセスにおける主要関係者 85
5.16.2 購買基準 86
5.17 マクロ経済の見通し 86
5.17.1 国別のGDP動向と予測 87
5.18 ケーススタディ分析 87
5.18.1 廃水インフラの最適化:KERR WOOD LEIDAL ENGINEERING社のHDPE強制給水プロジェクト 87
5.18.2 持続可能な水供給の確保:WL PLASTICS社のWaukeshaのGreat Water Allianceプロジェクトにおける役割 88
5.18.3 カリフォルニア州の環境保護のためのサンラファエル下水処理地区の革新的なHDPEパイプライン 89
6 HDPEパイプ市場、直径別 90
6.1 はじめに 91
6.2 <500 MM 92
6.2.1 大規模な上下水道管理システムにおける主な用途 92
6.3 500~1,000mm 93
6.3.1 中規模の流体処理プロジェクトに適した低設置・維持コスト 93
6.4 1,000~2,000 MM 93
6.4.1 工業用流体輸送用途における需要の高まり 93
6.5 2,000~3,000 MM 94
6.5.1 地盤の変動や地震の多い地域での設置に最適 94
6.6 >3,000 MM 94
6.6.1 コンクリートや鋼鉄と比較して、メンテナンスの軽減と耐用年数の延長を実現します。
7 HDPEパイプ市場、グレード別 95
7.1 はじめに 96
7.2 PE 80 97
7.2.1 環境ストレスを軽減する下水システムおよび灌漑プロジェクトにおける需要の増加 97
7.3 PE 100 98
7.3.1 外部負荷に耐え、劣化に抵抗するハイエンドの水およびガス配給システムの使用の増加 98
8 高密度ポリエチレンパイプ市場、用途別 99
8.1 はじめに 100
8.2 灌漑システム 101
8.2.1 農業環境における最小限のメンテナンスで実現する人件費削減と高密度ポリエチレンパイプの耐久性 101
8.3 下水および排水 101
8.3.1 先進の突き合わせ融着およびエレクトロフュージョン加工による漏水防止パイプ
101
8.4 化学処理 102
8.4.1 卓越した耐薬品性と過酷な環境への耐性 102
8.5 電融継手 102
8.5.1 耐久性や性能を損なうことなく、腐食性化学物質や高圧流体を処理 102
8.6 その他の用途 103
8.6.1 光ファイバーおよびケーブル 103
8.6.2 雨水管理システム 103
9 HDPEパイプ市場、エンドユーザー別 104
9.1 はじめに 105
9.2 自治体 107
9.2.1 豪雨時の雨水処理における雨水管理システムにおけるHDPEパイプの幅広い用途 107
9.3 農業 107
9.3.1 紫外線、化学物質、過酷な環境条件への耐性 107
9.4 石油&ガス 108
9.4.1 液体輸送および化学操作におけるHDPEパイプの需要の高まり
108
9.5 産業 108
9.5.1 設置が容易で輸送コストを削減する軽量パイプ設計 108
9.6 建設 109
9.6.1 漏れ防止&効率的な流通網&高負荷処理能力 109
9.7 その他のエンドユーザー 109
9.7.1 採掘 109
9.7.2 再生可能エネルギー 109
10 HDPEパイプ市場、地域別 111
10.1 はじめに 112
10.2 アジア太平洋地域 114
10.2.1 中国 120
10.2.1.1 低コストの労働力と安価な原材料の入手可能性が市場を牽引 120
10.2.2 日本 122
10.2.2.1 水道および下水システムの近代化が市場を牽引 122
10.2.3 インド 124
10.2.3.1 急速な都市化と工業化が成長を促進 124
10.2.4 韓国 126
10.2.4.1 スマートシティ開発プロジェクトの開始が市場を牽引 126
10.2.5 アジア太平洋地域その他 128
10.3 ヨーロッパ 130
10.3.1 ドイツ 136
10.3.1.1 水管理システムにおけるHDPEパイプの需要を牽引する洪水や自然災害のリスク 136
10.3.2 英国 138
10.3.2.1 HDPEパイプの需要を創出するグリーンインフラ計画 138
10.3.3 ロシア 140
10.3.3.1 国内産業の回復力と政府投資が市場を牽引 140
10.3.4 イタリア 142
10.3.4.1 水供給の課題に対処するHDPEパイプの多用途性と利点が需要を後押し 142
10.3.5 フランス 144
10.3.5.1 水不足への対応と給水システムの回復力の強化が市場を牽引 144
10.3.6 スペイン 145
10.3.6.1 給水システムの近代化がHDPEパイプの需要を押し上げる
145
10.3.7 ヨーロッパのその他地域 147
10.4 北米 149
10.4.1 米国 155
10.4.1.1 水インフラプロジェクトへの投資増加が市場を牽引 155
10.4.2 カナダ 157
10.4.2.1 電力業界への政府投資が成長を促進 157
10.4.3 メキシコ 159
10.4.3.1 人口増加が電力需要を促進 159
10.5 南米 161
10.5.1 ブラジル 166
10.5.1.1 HDPEパイプの採用を促進する主要インフラプロジェクト 166
10.5.2 アルゼンチン 168
10.5.2.1 水供給および衛生プロジェクトがHDPEパイプの需要を押し上げる
168
10.5.3 南米のその他地域 170
10.6 中東・アフリカ 171
10.6.1 GCC諸国 177
10.6.1.1 サウジアラビア 177
10.6.1.1.1 経済の多様化と公共サービスの向上によるHDPEパイプの需要拡大 177
10.6.1.2 アラブ首長国連邦 179
10.6.1.2.1 上水道配給および灌漑システムにおけるパイプの需要増が市場を牽引 179
10.6.1.3 その他GCC諸国 180
10.6.2 南アフリカ 182
10.6.2.1 農村部の給水事業イニシアティブがHDPEパイプの需要を押し上げる 182
10.6.3 その他中東・アフリカ 184
11 競合状況 186
11.1 はじめに 186
11.2 主要企業の戦略/勝利への権利、2020年~2024年 186
11.3 収益分析、2020年~2024年 188
11.4 市場シェア分析、2023年 189
11.5 企業評価マトリクス:主要企業、2023年 190
11.5.1 星評価 190
11.5.2 新興リーダー 190
11.5.3 普及している企業 190
11.5.4 参加者 190
11.5.5 企業規模:主要企業、2023年 192
11.5.5.1 企業規模 192
11.5.5.2 地域規模 193
11.5.5.3 グレード別 193
11.5.5.4 用途別 194
11.6 企業評価マトリクス:新興企業/中小企業、2023年 194
11.6.1 進歩的な企業 194
11.6.2 対応力のある企業 194
11.6.3 ダイナミックな企業 195
11.6.4 スタート地点 195
11.6.5 競合他社とのベンチマーク 196
11.6.5.1 主な新興企業/中小企業の詳細リスト 196
11.6.5.2 主な新興企業/中小企業の競合ベンチマーキング 197
11.7 ブランド/製品比較 198
11.8 企業評価および財務指標 199
11.9 競合シナリオ 200
11.9.1 製品発売 200
11.9.2 拡大 201
11.9.3 取引 202
12 企業プロフィール 204
JM EAGLE, INC.(米国)
CHINA LESSO(中国)
Supreme Industries Ltd.(インド)
Chevron Phillips Chemical Company LLC(米国)
AGRU(米国)
Dyka Group(オランダ)
Jain Irrigation Systems Ltd.(インド)
Astral Pipes(インド)
Advanced Drainage Systems(米国)
13 付録 246
13.1 ディスカッションガイド 246
13.2 KnowledgeStore: MarketsandMarketsの購読ポータル 249
13.3 カスタマイズオプション 251
13.4 関連レポート 251
13.5 執筆者詳細 252
Some of the most significant factors contributing to the growing demand for HDPE pipes in various parts of the world include urbanization and infrastructure development. With the rate of urbanization on the rise, there are more people shifting from their rural homes to the urban cities in search of better prospects and thus increasing the size of the urban areas with increased demands for proper infrastructure. It can be seen to be largely reflected in developing economies with high-speed industrialization and population growth creating stresses in their existing infrastructure systems.
It goes with the increasing requirement for basic utilities such as water supply, sewage, drainage, and gas distribution system due to urbanization. Increasing the urban population needs supportive high-quality infrastructure systems. HDPE pipes are fast becoming the preferred choice for such critical services because of their strength, flexibility, and easy installation. They are resistant to extreme environmental conditions, corrosion, and stress from high-pressure water systems and wastewater management.
The Governments are investing in infrastructure projects to meet the demand of rapidly growing urban areas. In many parts of the world, especially in developing countries, governments are undertaking large-scale initiatives to upgrade or replace outdated and inefficient piping systems. Traditional materials, such as concrete or metal pipes, have limitations in terms of longevity and maintenance costs, whereas HDPE pipes offer a more sustainable, cost-effective solution. Their lightness decreases the cost of transportation and installation. Their flexibility also makes them easier to install in complex environments, like densely populated urban areas.
The private sector, particularly construction and utilities industries, is driving demand for HDPE pipes. With the involvement of private players in public-private partnerships or large-scale development projects, the requirements are for materials that would serve for long-term value, low maintenance, and less risk of leaks or failures. HDPE pipes meet these criteria, which is why they are increasingly used in new infrastructure projects, including residential and commercial building developments, industrial pipelines, and smart city projects that integrate advanced technologies into water and waste management systems.
As cities grow, new challenges have to be met in terms of increasing water scarcity and the better treatment of sewage and waste. Therefore, installation of HDPE pipes becomes a necessity to ensure that there are efficient and sustainable water management systems that can fulfill the demands of the ever-increasing needs of a huge population in an urban area. Not to mention, with all these environmental concerns being brought into the limelight, recycling capabilities and energy conservation further give HDPE pipes an attraction to green infrastructure initiatives.
“The unpredictability in raw material prices discourage long-term investments in HDPE infrastructure”
One of the major restraint factors for the HDPE pipes market is the fluctuation in raw material prices, mainly the cost of polyethylene, which is the raw material used in the manufacturing process of these pipes. Polyethylene is a product from petroleum-based products, so the pricing is very sensitive to the changes in global oil prices. When the price of oil is high, that of polyethylene also pushes the costs of HDPE pipes to produce, leading to a significant increase in cost and sometimes prices to the consumers, hence creating less stable markets. This makes HDPE pipes less competitive than other alternatives such as PVC or steel, particularly for those companies that have price-sensitive operations or are bound by tight budget allocations. It will also discourage long-term investment in the HDPE infrastructure since it is usually unpredictable especially in emerging economies where costs play a key role when it comes to infrastructure. This is, therefore one of the key challenges hindering the growth of this market.
“Integration of technologies toward smarter, more connected infrastructure represents a crucial opportunity for growth in the HDPE pipe”
One of the great opportunities in the HDPE pipes market is smart pipeline technology integration mainly through sensor-based monitoring and IoT connectivity. The sensors installed within the HDPE pipes would allow real-time collection of data on key parameters like pressure, temperature, flow rate, and leakage. This smart monitoring will let the operators know about any leakage, blockage, or pipe damage even before the condition develops into costly failure or system collapse. This provides enough time for maintenance to take action and thus reduce the proportion of interfering repairs, while most importantly minimizing the operation downtimes especially when talking of critical infrastructures like water distribution, wastewater management, and gas pipelines. This connectivity allows information to be transmitted from the other end, and therefore the operators will have a real-time view of it and decisions will be taken in a relatively short time. It raises levels of efficiency and reliability in HDPE piping systems besides enhancing sustainability levels in usage for infrastructure in ways that would decrease losses through water and ensure pipes have longer lives. Integration of these technologies, as cities and industries are increasingly opting for smarter and more connected infrastructure, forms a significant opportunity for market growth in HDPE pipes in cities, large-scale industrial applications, and future infrastructure projects.
“Alternative materials like PVC (Polyvinyl Chloride), steel, and other composite pipes, offer similar benefits”
One of the major challenges for the HDPE pipes market could be the competition from alternative materials such as PVC, steel, and other composite pipes, giving similar benefits and sometimes cost propositions more attractive. Substitution by these alternatives could limit the growth potential of the market and adoption levels of HDPE pipes in many applications.
PVC pipes are widely applied in plumbing and sewage systems. Their application is mainly because of their low initial costs and easy installation. In other areas, PVC has remained the most preferred piping system due to its long-standing existence in the market and well-established standards. HDPE pipes, while being stronger and more resistant to corrosion, can be costlier; therefore, they tend to be less price-competitive in sensitive markets or smaller projects. In addition, due to the strength and pressure resistance, steel pipes have been preferred for applications in the oil and gas industry. Since high-strength HDPE pipes have essentially the same applications, reputation within such highly pressurized environments with steel can make it the attractive choice for some consumers.
Other composite pipes, like fiberglass, may be more appropriate for other applications, such as industrial pipelines, where temperature resistance and chemical exposure are more critical. These alternatives may also have perceived or actual advantages over HDPE, such as better performance in extreme environments or longer operational lifespans in certain cases.
“PE 100 continues to dominate the HDPE pipes market, further solidifying its role as the leading grade for a wide range of applications”
With regard to outstanding strength, toughness, and performance, HDPE pipes PE 100 grade tend to dominate the HDPE pipes market. They are hence, the most demanded pipe materials for critical applications. In contrast to PE 63 and PE 80, which are specifically designed for applications in which pressures are relatively low, PE 100 is specifically designed to withstand greater pressures and is therefore highly versatile in its use in various applications like water supply, gas distribution, and industrial piping systems. The prime benefit of PE 100 lies in its superior mechanical properties that improve resistance to stress, cracking, and wear and ensure a longer service life. This increased durability reduces the frequency of maintenance and replacement, making PE 100 pipes more cost-effective in the long run. Moreover, PE 100 pipes have a better resistance to aggressive chemicals and environmental stress cracking; they can perform well even when exposed to harsh conditions such as fluctuating temperatures, UV, and soil movement. This means that they are suitable for long-term infrastructure projects where strength and sustainability of the material are of prime importance. Apart from this, PE 100 has a higher strength-to-weight ratio, easier installation, and greater compatibility with fusion welding techniques, which makes it increasingly adopted in industries where strength, eco-friendliness, and cost-effectiveness are all critical. As the global infrastructure projects demand higher-performance materials, PE 100 remains the dominant player in the HDPE pipes market, further strengthening its position as the leading grade for a wide range of applications.
“Based on region, asia pacific was the largest market in 2023.”
Asia Pacific is the largest market for HDPE pipes, which is driven by several key factors connected with the rapid urbanization and infrastructure growth in the region along with industrial expansion. A growing population drives demand for essential infrastructure, including potable water systems, sewage networks, and industrial pipelines. There are rising urbanized populations who trigger heavy investment by government agencies and the private sectors for up-gradation and expansion of existing water and wastewater infrastructures and thereby making HDPE the preferred pipe material owing to its good strength, corrosion resistance properties, and low cost-effectiveness.
Industrialization is accelerating within the same region, such as agro-industry, construction, and manufacturing industry significantly relying on proper and functional piping systems. HDPE pipes, resistant to chemicals and abrasion, become especially appropriate for high demand applications like agricultural irrigation, process piping in industrial operations, among others. The region has also experienced increasing large-scale infrastructure projects like large water treatment plants, storm water management systems, and the gas distribution network that leverage the strength and longevity benefits of HDPE pipes.
More focus on sustainability and environmental factors is promoting the penetration of HDPE pipes in Asia Pacific because HDPE is a material that is lightweight, recyclable, and more environment-friendly compared to metal or concrete materials. This can be specifically seen in countries like China, India, and Southeast Asia, where growing environmental regulations and increasing demand for green infrastructure solutions drive the changeover towards HDPE pipes.
Asia Pacific would maintain pole position in HDPE pipes market as the governments encourage such investments. Further foreign investments will also lead to even higher market demands and longer-term advantages associated with the utilization of HDPE pipes; thus, Asia Pacific emerges at a distinct market leading position. Its unyielding demand for advanced infrastructural needs can guarantee a continued market dominance over the years ahead.
In the process of determining and verifying the market size for several segments and subsegments identified through secondary research, extensive primary interviews were conducted. A breakdown of the profiles of the primary interviewees is as follows:
• By Company Type: Tier 1 - 40%, Tier 2 - 35%, and Tier 3 - 25%
• By Designation: Manger-Level - 30%, Director Level - 20%, and Others - 50%
• By Region: North America - 20%, Europe -30%, Asia Pacific - 30%, Middle East & Africa - 10%, and South America-10%
The key players in this market are JM EAGLE, INC. (US), CHINA LESSO (China), Supreme Industries Ltd. (India), Chevron Phillips Chemical Company LLC (US), AGRU (US), Dyka Group (Netherlands), Jain Irrigation Systems Ltd. (India), Astral Pipes (India), Advanced Drainage Systems (US) etc.
Research Coverage
This report segments the market for the HDPE pipes on the basis of type, application and region. It provides estimations for the overall value of the market across various regions. A detailed analysis of key industry players has been conducted to provide insights into their business overviews, products & services, key strategies, new product launches, expansions, and partnerships associated with the market for the HDPE pipes market.
Key benefits of buying this report
This research report is focused on various levels of analysis — industry analysis (industry trends), market ranking analysis of top players, and company profiles, which together provide an overall view of the competitive landscape, emerging and high-growth segments of the HDPE pipes market; high-growth regions; and market drivers, restraints, opportunities, and challenges.
The report provides insights on the following pointers:
• Analysis of key drivers: HDPE pipes being ideal for water and wastewater management, irrigation, and gas distribution systems thus and most suitable for the construction.
• Market Penetration: Comprehensive information on the HDPE pipes offered by top players in the global HDPE Pipes market.
• Product Development/Innovation: Detailed insights on upcoming technologies, research & development activities, and new product launches in the HDPE pipes market.
• Market Development: Comprehensive information about lucrative emerging markets — the report analyzes the markets for the HDPE pipes across regions.
• Market Diversification: Exhaustive information about new products, untapped regions, and recent developments in the global HDPE pipes market.
• Competitive Assessment: In-depth assessment of market shares, strategies, products, and manufacturing capabilities of leading players in the HDPE pipes market.
❖ 世界のHDPEパイプ市場に関するよくある質問(FAQ) ❖
・HDPEパイプの世界市場規模は?
→MarketsandMarkets社は2024年のHDPEパイプの世界市場規模を198.4億米ドルと推定しています。
・HDPEパイプの世界市場予測は?
→MarketsandMarkets社は2029年のHDPEパイプの世界市場規模を256.8億米ドルと予測しています。
・HDPEパイプ市場の成長率は?
→MarketsandMarkets社はHDPEパイプの世界市場が2024年~2029年に年平均5.3%成長すると予測しています。
・世界のHDPEパイプ市場における主要企業は?
→MarketsandMarkets社は「JM EAGLE, INC.(米国)、CHINA LESSO(中国)、Supreme Industries Ltd.(インド)、Chevron Phillips Chemical Company LLC(米国)、AGRU(米国)、Dyka Group(オランダ)、Jain Irrigation Systems Ltd.(インド)、Astral Pipes(インド)、Advanced Drainage Systems(米国)など ...」をグローバルHDPEパイプ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。
