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ロシアと世界の直接還元製鉄 (DRI):生産量、市場、将来予測

Direct Reduced Iron (DRI) in Russia and world: Production, Market and Forecast (2nd edition)

発行 INFOMINE Research Group 商品コード 646051
出版日 ページ情報 英文
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ロシアと世界の直接還元製鉄 (DRI):生産量、市場、将来予測 Direct Reduced Iron (DRI) in Russia and world: Production, Market and Forecast (2nd edition)
出版日: 2018年05月28日 ページ情報: 英文
概要

当レポートでは、ロシア国内および世界全体における直接還元製鉄 (DRI) 市場の概況と見通しについて分析し、DRIの定義・特性や主な製造プロセス、世界各地でのDRIの生産・価格動向、貿易・消費構造、製鉄業・鉄製品市場全体における位置づけ、今後の市場動向の見通しなどを調査しております。

注記

イントロダクション

第1章 直接還元製鉄 (DRI):生産工程の現状 - 金属化ペレット、HBI (hot briquetted iron:外販用還元鉄) など

第2章 DRIの主な生産プロセスの特徴と品質

  • MIDREXプロセス
  • HYL ZR プロセス
  • ITmk3プロセス
  • COREXプロセス
  • HISmeltプロセス

第3章 DRIの品質要件 (化学的構成・粒度測定値・その他の指標):メーカー別の相違点

第4章 世界各国のDRI/HBI生産量の動向 (過去11年間分):主要国・主要メーカーの場合

  • メキシコ
  • インド
  • ロシア
  • イラン

第5章 設備建設のための新規プロジェクト

第6章 DRIの対外貿易動向 (HBIを含む、過去11年間分)

  • 対外輸出額の動向:主な輸出国の場合
  • 対外輸入額の動向:主な輸入国の場合

第7章 DRIの価格分析:価格動向の将来予測 (2025年まで)

第8章 世界のDRI消費量の予測 (2025年まで):主な決定要因と需要家

第9章 鉄製品の消費構造における、DRIの役割と位置付け

付録 1. DRIメーカーのコンタクト情報

付録 2. CIS諸国における、DRIの利用経験のある冶金企業の一覧

目次

This report is the second edition of the research of the market of directly reduced iron (DRI) .

The purpose of the study is to analyze the market of directly reduced iron / HBI in the world, which covers the period 2007-2017.

The peculiarity of this report is the analysis of the production of DRI in Russia, the provision of information on the main processes of obtaining an DRI.

The object of the study is directly reduced iron.

This paper is a desk study. As sources of information, the data of the Federal Service of State Statistics of the Russian Federation (Rosstat), statistics on rail transportation of the Russian Federation, and the Federal Customs Service of the Russian Federation were used; UN database, InfoMine database, Midrex data. Also, data from the sectoral and regional press, annual and quarterly reports of securities issuers, Internet sites of companies manufacturing and consuming DRI were also involved.

Chronological framework of the study: 2007-2017.

Geography of the study: the world as a whole, Russia, India, Mexico.

Scope of the research: the report consists of 9 parts, contains 97 pages, including 33 tables, 24 figures and 2 annexes.

The first chapter is devoted to the analysis of the current state of production of directly reduced iron with the identification of the main processes of its release, the form of the product. Also in the chapter are briefly presented the main directions of the development of the technology for the production of the LWP.

The second chapter presents the characteristics of the main processes for the production of the LWR, in particular, Midrex (Midrex®, MXCOL®, HOTLINK®) and HYL / Energiron (HYL ZR). In addition, the characteristics of the technology for the production of reduced iron by liquid-phase reduction processes and the "hybrid" process (ITmk3, COREX, HIsmelt) are presented.

In the third chapter, the requirements for the quality of the HPV of some manufacturers are presented.

The fourth chapter is devoted to the analysis of the production of hot-water liquids in the world by main technological processes and countries in 2007-2017. The main regions and countries for the production of VGRs, as well as major manufacturing companies, are identified. Analyzed production of PVC in India, Mexico, Russia and Iran.

In the fifth chapter, new projects for the production of liquid water are presented, data are given on the economics of projects, including investments, etc.

In the sixth chapter, the foreign trade of liquid domestic hot-water in the world in the period 2007-2017 is analyzed. It is noted that Russia has come out on top in terms of deliveries of UWW to the world market.

In the seventh chapter of the study, the prices for UWW in the world are analyzed, the forecast of the level of prices for HBI for the period up to 2025 is presented.

In the eighth chapter of the study, data are presented on the volumes of consumption of liquid domestic hot water in the world and in individual countries, the main drivers influencing the demand for this type of product are identified, and some of the largest consumers of the liquid domestic waste are identified.

In the ninth chapter of the study, the role and place of the UWW in the structure of iron-containing raw materials consumption during steelmaking is shown.

In the appendix to the report, the contact details of some market participants of the UWW and CIS metallurgical enterprises having experience in the use of metallized raw materials in the production of steel are given.

The target audience of the study:

  • participants of the PVC market
  • producers and consumers;
  • potential investors.

The proposed study claims the role of a reference tool for marketing services and professionals who make management decisions that work in this market.

Annotation

Introduction

1. The current state of the processes of production of directly reduced iron (metallized pellets and hot briquetted iron)

2. Characteristics of the main technological processes for the production of DRI and its quality

  • 2.1. The Midrex process
  • 2.2. The HYL ZR process
  • 2.3. The ITmk3 process
  • 2.4. The COREX process
  • 2.5. The HISmelt process

3. Requirements for the quality of DRI (chemical, granulometric composition, other parameters) of different manufacturers

4. Dynamics of production of DRI/HBI in the world by main regions and countries in 2007-2017; main countries and manufacturing companies

  • 4.1. Mexico
  • 4.2. India
  • 4.3. Russia
  • 4.4. Iran

5. New projects for the construction of equipment

6. World trade of directly reduced iron (including HBI) in 2007-2017

  • 6.1. Dynamics of global exports, major exporting countries
  • 6.2. Dynamics of global imports, major importing countries

7. Analysis of prices for directly reduced iron; price forecast for the period up to 2025

8. Consumption of directly reduced iron in the world and its forecast to 2025; key factors (drivers) that determine the demand for products; main consumers

9. The role and place of DRI in the structure of consumption of iron-containing raw materials during steel smelting

Appendix 1. Contact information of the companies producing the DRI, building and supplying direct recovery equipment

Appendix 2. Contact information of the CIS metallurgical enterprises that have some experience in the use of an DRI

List of Tables:

  • Table 1: Chemical composition and mechanical properties of metallized pellets produced by OEMK
  • Table 2: Chemical composition of HBI produced by Lebedinsky GOK
  • Table 3: Requirements for the chemical composition (%) of directly reduced iron in India
  • Table 4: The chemical composition of sponge iron (metallized pellets and HBI) used in the flat-rolled products factory (EZZ Flat Steel)
  • Table 5: World production of PVZ by technological processes in 2007-2017, million tons
  • Table 6: World production of hot water by regions in 2007-2017, million tons
  • Table 7: The main producing countries of the DRI in 2007-2017, million tons
  • Table 8: Major producers of metallized raw materials in Mexico
  • Table 9: Estimation of the production of metallized raw materials in Mexico by major plants in 2007-2017, million tons
  • Table 10: Capacities, volumes of production of metallized raw materials (million tons) and use of production capacities (%) in India in 2013/14-2016 / 17 fiscal year.
  • Table 11: Major producers of metallized raw materials in India
  • Table 12: Estimation of volumes of production of metallized raw materials in India by main plants in 2007-2017, million tons
  • Table 13: Dynamics of production of hot water in Russia by enterprises in 2007-2017, million tons
  • Table 14: Dynamics of HBI shipments by Lebedinsky GOK to domestic and world markets in 2007-2017, million tons
  • Table 15: Dynamics of HBI shipments by Lebedinsky GOK to the domestic and world markets in 2010-2017, million tons
  • Table 16: Major producers of metallized raw materials in Iran
  • Table 17: Estimation of production volumes of metallized raw materials in Iran by main companies in 2007-2017, million tons
  • Table 18: Input of new capacities and construction of plants for the production of liquid nitrogen in 2014-2021
  • Table 19: Stages of the construction of the metallurgical complex Qeshm Steel Development Co 2015-2023.
  • Table 20: Investment Costs of Qeshm Steel Development Co., € million
  • Table 21: Capacity for the production of metallized raw materials in Iran in 2025 (forecast)
  • Table 22: Dynamics of world exports of DRI in 2007-2017, the main exporting countries, kt
  • Table 23: Dynamics of exports of Russian DRI by regions in 2007-2017, kt
  • Table 24: Directions of export supplies of DRI from Russia in 2007-2017 by countries of delivery, kt
  • Table 25: Dynamics of world imports of DRI in 2007-2017, major importers, kt
  • Table 26: The forecast of the average level of import prices for HBI for shipments to European countries (for example, Italy) and in R.Korea to 2025, $ / ton CFR
  • Table 27: Estimated apparent consumption of DRI in the world in 2007-2017, million tons
  • Table 28: Apparent consumption of DRI in India in 2007-2017, million tons
  • Table 29: Apparent consumption of DRI in Mexico in 2007-2017, million tons
  • Table 30: Apparent consumption of DRI in S.Arabia in 2007-2017, million tons
  • Table 31: Apparent consumption of DRI DWP in Russia in 2007-2017, million tons
  • Table 32: Forecast of world consumption of DRI for the period up to 2025, million tons
  • Table 33: Balance of metal-containing raw materials for steelmaking in the world and in Russia in 2017, million tons

List of Figures:

  • Figure 1: Midrex process diagram
  • Figure 2: HYL ZR process diagram
  • Figure 3: ITmk3 process flow diagram
  • Figure 4: Scheme of the COREX process
  • Figure 5: Melting unit HIsmelt
  • Figure 6: Schematic of the HIsmelt installation
  • Figure 7: World production of DRI in 2007-2017, million tons
  • Figure 8: The share of individual technological processes in the world production of DRI in 2007-2017,%
  • Figure 9: The share of individual regions in the global production of PVC in 2007-2017,%
  • Figure 10: Dynamics of production of metallized raw materials and smelting of electric steel in Mexico in 2007-2017, million tons.
  • Figure 11: Dynamics of production of DRI and smelting of electric steel in India in 2007-2017, million tons
  • Figure 12: Dynamics of production of DRI in Russia (million tons) and Russia's share in world production (%) in 2007-2017
  • Figure 13: Production of metallized raw materials and its shipment for export by JSC "OEMK" in 2007-2017, million tons
  • Figure 14: Dynamics of production of DRI and smelting of electric steel in Iran in 2007-2017, million tons
  • Figure 155: Dynamics of world exports of DRI (million tonnes) and Russia's share in global exports (%) in 2007-2017
  • Figure 166: Dynamics of exports of DRI from Russia in bulk (million tons) and value terms (million dollars) in 2007-2017,
  • Figure 17: The share of individual regions in the Russian exports of DRI in 2007-2017,%
  • Figure 18: Import prices for HBI and pig iron, domestic prices for crushed scrap in the spot market in Italy 2007-2018, USD / t
  • Figure 19: Import prices for pig iron and HBI in the spot market of South Korea in 2007-2018, $ / ton CFR
  • Figure 20: Spot prices for HBI in the world market in 2007-2018, $ / t
  • Figure 21: Forecast of the average level of import prices for HBI for shipments to European countries (for example, Italy) and in R. Koreya to 2025 g, $ / ton CFR
  • Figure 22: Consumption of DRI in India (million tonnes), the country's share in world consumption in 2007-2017 (%)
  • Figure 23: Consumption of DRI in Mexico (million tonnes), country's share in world consumption in 2007-2017 (%)
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