Đạo đức môi trường và lưới điện: Lập luận cho sự phát triển công nghệ

Tài liệu nghiên cứu Environmental ethics and the electric power grid a case for tech, tổng hợp lý thuyết và thực hành, cung cấp kiến thức chuyên sâu về môi trường.

Trường đại học

Salve Regina University

Chuyên ngành

Philosophy

Người đăng

Ẩn danh

Thể loại

dissertation

2016

574
1
0

Phí lưu trữ

135 Point

Mục lục chi tiết

1. THEORY AND PRACTICE

1.1. Technological Determinism and Technological Momentum

1.2. The Electric Power Grid

1.3. Review of the Literature

2. BUILDING MOMENTUM: THE ROAD TO CHARLESTOWN

2.1. Marsden Perry in Rhode Island

2.2. Harriman and Chase in the Connecticut River Valley

2.3. Integration of the Systems

2.4. Zenith of the Holding Company: International Paper & Power

2.5. Disintegration of the Holding Company: The Public Utility Holding Company Act of 1935

2.6. Growing Pains of NEPA

2.7. Education and Ethics for the Electric Power Grid Operator

2.8. Post War Expansion and Enthusiasm

2.9. The Lure of Nuclear Power

2.10. System Catastrophe: The Great Northeast Blackout

2.11. End of Decade Concerns

2.12. Practice: Eighty Years of Progress for the Electric Power Grid

3. CONSERVATION TO ENVIRONMENTALISM IN THE OCEAN STATE

3.1. The Beginning of Environmental Thought in America

3.2. Competing Visions: Gifford Pinchot and John Muir

3.3. The First Conservation Groups in Rhode Island

3.4. Aldo Leopold and the Creation of a Land Ethic

3.5. Rachel Carson and Silent Spring

3.6. The Growth of Rhode Island Conservation Groups

3.7. Lynn White, Jr. and the Religious Component of the Environmental Crisis

3.8. Barry Commoner and the Laws of Ecology

3.9. The Creation of Earth Day

3.10. Founding the Environmental Protection Agency

3.11. Continued Environmental Action in Rhode Island

3.12. Environmental Thinking and Efficiency

4. RHODE ISLAND GOVERNMENT AND REGULATORY BODIES

4.1. The Republican Machine in Rhode Island

4.2. The Establishment of the Public Utilities Commission

4.3. The “Green Revolution”

4.4. The Democratic Machine in Rhode Island

4.5. Environmental Regulation in the Ocean State

4.6. Regulation, Efficiency and Momentum

5. ALTERED MOMENTUM: THE CHARLESTOWN NUCLEAR POWER PLANT

5.1. NEES Nuclear Plans

5.2. The Vietnam War Peace Dividend in Rhode Island

5.3. Claudine Schneider and the Local Reaction

5.4. Opening Moves in Charlestown

5.5. Environmental Groups Respond

5.6. The Legal Front

5.7. Nuclear Catastrophe and NEES Culmination

5.8. Root Cause Analysis of the Failure of NEES

5.9. Technological Momentum Exemplified

5.10. PURPA and its Effects

5.11. NEESPLAN and Conservation

5.12. A New Wave of Environmental Thinkers: Arne Ness and Deep Ecology

5.13. Amory Lovins and the Strategy of Energy

5.14. New and Veteran Environmental Groups in the Ocean State

5.15. Balance of Power in Rhode Island: NEES and the Environmental Groups

5.16. The Travails of Brayton Point

5.17. Preventing the Next Energy Crisis

5.18. Disturbing the Equilibrium

5.19. Updating PURPA: The Energy Policy Act of 1992

5.20. Rhode Island Reaction to the Energy Policy Act of 1992

5.21. Brayton Point Woes (Continued)

5.22. Deregulation of the Rhode Island Electric Power Grid

5.23. Change in Momentum or Reversion to the Mean?

6. ETHICAL ENERGY IN THE ERA OF GLOBAL WARMING

6.1. New Problems and Older Concerns in the Environmental Movement

6.2. Rhode Island Environmental Groups in the New Century

6.3. Continuity of Power: Rhode Island Politics in the New Century

6.4. Acclimatizing the IEEE Code of Conduct

6.5. Gas Turbines Triumphant

6.6. The Quest for Sustainable Electric Power

6.7. Greater Regionalization and the Repeal of PUCHA

6.8. Brayton Point Revisited

6.9. Technological Determinism and Momentum in the 21st Century

6.10. Findings: Technological Momentum or Determinism?

Tóm tắt

I. Tổng quan về Đạo đức môi trường và lưới điện hiện đại

Đạo đức môi trường đang trở thành một yếu tố quan trọng trong việc phát triển lưới điện thông minh. Sự kết hợp giữa công nghệ và đạo đức môi trường không chỉ giúp bảo vệ tài nguyên thiên nhiên mà còn thúc đẩy sự phát triển bền vững. Lưới điện thông minh không chỉ cung cấp năng lượng hiệu quả mà còn giảm thiểu tác động tiêu cực đến môi trường.

1.1. Đạo đức môi trường Khái niệm và tầm quan trọng

Đạo đức môi trường đề cập đến trách nhiệm của con người đối với môi trường tự nhiên. Nó nhấn mạnh tầm quan trọng của việc bảo vệ tài nguyên thiên nhiên và duy trì sự cân bằng sinh thái.

1.2. Lưới điện thông minh Định nghĩa và lợi ích

Lưới điện thông minh là hệ thống lưới điện sử dụng công nghệ thông tin để tối ưu hóa việc sản xuất và tiêu thụ năng lượng. Nó giúp giảm thiểu lãng phí năng lượng và tăng cường hiệu quả sử dụng tài nguyên.

II. Thách thức trong việc phát triển lưới điện bền vững

Mặc dù có nhiều lợi ích, việc phát triển lưới điện bền vững cũng gặp phải nhiều thách thức. Các vấn đề như chi phí đầu tư cao, sự chậm trễ trong việc áp dụng công nghệ mới và sự phản đối từ cộng đồng là những rào cản lớn.

2.1. Chi phí đầu tư và tài chính

Chi phí đầu tư cho lưới điện thông minh thường rất cao, điều này có thể làm chậm quá trình triển khai. Các chính sách tài chính cần được cải thiện để hỗ trợ các dự án này.

2.2. Sự chậm trễ trong áp dụng công nghệ

Nhiều công nghệ mới chưa được áp dụng rộng rãi do thiếu thông tin và sự hiểu biết từ phía người tiêu dùng và các nhà đầu tư.

III. Phương pháp phát triển lưới điện thông minh bền vững

Để phát triển lưới điện thông minh bền vững, cần áp dụng các phương pháp như sử dụng năng lượng tái tạo, cải thiện quản lý tài nguyên và tăng cường giáo dục cộng đồng.

3.1. Sử dụng năng lượng tái tạo

Năng lượng tái tạo như năng lượng mặt trời và gió có thể giúp giảm thiểu tác động đến môi trường và cung cấp nguồn năng lượng bền vững.

3.2. Cải thiện quản lý tài nguyên

Quản lý tài nguyên hiệu quả là cần thiết để đảm bảo rằng các nguồn năng lượng được sử dụng một cách bền vững và hợp lý.

IV. Ứng dụng thực tiễn của lưới điện thông minh

Lưới điện thông minh đã được áp dụng thành công ở nhiều nơi trên thế giới, mang lại nhiều lợi ích cho cộng đồng và môi trường. Các dự án này không chỉ giúp tiết kiệm năng lượng mà còn tạo ra việc làm và thúc đẩy kinh tế địa phương.

4.1. Các dự án lưới điện thông minh thành công

Nhiều dự án lưới điện thông minh đã được triển khai tại các thành phố lớn, giúp giảm thiểu tiêu thụ năng lượng và cải thiện chất lượng dịch vụ.

4.2. Tác động đến cộng đồng và môi trường

Các dự án này không chỉ mang lại lợi ích kinh tế mà còn góp phần bảo vệ môi trường và nâng cao nhận thức cộng đồng về đạo đức môi trường.

V. Kết luận Tương lai của lưới điện và đạo đức môi trường

Tương lai của lưới điện thông minh phụ thuộc vào sự kết hợp giữa công nghệ và đạo đức môi trường. Việc phát triển bền vững không chỉ là trách nhiệm của các nhà quản lý mà còn của toàn xã hội.

5.1. Tầm nhìn cho lưới điện tương lai

Lưới điện tương lai cần phải tích hợp các công nghệ mới và đáp ứng nhu cầu ngày càng cao của người tiêu dùng.

5.2. Vai trò của cộng đồng trong phát triển bền vững

Cộng đồng cần được giáo dục và tham gia vào quá trình phát triển lưới điện thông minh để đảm bảo rằng các quyết định được đưa ra phù hợp với lợi ích chung.

25/07/2025

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Salve Regina University Digital Commons @ Salve Regina Ph. Dissertations (Open Access) Salve's Dissertations and Theses 2016 Environmental Ethics and The Electric Power Grid: A Case for Technological Momentum Paul A. Povlock Salve Regina University, paul.edu Follow this and additional works at: https://digitalcommons.edu/phd_dissertations Part of the Ethics and Political Philosophy Commons, and the Oil, Gas, and Energy Commons Recommended Citation Povlock, Paul A., "Environmental Ethics and The Electric Power Grid: A Case for Technological Momentum" (2016).edu/phd_dissertations/1 This Dissertation is brought to you for free and open access by the Salve's Dissertations and Theses at Digital Commons @ Salve Regina. It has been accepted for inclusion in Ph.

Dissertations (Open Access) by an authorized administrator of Digital Commons @ Salve Regina. For more information, please contact digitalcommons@salve. SALVE REGINA UNIVERSITY ENVIRONMENTAL ETHICS AND THE ELECTRIC POWER GRID: A CASE FOR TECHNOLOGICAL MOMENTUM A DISSERTATION SUBMITTED TO THE FACULTY OF THE HUMANITIES PROGRAM IN CANDIDACY FOR THE DEGREE OF DOCTOR OF PHILOSOPHY BY PAUL A. POVLOCK NEWPORT, RHODE ISLAND MARCH 2016 Copyright © 2016 by Paul A.

Povlock All rights reserved. SALVE REGINA UNIVERSITY GRADUATE STUDIES This dissertation of Paul A. Povlock entitled " Environmental Ethics and the Electric Power Grid: A Case for Technological Momentum" submitted to the PhD Program in partial fulfillment of the requirements for the degree of Doctor of Philosophy at Salve Regina University has been read and approved by the following individuals: Reader: - --.--- ----:�h# (___ Date I Mentor: Director, C � �J,:;. Date Provost: I Date CONTENTS FIGURES.

xiv Interdisciplinary Analysis. xviii Method and Structure .xx Relevance to the PhD Program at Salve Regina University. THEORY AND PRACTICE .1 Technological Determinism and Technological Momentum .3 The Electric Power Grid .22 Review of the Literature. BUILDING MOMENTUM: THE ROAD TO CHARLESTOWN .46 Marsden Perry in Rhode Island .48 Harriman and Chase in the Connecticut River Valley .64 Integration of the Systems .81 Zenith of the Holding Company: International Paper & Power .93 Disintegration of the Holding Company: The Public Utility Holding Company Act of 1935 .99 Growing Pains of NEPA .110 Education and Ethics for the Electric Power Grid Operator .116 Post War Expansion and Enthusiasm .127 The Lure of Nuclear Power .138 System Catastrophe: The Great Northeast Blackout .143 End of Decade Concerns.

Practice: Eighty Years of Progress for the Electric Power Grid. CONSERVATION TO ENVIRONMENTALISM IN THE OCEAN STATE .169 The Beginning of Environmental Thought in America .170 Competing Visions: Gifford Pinchot and John Muir .173 The First Conservation Groups in Rhode Island .181 Aldo Leopold and the Creation of a Land Ethic.189 Rachel Carson and Silent Spring .196 The Growth of Rhode Island Conservation Groups .203 Lynn White, Jr. and the Religious Component of the Environmental Crisis .204 Barry Commoner and the Laws of Ecology .216 The Creation of Earth Day .220 iv Founding the Environmental Protection Agency .227 Continued Environmental Action in Rhode Island .229 Environmental Thinking and Efficiency. RHODE ISLAND GOVERNMENT AND REGULATORY BODIES .239 The Republican Machine in Rhode Island .240 The Establishment of the Public Utilities Commission .243 The “Green Revolution” .248 The Democratic Machine in Rhode Island .252 Environmental Regulation in the Ocean State .273 Regulation, Efficiency and Momentum.

ALTERED MOMENTUM: THE CHARLESTOWN NUCLEAR POWER PLANT .288 NEES Nuclear Plans .289 The Vietnam War Peace Dividend in Rhode Island .295 Claudine Schneider and the Local Reaction .302 Opening Moves in Charlestown .306 Environmental Groups Respond.310 The Legal Front .320 Nuclear Catastrophe and NEES Culmination.331 Root Cause Analysis of the Failure of NEES .338 Technological Momentum Exemplified .349 PURPA and its Effects .353 NEESPLAN and Conservation.359 A New Wave of Environmental Thinkers: Arne Ness and Deep Ecology.370 Amory Lovins and the Strategy of Energy .375 New and Veteran Environmental Groups in the Ocean State .379 Balance of Power in Rhode Island: NEES and the Environmental Groups .391 The Travails of Brayton Point .397 Preventing the Next Energy Crisis .404 Disturbing the Equilibrium .411 Updating PURPA: The Energy Policy Act of 1992 .414 Rhode Island Reaction to the Energy Policy Act of 1992 .420 Brayton Point Woes (Continued) .426 Deregulation of the Rhode Island Electric Power Grid .428 Change in Momentum or Reversion to the Mean?. ETHICAL ENERGY IN THE ERA OF GLOBAL WARMING .441 New Problems and Older Concerns in the Environmental Movement .442 Rhode Island Environmental Groups in the New Century .452 Continuity of Power: Rhode Island Politics in the New Century .459 Acclimatizing the IEEE Code of Conduct .462 v Gas Turbines Triumphant .467 The Quest for Sustainable Electric Power .471 Greater Regionalization and the Repeal of PUCHA .488 Brayton Point Revisited .491 Technological Determinism and Momentum in the 21st Century .505 Findings: Technological Momentum or Determinism?. Basic Structure Of The Electric System 17 2. The Extension Of The Connecticut River Power 68 Company’s Transmission Lines Throughout The State Of Massachusetts And Rhode Island 3.

International Paper & Power Organizational Chart 96 Emphasizing the Electric Utility Portion of the Holding Company. vii In memoriam of James P. Povlock, 1929-2015, electrical engineer and father, and Eric J. Shaw, 1957-2016, mentor and friend.

viii ACKNOWLEDGEMENTS The author would like to express his gratitude to Mr. Jack Miranda and Ms. Julie Zecher, research librarians at the United States Naval War College, and Ms. Sabrina Rodrigues, Associate Professor for Special Collections and Archives at the University of Rhode Island for their assistance during the course of my research.

Eugenia Marks of the Audubon Society of Rhode Island and Mr. Greg Gerritt of the Environment Council of Rhode Island were gracious with their time and insight regarding their organizations’ files and background. The long suffering forbearance of the author’s wife during this period was one of nature’s unexpected blessings. ix ABBREVIATIONS AC Alternating current AEC Atomic Energy Commission AIEE American Institute of Electrical Engineers AAAS American Association for the Advancement of Science ASRI Audubon Society of Rhode Island CEQ Council on Environmental Quality CLF Conservation Law Foundation DC Direct Current EAB Environmental Appeals Board ECRI Environment Council of Rhode Island EDF Environmental Defense Fund EPA Environmental Protection Agency DOI Department of the Interior DDT Dichloro-Diphenyl-Trichloro-ethane FERC Federal Energy Regulatory Commission FTC Federal Trade Commission Hz Hertz IEEE Institute of Electrical and Electronic Engineers ISO Independent System Operator kV Kilovolt kW Kilowatt kWh Kilowatt-hours x MW Megawatt MWH Megawatt hours NALF Naval Auxiliary Air Field NASA National Aeronautics and Space Administration NEES New England Electric System NEPA National Environmental Policy Act NEPA New England Power Association NEPEX New England Power Exchange NEPOOL New England Power Pool NWF National Wildlife Federation PG&E Pacific Gas & Electric PSI Pounds per Square Inch PUCHA Public Utility Holding Company Act PURPA Public Utility Regulatory Policies Act REMVEC Rhode Island-Eastern Massachusetts-Vermont Energy Control RIBBA Rhode Island Beach Buggy Association RICA&M Rhode Island College of Agriculture and the Mechanic Arts RICE Rhode Island Committee on Energy RIPUC Rhode Island Public Utilities Commission RIMS Rhode Island Mobile Sportsfishermen RIPS Rhode Island Public Service RIWF Rhode Island Wildlife Federation SEC Security and Exchange Commission xi UEP United Electric Power UER United Electric Railways V Volts WPI Worcester Polytechnic Institute xii ABSTRACT This qualitative analysis examines the effects of a growing environmental ethic on the electric power grid in southeastern New England from the late nineteenth century to the start of the new millennia.

The increased awareness of the environment evolved into a new belief system of the population and altered the methods of construction, operation and maintenance of the advanced technology system of the electric power grid. The manner in which this occurred suggests that technological momentum is a better concept than technological determinism with which to examine the development of technological systems in the modern world. This dissertation examines the trinity of actors affecting this process. The electric power companies, with the New England Electric System as the main protagonist, attempted to expand the electric power grid to meet expected consumer demand and economic opportunities.

A devoted cadre of nascent environmentalists, dismissive of the commercial and technological requirements of the electric power grid, suggested to the population that the new idea of protecting the environment should instead take priority. The interaction of these two forces led to a governmental response that attempted to continue to meet the population’s demands while preventing the degradation of the environment. The resultant transformation of the population’s perception of the electric power grid, its regulation by the government, and its operation by the system members, suggest that advanced technology systems are influenced as much by philosophical concerns as any technical constraints. xiii INTRODUCTION There's a powerful, obedient, swift, and effortless force that can be bent to any use and which reigns supreme aboard my vessel.

It does everything. It lights me, it warms me, it's the soul of my mechanical equipment. This force is electricity. - Captain Nemo to Professor Aronnax in Jules Verne’s Twenty Thousand Leagues Under the Sea The development of the electric power grid in the United States transformed the nation into an energy-intensive society.

Americans had shown interest in electricity from the days of Ben Franklin’s earliest experiments and had profited from his workman-like accounts of his lightning rod to make their homes safer.1 Application of electric energy as a major power source was still over a century away however and electricity remained more of a curiosity than a source of power for society. In the 1800s electricity was used to power the telegraph stations that formed the communications network of the Victorian era and to energize other minor applications.2 Power to drive the Industrial Revolution was chiefly provided by coal-fired steam plants or water mills running intricate systems of belt-driven machines, while on the farms animal and human power predominated.3 This methodology, though grueling for the majority of the population involved in agriculture or industry, was nonetheless sustainable. Phillip Krider, "Benjamin Franklin and Lightning Rods," Physics Today, 59, no. Steve Parker, Electricity (London: Dorling Kindersly, 1992), 31, 37.

Vaclav Smil, Creating the Twentieth Century (New York: Oxford University Press, 2005), 14. xiv Thomas Edison’s electric power generation prototype built in New York City in 1882, showed how electricity could be used to drive industrial activities and fill consumer desires.4 Over the course of only a few years, Edison developed and built a pilot electric generation station in New York City, the transmission lines from its coal-fired dynamos to the electric load locations and all the electrical connections, circuit breakers and fuses necessary to energize the lights in the selected buildings.5 Edison’s construction was the first electric power grid in history, a combination of subsystems that generated electric power, transmitted it across metal cables to the designated establishments and then distributed the energy to the lightbulbs within those buildings.6 Under the guiding light of a host of ingenious inventors, engineers, and financiers, this system of electric power generation, transmission and distribution system rapidly expanded throughout the nation. By the middle of the twentieth century, the network of electric power plants and supporting systems provided a reliable and economic source of energy to all facets of society. This mature technology seemed poised to take the next great leap forward in the continuous quest for greater effectiveness and efficiency.

Instead, the flood tide of technological development was altered by forces that had seemed insignificant when the electric power grid had been created. Concurrent with the technological culmination of the electric power grid was the emergence of various schools of environmental ethics that took hold in popular 4. Hughes, Networks of Power (1983; repr., Baltimore, MD: The Johns Hopkins University Press, 1983), 47. xv conception and gained political traction.

The new social construction of environmental ethics acted to alter the course of development of the electric power grid in southern New England from one based purely on technical efficiency and effectiveness to a vector that had to account for principled concerns for the environment. How this occurred is the central research question to be examined in this dissertation.

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