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市場調査レポート

工業バイオテクノロジーにおけるアライアンス・提携の将来

The Future of Alliances and Partnerships in Industrial Biotechnology to 2023

発行 Smithers Rapra 商品コード 289699
出版日 ページ情報 英文
納期: 即日から翌営業日
価格
本日の銀行送金レート: 1USD=102.06円で換算しております。
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工業バイオテクノロジーにおけるアライアンス・提携の将来 The Future of Alliances and Partnerships in Industrial Biotechnology to 2023
出版日: 2013年09月30日 ページ情報: 英文
概要

工業バイオテクノロジーは、技術プロバイダー、研究機関および原料サプライヤー間の戦略的アライアンスに促進され、急速な発展段階にあります。

当レポートでは、工業バイオテクノロジー市場について取り上げ、バリューチェーンに沿った原料・プロセス・製品、新興・既存のビジネスモデル、競合情勢を形成するアライアンス・提携などについて詳細に調査分析しており、概略以下の構成でお届けします。

エグゼクティブサマリー

イントロダクション・調査手法

工業バイオテクノロジーのバリューチェーン

  • イントロダクション
  • 原料
    • 化石・再生可能資源の比較
  • プロセス・インフラ
    • 発酵
    • バッチ・連続工程
    • 微細藻類工程
  • 工業バイオテクノロジーのバリューチェーン
    • バイオマス供給
    • バイオマス取引
  • 工業バイオテクノロジーにおける投資・エコノミクス・市場
    • 工業バイオテクノロジー市場

新しいビジネスモデル

  • 確立されたビジネスモデル
    • 製品指向のモデル
    • サービス指向のモデル
    • ミックスモデル
  • 新しいビジネスモデル
    • さまざまなROI(投資利益率)
    • 新興企業と大手企業の提携
    • Amyris Biotechnologies
    • BioAmber
    • Brain
    • Direvo Industrial Biotechnology
    • Genomatica
    • Global Bioenergies
    • Metabolic Explorer
    • Myriant
  • 成長に向けた提携
    • ビジネスモデルのライセンシング
    • モデルはいっそう流動的になる
      • DuPontとバイオ燃料

アライアンス・提携

  • 競合情勢
  • さまざまな企業タイプ・提携
    • 戦略的アライアンスの促進因子
    • 新興企業の役割
    • アライアンスの課題
  • 既存の提携・アライアンス
    • Shell と Cosan
    • DNP Green Technology と Agro-Industrie Recherches et Developpements
    • DSM と Roquette
    • BASF と Purac
    • DuPont と Tate & Lyle
    • Dow と 三井
    • Bunge と Cobalt と Solvay
    • Cargill と Dow
    • Archer Daniels Midland と Metabolix
    • Fibria と Ensyn
    • UPM と Renmatix
    • Lanzatech と 戦略的アライアンス
    • 商業化に向けた技術移転
    • インフラへのアクセス
    • 提携の発展と拡大
    • ゴム産業のアライアンス

予測

  • 10年の産業発展
    • より効率的なプロセス
    • 原料資源の差別化
    • 大手石油化学製品サプライヤーからの投資
  • バリューチェーン予測
    • 炭水化物生産量
    • 非食品バイオマス代替品
    • 工業用vs.食品用
    • バイオマス利用のカスケーディング
    • バイオリファイナリング動向
    • プラント集団の形成
  • 市場予測
    • エネルギーコスト
    • バイオ燃料生産
    • リグノセルロースプラットフォーム
    • バイオベースのポリマー生成
    • バイオ経済への転換
  • 技術予測
    • 原料分別
    • 新しい、より効率的な酵素の必要性
    • 開発の速度
    • 石油とバイオケミカル技術の統合
    • バイオリファイナリ設計

図表

目次

Industrial Biotechnology is in a rapid development phase, driven by strategic alliances between technology providers, research institutes and raw material suppliers. ‘The Future of Alliances and Partnerships in Industrial Biotechnology to 2023’ is major new report that maps the competitive landscape for industrial biotech, identifies key alliances shaping the industry, and forecasts developments to 2023. It looks at how chemical and raw material giants are linking with boutique technology providers and research/technical institutes, and analyses how this will work, and what will be the business models of the future.

FIND OUT ABOUT

  • Raw materials, processes and products along the value chain
  • Emerging and established business models
  • Alliances and partnerships forming the competitive landscape

HOW WILL THIS MARKET INTELLIGENCE REPORT BENEFIT YOU ?

  • Plan your business strategies with confidence, with the latest information on alliances, technologies, global markets, suppliers and partnerships
  • Get an in-depth understanding of the chemical and raw material providers and research/technical institutes
  • Keep up to date with crucial business opportunities most likely to impact your sector to 2023

INCLUDED IN THIS REPORT:

  • In-depth exploration of top industrial biotechnology alliances and partnerships
  • Analysis of key technology trends expected to impact the industry
  • Detailed 10-year forecasts on gamechanging developments in the industrial biotech value chain

Table of Contents

EXECUTIVE SUMMARY

  • Overview
  • Raw materials
  • Processes
  • The industrial biotechnology value chain
  • Market potential of industrial biotech.
  • Established business models
  • Emerging business models
  • Partnerships are key

INTRODUCTION AND METHODOLOGY

  • Introduction
  • Scope
  • Methodology
  • Definitions

THE INDUSTRIAL BIOTECHNOLOGY VALUE CHAIN

  • Introduction
  • Raw materials
    • Comparing fossil and renewable resources
  • Processes and infrastructures
    • Fermentation
    • Batch and continuous processes
    • Microalgae-based processes
  • The industrial biotech. value-chain
    • Biomass supply
    • Biomass trading
  • Investment, economics and markets in industrial biotechnology
    • Industrial biotech markets

EMERGING BUSINESS MODELS

  • Established business models
    • Product-oriented models
    • Service-oriented models
    • Mixed models
  • Emerging business models
    • Varying returns on investment
    • Partnerships between start-ups and established companies
    • Amyris Biotechnologies
    • BioAmber
    • Brain
    • Direvo Industrial Biotechnology
    • Genomatica
    • Global Bioenergies
    • Metabolic Explorer
    • Myriant
  • Partnering for growth
    • Licensing business model
    • Models becoming more fluid
      • DuPont and biofuels

ALLIANCES AND PARTNERSHIPS

  • Competitive landscape
  • Different company types and partnering
    • Drivers for strategic alliances
    • Role of start-ups
    • Challenges for alliances
  • Existing partnerships and alliances
    • Shell and Cosan
    • DNP Green Technology and Agro-Industrie Recherches et Développements
    • DSM and Roquette
    • BASF and Purac
    • DuPont and Tate & Lyle
    • Dow and Mitsui
    • Bunge, Cobalt and Solvay
    • Cargill and Dow
    • Archer Daniels Midland and Metabolix
    • Fibria and Ensyn
    • UPM and Renmatix
    • Lanzatech and strategic alliances
    • Technology transition to commercialisation
    • Access to infrastructure
    • Evolution and extension of partnerships
      • Cargill, Novozymes and BASF
      • Dow and OPXBIO
      • Genomatica, Novamont, Versalis and Matrica
      • Procter & Gamble, ZeaChem and GreenWood Resources
      • Coca-Cola, Gevo, Avantium and Virent
    • Rubber industry alliances

FORECASTS TO 2023

  • 10-year industry developments
    • More efficient processes
    • Differentiation of feedstock sources
    • Investment from large petrochemical suppliers
  • Value chain forecasts
    • Carbohydrate yield
    • Non-food biomass alternatives
    • Industrial vs food use
    • Cascading utilisation of biomass
    • Biorefining trends
    • Creation of plant clusters
  • Market forecasts
    • Cost of energy
    • Biofuel production
    • Lignocellulosic platform
    • Bio-based polymer production
      • PLA
      • Bio-based ethylene
      • Bio-based PBS
      • Bio-based 1,3-propanediol
      • Other key bio-based polymers
    • Transition to a bio-economy
  • Technology forecasts
    • Raw material fractionation
    • Need for new, more efficient enzymes
    • Speed of development
    • Integrating petro- and bio-chemical technologies
    • Biorefinery design

TABLES AND FIGURES

  • Industrial biotechnology value chain
  • Comparison of R&D investment vs potential market for industrial biotechnology by sector (%)
  • Historical nominal year-average prices of selected raw materials, 1983-2013
  • Global production comparison between sugar and sugar-derived acids and petrochemicals, 2012 (‘PPP tons p/y)
  • Global production comparison between sugar and sugar-derived acids and petrochemicals, 2012 (€ per kg)
  • Example of microalgae
  • From biomass feedstock to final product in integrated biorefineries
  • Simplified depiction of the industrial biotechnology value-chain
  • Comparison of R&D investment vs potential market for industrial biotechnology by sector (%)
  • Major processes in industrial biotech.
  • Drivers for industrial biotechnology
  • Typical traits of different business models in industrial biotechnology
  • Comparison of emerging business models
  • Key drivers for establishing partnerships
  • Drivers for renewable energy sources
  • Target sectors and benefits of industrial biotechnology
  • Historical nominal year-average prices of selected raw materials, 1983-2013
  • Global production volumes, prices and price per kg of carbon in sugars and sugarderived acids compared with petro-based chemicals, 2012
  • Comparison of biomass conversion routes
  • Examples of food and non-food biomass
  • Compared productivities for crop plants and microalgae, 2010
  • Summary of key processes
  • Types of integrated biorefineries
  • Green biorefineries: advantages and disadvantages
  • Whole-crop biorefineries: advantages and disadvantages
  • Lignocellulosic biorefineries: advantages and disadvantages
  • Aquatic-based feedstocks: advantages and disadvantages
  • Bio-based polymers: advantages and disadvantages
  • Value contribution from biotechnology vs R&D expenditures in selected sectors
  • Summary of established business models
  • Product-oriented models: advantages and disadvantages
  • Service-oriented models: advantages and disadvantages
  • Industrial biotechnology companies and their business models
  • Drivers and challenges for commercialising bio-based products
  • Company types and their strategies
  • Drivers for partnerships between start-ups and large companies
  • Examples of companies forming partnerships and their focus
  • Industrial biotechnology priorities and expected advances to 2023
  • Industrial biotechnology value-chain trends
  • Industrial production concepts in industrial biotechnology
  • Market trends to 2023: cost of energy
  • Market trends to 2023: biofuel production
  • Bioproducts reaching the market
  • Market trends to 2023: bio-economy
  • Technology forecasts to 2023
  • Technology forecast to 2023: biotechnological biomass pre-processing
  • Small scale and simulation de-risks in industrial deployment
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