Martin J. Pasqualetti

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Martin J. "Mike" Pasqualetti is a professor of geography in the School of Geographical Sciences and Urban Planning at Arizona State University in Tempe, Arizona. He is also a member of the graduate faculty on Global Technology and Development at ASU Polytechnic, and a Senior Sustainability Scholar the Global Institute of Sustainability. He pioneered the study of "Energy Landscapes," which interprets the role of human energy demand in reshaping natural landscapes. [1] [2]

Contents

Education

Pasqualetti received his B.A. in Geography from the University of California, Berkeley; his M.A. in Geography and Anthropology from LSU in Baton Rouge, and his Ph.D. from the University of California, Riverside.

Public service

He was appointed twice by two different Arizona governors as chair of the Arizona Solar Energy Advisory Council. [3] [4] He is regarded as an expert on renewable energy [5] and energy ties between the United States and Mexico. [6] He was an appointed member of the Arizona Board of Geographic and Historic Names, leading the successful effort to change the name of a Phoenix landmark from Squaw Peak to Piestewa Peak in honor of Lori Piestewa, the first Native American women to be killed in action. [7]

Publications

Dr. Pasqualetti has published books on wind power, nuclear power plant decommissioning, nuclear energy hazards, landscape development, and 75 articles on energy and other topics, including solar energy, wind energy, geothermal energy, nuclear energy, oil sands, energy security, and energy landscapes. The following is a selection of his published work:

Books

Related Research Articles

Renewable energy Energy that is collected from renewable resources

Renewable energy is useful energy that is collected from renewable resources, which are naturally replenished on a human timescale, including carbon neutral sources like sunlight, wind, rain, tides, waves, and geothermal heat. This type of energy source stands in contrast to fossil fuels, which are being used far more quickly than they are being replenished. Although most renewable energy is sustainable energy, some is not, for example some biomass is unsustainable.

Non-renewable resource

A non-renewable resource is a natural resource that cannot be readily replaced by natural means at a pace quick enough to keep up with consumption. An example is carbon-based fossil fuels. The original organic matter, with the aid of heat and pressure, becomes a fuel such as oil or gas. Earth minerals and metal ores, fossil fuels and groundwater in certain aquifers are all considered non-renewable resources, though individual elements are always conserved.

Wind power Electrical power generation from wind

Wind power or wind energy is the use of wind to provide mechanical power through wind turbines to turn electric generators for electrical power. Wind power is a popular sustainable, renewable energy source that has a much smaller impact on the environment compared to burning fossil fuels.

Energy development

Energy development is the field of activities focused on obtaining sources of energy from natural resources. These activities include production of conventional, alternative and renewable sources of energy, and for the recovery and reuse of energy that would otherwise be wasted. Energy conservation and efficiency measures reduce the demand for energy development, and can have benefits to society with improvements to environmental issues.

Environmental design is the process of addressing surrounding environmental parameters when devising plans, programs, policies, buildings, or products. It seeks to create spaces that will enhance the natural, social, cultural and physical environment of particular areas. Classical prudent design may have always considered environmental factors; however, the environmental movement beginning in the 1940s has made the concept more explicit.

Sustainable energy Energy not harming future generations

The use of energy is considered sustainable if it meets the needs of the present without compromising the needs of future generations. Definitions of sustainable energy typically include environmental aspects such as greenhouse gas emissions, and social and economic aspects such as energy poverty.

Wind power in Iran

The energy system of Iran relies primarily on fossil fuels. However, the country has made steps to decrease its dependency on fossil fuels by investing in wind power.

Renewable energy commercialization

Renewable energy commercialization involves the deployment of three generations of renewable energy technologies dating back more than 100 years. First-generation technologies, which are already mature and economically competitive, include biomass, hydroelectricity, geothermal power and heat. Second-generation technologies are market-ready and are being deployed at the present time; they include solar heating, photovoltaics, wind power, solar thermal power stations, and modern forms of bioenergy. Third-generation technologies require continued R&D efforts in order to make large contributions on a global scale and include advanced biomass gasification, hot-dry-rock geothermal power, and ocean energy. As of 2012, renewable energy accounts for about half of new nameplate electrical capacity installed and costs are continuing to fall.

A green-collar worker is a worker who is employed in the environmental sectors of the economy. Environmental green-collar workers satisfy the demand for green development. Generally, they implement environmentally conscious design, policy, and technology to improve conservation and sustainability. Formal environmental regulations as well as informal social expectations are pushing many firms to seek professionals with expertise with environmental, energy efficiency, and clean renewable energy issues. They often seek to make their output more sustainable, and thus more favorable to public opinion, governmental regulation, and the Earth's ecology.

Fossil fuel phase-out Stopping burning coal, oil and gas

Fossil fuel phase-out is the gradual reduction of the use of fossil fuels to zero. It is part of the ongoing renewable energy transition. Current efforts in fossil fuel phase-out involve replacing fossil fuels with sustainable energy sources in sectors such as transport, and heating. Alternatives to fossil fuels include electrification, green hydrogen and aviation biofuel.

Low-carbon power Power produced with lower carbon dioxide emissions

Low-carbon power is electricity produced with substantially lower greenhouse gas emissions than conventional fossil fuel power generation. The energy transition to low-carbon power is one of the most important actions required to limit climate change. Power sector emissions may have peaked in 2018.

<i>Energy and American Society: Thirteen Myths</i>

Energy and American Society: Thirteen Myths is a 2007 book about energy security and climate change, edited by Benjamin K. Sovacool and Marilyn A. Brown. The book is suitable for both technical and non-technical audiences since it is written in plain English and is "easily digested by anyone with a rudimentary background or interest in energy economics".

Ecological design or ecodesign is an approach to designing products and services with special consideration for the environmental impacts of the product during its whole lifecycle. It was defined by Sim Van der Ryn and Stuart Cowan as "any form of design that minimizes environmentally destructive impacts by integrating itself with living processes." Ecological design is an integrative ecologically responsible design discipline. Ecological design can also be defined as the process within design and development of integration of environmental consideration into product and service design and development with the aim of reducing environmental impacts of products through their life cycle.

Billie Lee Turner II

Billie Lee Turner II is an American geographer and human-environmental scientist, member of the National Academy of Sciences and other honorary institutions. Prominent among the third generation of the Berkeley School of Latin Americanist Geography and cultural ecological research, he has been a leader in bridging this work with the Chicago School of natural hazards and risk research. In August 2008, he took a position as the first Gilbert F. White Chair in Environment and Society at Arizona State University, where he is affiliated with the School of Geographical Sciences and Urban Planning and the School of Sustainability. In November 2015, he was named a Regent’s Professor, the highest faculty honor that can be bestowed by Arizona State University.

100% renewable energy

100% renewable energy is where all energy use is sourced from renewable energy sources. The endeavor to use 100% renewable energy for electricity, heating/cooling and transport is motivated by climate change, pollution and other environmental issues, as well as economic and energy security concerns. Shifting the total global primary energy supply to renewable sources requires a transition of the energy system, since most of today's energy is derived from non-renewable fossil fuels. 100% renewable energy in a country is typically a more challenging goal than carbon neutrality. The latter is a climate mitigation target, politically decided by many countries, and may also be achieved by balancing the total carbon footprint of the country with carbon dioxide removal and carbon projects abroad. 100% renewable energy and net-zero greenhouse gas definitions are political in nature and vary by place and time.

Wind power in Arizona Electricity from wind in one U.S. state

In 2016, Arizona had 268 megawatts (MW) of wind powered electricity generating capacity, producing 0.5% of in-state generated electricity.

Energy in Nigeria Overview of energy in Nigeria

Nigeria's primary energy consumption was about 108 Mtoe in 2011. Most of the energy comes from traditional biomass and waste, which account for 83% of total primary production. The rest is from fossil fuels (16%) and hydropower (1%).

ASU Campus Metabolism is a website managed by Arizona State University, demonstrating Energy monitoring and targeting through use of real-time and historic energy use data of buildings on the campus in Tempe, Arizona. The site displays data from an Energy Information System in order to support education, research, operations and outreach regarding sustainability of operations on the ASU Tempe campus. The site is part of a plan for the campus to be carbon-neutral by 2025.

Renewable energy in South Africa Overview of renewable energy in South Africa

Renewable energy in South Africa is energy generated in South Africa from renewable resources, those that naturally replenish themselves—such as sunlight, wind, tides, waves, rain, biomass, and geothermal heat. Renewable energy focuses on four core areas: electricity generation, air and water heating/cooling, transportation, and rural energy services. The energy sector in South Africa is an important component of global energy regimes due to the country's innovation and advances in renewable energy. South Africa's contribution to greenhouse gas (GHG) emissions is ranked as moderate and its per capita emission rate is higher than the global average. Energy demand within the country is expected to rise steadily and double by 2025.

Renewable energy transition

The renewable energy transition is the ongoing energy transition which is replacing fossil fuels with renewable energy. This transition can impact many aspects of life including the environment, society, the economy and governance.

References

  1. Arizona State University - School of Geographical Sciences and Urban Planning: Pasqualetti Archived 2012-02-14 at the Wayback Machine (Accessed Dec 2011)
  2. Arizona State University -Global Institute of Sustainability: Pasqualetti (Accessed Dec 2011)
  3. "Solar subdivision is a 1st", Arizona Business Gazette, August 28, 2003
  4. ASU biographical page
  5. "Firms rush to stake claims in Mexico's isthmus", Arizona Republic, June 24, 2009
  6. "As Host of Climate Talks, Mexico Faces Domestic Energy Paradox", Reuters, November 4, 2010
  7. Wendy C. Kelleher, 2004, A Contemporary Public Naming Controversy in Phoenix, Arizona: The Changing Social Perspectives on Landmark Nomenclature. Names 52:2 (June 2004): 21-47
  8. Sluyter, A. (1998). The Evolving Landscape: Homer Aschmann's Geography, edited by Martin J. Pasqualetti. Hispanic American Historical Review, 78, 3, 49
  9. Starrs, P. F. (1996). The Evolving Landscape: Homer Aschmann's Geography. Edited by Martin J. Pasqualetti. Geographical Review New York-, 86, 3, 482-485.
  10. Mikeseli, M. W. (1998). Pasqualetti, Martin J., ed., The Evolving Landscape: Homer Aschmann's Geography. Annals- Association of American Geographers, 88, 1, 167-168.
  11. Weeks, J. (2003). Reviews - Wind Power in View. Bulletin of the Atomic Scientists, 59, 1, 67.
  12. Peace Research Abstracts (2004). a review of Wind power in view: energy landscapes in a crowded world, 41, 3.)
  13. Nielsen, K. H.,(2002). Review of Wind Power in View: Energy Landscapes in a Crowded World. Technology and Culture, 43, 4, 825-826.
  14. `Wind Power in View - energy landscapes in a crowded world' by Martin J. Pasqualetti, Paul Gipe and Robert W. Richter (Eds), Academic Press. (2002). Wind Engineering, 26, 425-426.
  15. Okey, B. (2005). Wind Power in View: Energy Landscapes in a Crowded World Martin J. Pasqualetti, Paul Gipe and Robert W. Righter. Pennsylvania Geographer, 43, 2, 124-126.
  16. Solomon, B. D. (2003). Martin J. Pasqualetti, Paul Gipe, and Robert W. Righter, eds. Wind Power in View: Energy Landscapes in a Crowded World. Professional Geographer, 55, 111.