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상수도 사업의 과불화화합물(PFAS)에 관한 다음 과제 : 새로운 규제, 기술 및 예측(2020-2030년)

PFAS, The Next Challenge for Water Utilities: Emerging Regulations, Technologies, and Forecasts, 2020-2030

리서치사 Bluefield Research
발행일 2020년 06월 상품 코드 940392
페이지 정보 영문
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US $ 3,500 ₩ 4,244,000 PDF by E-mail (Enterprise License)


상수도 사업의 과불화화합물(PFAS)에 관한 다음 과제 : 새로운 규제, 기술 및 예측(2020-2030년) PFAS, The Next Challenge for Water Utilities: Emerging Regulations, Technologies, and Forecasts, 2020-2030
발행일 : 2020년 06월 페이지 정보 : 영문

미국의 상수도 사업의 과불화화합물(PFAS)에 관한 다음 과제에 대해 조사했으며, 미국 PFAS 수복 프로젝트의 상세 데이터, 시장 및 규제의 동향 분석 및 성장 예측, 상하수도 사업자와 PFAS 기술 프로바이더의 개요 등의 정보를 정리하여 전해드립니다.

본 보고서에 게재된 기업 정보

  • BCR
  • Burch Hydro
  • Cabot Carbon
  • Calgon Carbon
  • Casella Waste Systems
  • CycloPure
  • ECT2
  • Evoqua Water Technologies
  • Lystek Industries
  • Mannco
  • McGill
  • Purolite
  • Regenesis
  • Synagro
  • Veolia
  • Waste Management

목차

개요

  • PFAS 상수도 사업의 수명주기에서의 기능

제1장 미국의 음료수 PFAS 정책과 법적 조치

  • 정책의 개요
  • PFAS 음료수 정책 상황의 개요
  • PFAS 기반 전국으로의 확산
  • 시스템 사이즈별 : 현재 시스템 영향을 받는 주의 수 : 주요 12주
  • 각 주에서 제안·채택되는 음료수의 제한
  • PFAS에 의한 공급업체에 대한 법적 조치

제2장 미국의 음료수 PFAS 수복 예측

  • 예측의 개요
  • 주요 시장 전제조건 : 처리 시스템의 유효 시장
  • PFAS 타임라인 : 잠재적 규제의 궤적
  • 수치로 보는 2030년 전망
  • 2020-2030년 3개의 예측 시나리오
  • 주별 기본 케이스 예측(2020-2030년)
  • 기술별 기본 케이스 예측(2020-2030년)

제3장 미국의 바이오솔리드 시장 및 비지니스 모델

  • 폐수처리 스트림에 의해 제조되는 판매 가능한 제품
  • 미국 전체의 하수 오니 생산
  • 미국 이용 용도에 의존하고 있는 바이오솔리드 시장 기회
  • 바이오솔리드에서 PFAS에 관한 연구와 리스크 등

제4장 PFAS 처리 기술과 사례

  • 기술 개요
  • PFAS 처리 : 확립된 신규 기술
  • 폐기물 처리와 OPEX
  • PFAS 농도, 체인 길이 및 제거 기능 등

제5장 기업 개요

  • 음료수 기술 프로바이더 : 포트폴리오 비교
    • Cabot Carbon, Calgon Carbon, CycloPure, ECT2,Evoqua Water Technologies, Purolite, Regenesis
  • 바이오솔리드 관리 및 서비스 프로바이더 : 포트폴리오 비교
    • BCR Environmental, Burch Hydro, Inc., Casella WasteSystems, Mannco Wastewater & Soil Solutions, McGillEnvironmental Systems, Lystek, Synagro, Veolia, WasteManagement
KSA 20.06.22

LIST OF EXHIBITS

  • Exhibit 1: The Utility Water Cycle and PFAS Impacts
  • Exhibit 2: PFAS Sites Nationwide by Type
  • Exhibit 3: Estimated Current Breakdown of Community Water Systems Requiring Treatment, by Size (population served)
  • Exhibit 4: State Water Infrastructure, Estimated PFAS Contamination, and Targeted MCLs for PFAS Compounds
  • Exhibit 5: Recent PFAS Litigation
  • Exhibit 6: Top-Down View of Addressable Market
  • Exhibit 7: Estimated Number of Systems and Deployed Solutions by 2030
  • Exhibit 8: Market Spend CAPEX + OPEX, 2020-2030
  • Exhibit 9: Base Case CAPEX + OPEX by Key State, 2020-2030
  • Exhibit 10: Base Case CAPEX + OPEX 2020-2030 by Technology
  • Exhibit 11: Wastewater Treatment Processes and Potential By-products
  • Exhibit 12: Sewage Sludge Production by State
  • Exhibit 13: Biosolids Use & Disposal Mechanisms
  • Exhibit 14: Year-Over-Year Tipping Fees by Region
  • Exhibit 15: Number of Incineration Facilities by State
  • Exhibit 16: Economics of Biosolids Applications
  • Exhibit 17: Sludge Production and Disposal Costs
  • Exhibit 18: PFAS Treatment Technology Landscape
  • Exhibit 19: PFAS Treatment Technology Waste Stream Comparison
  • Exhibit 20: PFAS Treatment Technology Comparison
  • Exhibit 21: PFAS Technology Portfolios of Representative Companies
  • Exhibit 22: Service Offerings of Biosolid Providers

The health dangers from per- and polyfluoroalkyl (PFAS) compounds - a class of several thousand chemicals with a seven-decade legacy of military, industrial, and commercial use nationwide-have risen dramatically in public consciousness over the past few years.

Our current understanding of both the extent of PFAS contamination nationwide in drinking water supplies and the concentrations that produce adverse health effects in the human body are in their early stages. What is certain is that PFAS will become an issue of growing concern over the next several years, if not decades, with the advancement of contamination site and health testing.

This ‘NEW Focus Report ’ supports water and wastewater utilities as well as PFAS technology providers with detailed data, market and policy trend analysis, and growth forecasts in U.S. PFAS remediation projects.

Bluefield's analysis of the market includes an examination of policy shifts, technology trends, and strategies influencing the deployment of innovative solutions.

Report Features:

  • Database with 200+ impacted water systems by size and location
  • State and federal policy dashboard
  • Analysis of the competitive landscape including drinking treatment technology providers and biosolids service providers
  • Economic analysis of biosolid management options and potential for market disruption due to PFAS
  • 2020-2030 forecast of CAPEX and OPEX for drinking water PFAS remediation

Companies Mentioned:

  • BCR
  • Burch Hydro
  • Cabot Carbon
  • Calgon Carbon
  • Casella Waste Systems
  • CycloPure
  • ECT2
  • Evoqua Water Technologies
  • Lystek Industries
  • Mannco
  • McGill
  • Purolite
  • Regenesis
  • Synagro
  • Veolia
  • Waste Management

Table of Contents

Executive Summary

  • How PFAS Makes Its Way across the Water Utility Lifecycle

Section 1: U.S. Drinking Water PFAS Policy and Legal Actions

  • Policy Summary
  • PFAS Drinking Water Policy Landscape Overview
  • PFAS Sites Identified Proliferate across the Country
  • Current Number of Impacted Systems by System Size,Top 12 States
  • Select States Propose and Adopt Drinking Water Limits
  • PFAS Sparks Legal Action Against Suppliers

Section 2: U.S. Drinking Water PFAS Remediation Forecasts 2020-2030

  • Forecast Summary
  • Key Market Assumptions: Treatment System AddressableMarket
  • PFAS Timeline: Potential Regulatory Trajectories
  • The 2030 Outlook by the Numbers
  • Three Forecast Scenarios, 2020-2030
  • Base Case Forecasts by State, 2020-2030
  • Base Case Forecasts by Technology, 2020-2030

Section 3: U.S. Biosolids Market and Business Models

  • Wastewater Treatment Stream Produces SaleableByproducts
  • Sewage Sludge Production across the U.S.
  • Biosolids Market Opportunity Dependent on Beneficial Useacross the U.S.
  • Studies and Risks on PFAS in Biosolids
  • Rising Landfill Tipping Fees Drive Biosolids Market acrossthe U.S.
  • Biosolid Incineration Facilities and Equipment on the Decline
  • Biosolid Commercial Costs and Value Comparison
  • Outsourced vs. In-House Biosolids Management Strategies
  • Sludge Production and Disposal Use and Costs: PFAS Risks

Section 4: PFAS Treatment Technologies and Case Studies

  • Technology Summary
  • PFAS Treatment: Established and Emerging Technologies
  • Waste Handling and OPEX
  • PFAS Concentration, Chain Length, and RemovalCapabilities
  • Technology Case Study: Ann Arbor, Michigan (GAC)
  • Technology Case Study: Stratmoor Hills, Colorado (IX Resin)
  • Technology Case Study: Brunswick, North Carolina (ReverseOsmosis)

Section 5: Company Profiles

  • Drinking Water Technology Providers: Portfolio Comparison
    • Cabot Carbon, Calgon Carbon, CycloPure, ECT2,Evoqua Water Technologies, Purolite, Regenesis
  • Biosolids Management and Service Providers: PortfolioComparison
    • BCR Environmental, Burch Hydro, Inc., Casella WasteSystems, Mannco Wastewater & Soil Solutions, McGillEnvironmental Systems, Lystek, Synagro, Veolia, WasteManagement
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