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Relevant bibliographies by topics / Waiahole Water Project (Hawaii)

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Academic literature on the topic 'Waiahole Water Project (Hawaii)'

Author: Grafiati

Published: 4 June 2021

Last updated: 6 February 2022

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Journal articles on the topic "Waiahole Water Project (Hawaii)"

1

Gopalakrishnan, Chennat, Jason Levy, Kevin W. Li, and Keith W. Hipel. "Water Allocation among Multiple Stakeholders: Conflict Analysis of the Waiahole Water Project, Hawaii." International Journal of Water Resources Development 21, no. 2 (2005): 283–95. http://dx.doi.org/10.1080/07900620500108494.

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Stolper, Edward M., Donald J. DePaolo, and Donald M. Thomas. "Introduction to Special Section: Hawaii Scientific Drilling Project." Journal of Geophysical Research: Solid Earth 101, B5 (1996): 11593–98. http://dx.doi.org/10.1029/96jb00332.

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YAMAMOTO, LOREN G., ANN BARBARA YEE, WALLACE J. MATTHEWS, and ROBERT A. WIEBE. "A one-year series of pediatric ED water-related injuries: The Hawaii EMS-C project." Pediatric Emergency Care 8, no. 3 (1992): 129–33. http://dx.doi.org/10.1097/00006565-199206000-00004.

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4

Luchetti, Nicholas T., Jessica R. P. Sutton, Ethan E. Wright, Michael C. Kruk, and John J. Marra. "When El Niño Rages: How Satellite Data Can Help Water-Stressed Islands." Bulletin of the American Meteorological Society 97, no. 12 (2016): 2249–55. http://dx.doi.org/10.1175/bams-d-15-00219.1.

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Abstract There are more than 2,000 islands across Hawaii and the U.S.-Affiliated Pacific Islands (USAPI), where freshwater resources are heavily dependent upon rainfall. Many of the islands experience dramatic variations in precipitation during the different phases of the El Niño–Southern Oscillation (ENSO). Traditionally, forecasters in the region relied on ENSO climatologies based on spatially limited in situ data to inform their seasonal precipitation outlooks. To address this gap, a unique NOAA/NASA collaborative project updated the ENSO-based rainfall climatology for the Exclusive Economic Zones (EEZs) encompassing Hawaii and the USAPI using NOAA’s PERSIANN Climate Data Record (CDR). The PERSIANN-CDR provides a 30-yr record of global daily precipitation at 0.25° resolution (∼750 km2 near the equator). This project took place over a 10- week NASA DEVELOP National Program term and resulted in a 478-page climatic reference atlas. This atlas is based on a 30-yr period from 1 January 1985 through 31 December 2014 and complements station data by offering an enhanced spatial representation of rainfall averages. Regional and EEZ-specific maps throughout the atlas illustrate the percent departure from average for each season based on the Oceanic Niño Index (ONI) for different ENSO phases. To facilitate intercomparisons across locations, this percentage-based climatology was provided to regional climatologists, forecasters, and outreach experts within the region. Anomalous wet and dry maps for each ENSO phase are used by the regional constituents to better understand precipitation patterns across their regions and to produce more accurate forecasts to inform adaptation, conservation, and mitigation options for drought and f looding events.

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Eiler, John M., John W. Valley, and Edward M. Stolper. "Oxygen isotope ratios in olivine from the Hawaii Scientific Drilling Project." Journal of Geophysical Research: Solid Earth 101, B5 (1996): 11807–13. http://dx.doi.org/10.1029/95jb03194.

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Rhodes, J. M. "Geochemical stratigraphy of lava flows sampled by the Hawaii Scientific Drilling Project." Journal of Geophysical Research: Solid Earth 101, B5 (1996): 11729–46. http://dx.doi.org/10.1029/95jb03704.

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Garnier, Florence, Carlo Laj, Emilio Herrero-Bervera, Catherine Kissel, and Don M. Thomas. "Preliminary determinations of geomagnetic field intensity for the last 400 kyr from the Hawaii Scientific Drilling Project core, Big Island, Hawaii." Journal of Geophysical Research: Solid Earth 101, B5 (1996): 11665–73. http://dx.doi.org/10.1029/95jb03844.

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Garcia, Michael O. "Petrography and olivine and glass chemistry of lavas from the Hawaii Scientific Drilling Project." Journal of Geophysical Research: Solid Earth 101, B5 (1996): 11701–13. http://dx.doi.org/10.1029/95jb03846.

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Davis, Logan, Kyle Flores, Erin Main, Mark Rognstad, and Margo Edwards. "Time-Lapse Photography of Munitions at Ordnance Reef." Marine Technology Society Journal 46, no. 3 (2012): 21–25. http://dx.doi.org/10.4031/mtsj.46.3.1.

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AbstractOrdnance Reef, located just off the west coast of the island of O’ahu, Hawaii, is a shallow-water site (∼6-10 m water depth) where conventional munitions were disposed following World War II. Over the past decade, the site has been extensively mapped and sampled by the U.S. Army and National Oceanic and Atmospheric Administration (NOAA) using a wide variety of techniques. In the summer of 2011 at Ordnance Reef, we deployed an underwater time-lapse camera that was developed as part of a student science fair project to capture images of the interaction between the ocean environment and two munitions over an approximately 24-h period. During the deployment, the system photographed 10 species in the vicinity of munitions, three of which came into direct contact with munitions casings. Our project demonstrates that time-lapse photography could potentially be an inexpensive and effective approach for documenting the effects of munitions on the ocean environment and its residents.

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Hogan, Timothy W., Jessica Withrow, Chad Linebaugh, Andrew Harmer, John Steinbeck, and Stephen K. Oney. "A Field Program for Developing a Baseline Characterization of Ichthyoplankton Near a Potential OTEC Facility." Marine Technology Society Journal 47, no. 4 (2013): 137–41. http://dx.doi.org/10.4031/mtsj.47.4.9.

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AbstractOcean thermal energy conversion (OTEC) is a marine renewable energy technology with the potential to provide baseload power to island communities in tropical regions. Large volumes of warm and cold water are required to drive the electricity-producing cycle. This creates a risk, particularly at the warm water intake, for the impingement and entrainment of organisms. This paper provides an update on the progress of a project funded by the U.S. Department of Energy that seeks to estimate the potential impacts of a warm water intake being considered for a potential OTEC project in Kauai, Hawaii. A 9-month, site-specific biological field sampling program has recently been completed at the OTEC site under consideration in Kauai.The intent of the field sampling program was to generate a baseline characterization of the species and life stages of ichthyoplankton present in the areas where the warm water intake may be located for the potential OTEC facility. This baseline characterization data will aid in the siting, selection, and design of the best intake technology for the warm water intake. It will also provide data useful for estimating the potential impacts of an intake at this location on the organisms present.

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Books on the topic "Waiahole Water Project (Hawaii)"

1

Sorey, M. L. Potential effects of the Hawaii Geothermal Project on ground-water resources on the island of Hawaii. U.S. Geological Survey, 1994.

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Book chapters on the topic "Waiahole Water Project (Hawaii)"

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Neale, Timothy. "Cosmopolitics on the Wenlock River." In Wild Articulations. University of Hawai'i Press, 2017. http://dx.doi.org/10.21313/hawaii/9780824873110.003.0007.

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Chapter 6 focuses on the most controversial of the Wild Rivers Act declarations: the Wenlock River area. The Wenlock spans almost the entire breadth of the region and includes a diverse but discrete assembly of stakeholders: three Indigenous local government areas and three separate native title claimant groups; an Indigenous Protected Area, a national park, a privately managed nature refuge and a wildlife reserve dedicated to the late television conservationist Steve Irwin; a bauxite mining project; and, finally, an array of nonhuman actors such as estuarine crocodiles, spotted cuscuses, orchids, aquifers and water flows themselves. Adopting philosopher Isabelle Stengers’ ‘cosmopolitical proposal’, this chapter proposes that we might think of a ‘wild river’ not only as a legal object or waterway but also as a network that intimately links the specific worlds of diverse knowledges and practices accumulating around it. The Act forced the matter of how these worlds are rendered quantifiable and comparable today. How are we to adjudicate their relative existence? The future of these rivers is a matter of realizing the relations of allegiance and incompatibility between these worlds.

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Conference papers on the topic "Waiahole Water Project (Hawaii)"

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Walker, Andy, Craig Christensen, and Glen Yanagi. "Time-of-Use Monitoring of U.S. Coast Guard Residential Water Heaters With and Without Solar Water Heating in Honolulu, HI." In ASME 2003 International Solar Energy Conference. ASMEDC, 2003. http://dx.doi.org/10.1115/isec2003-44001.

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A combination of high energy costs, uniform solar resource, and an active solar industry combine to make Hawaii a good location for cost effective applications of solar water heating. The non-freezing climate allows for simple solar water heating system designs. In the mild climate of Hawaii, solar water heating can displace a large fraction of a home’s electricity use since heating and cooling loads are small. In 1998, sixty-two solar water heaters were installed at Kiai Kai Hale US Coast Guard Housing Area in Honolulu, HI as a pilot project under a grant from the US DOE Federal Energy Management Program (FEMP). The systems are active, open loop systems with a single tank (electric water heater with the bottom element disabled). An assessment of these pilot units will help inform a Coast Guard decision regarding implementing solar water heating on the remaining 256 units in the housing area, and may be useful information for other government and utility programs. On 25 houses with solar water heating and 25 identical houses without solar, instruments were installed to measure on/off cycles of the electric water heaters and the tank outlet temperature. This paper describes the results the monitoring for a six week period From June 11 to July 25, 2002, with a statistical extrapolation to estimate annual savings. Demand savings are estimated at 1.62 kW/house, energy savings at 3,008 kWh/house/year, and annual cost savings per house is estimated at $380/year due to solar. For a system cost of $3,200 ($4,000 minus a $800 utility rebate) and a 25 year present worth factor of 17.1, the savings to investment ratio (SIR) is 2.03, so this solar water heating application is cost effective according to Federal regulation 10CFR436 (which requires SIR>1.0). The annual solar fraction is estimated at 74% and annual solar water heating system efficiency is estimated at 24%. This paper describes the statistical design of the survey; the measured load profiles; the energy, demand, and cost savings; and the observed condition of the systems. The paper includes a discussion of application of the International Performance Measurement and Verification Protocol (IPMVP) applied to renewable energy systems.

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Sclafani, Anthony. "Analysis of Carbon Dioxide Emission Reductions From Energy Efficiency Upgrades in Consideration of Climate Change and Renewable Energy Policy Initiatives Using eQUEST." In ASME 2010 4th International Conference on Energy Sustainability. ASMEDC, 2010. http://dx.doi.org/10.1115/es2010-90143.

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In January 2008 the Governor of Hawaii announced the Hawaii Clean Energy Initiative; an initiative that aims to have at least 70 percent of Hawaii’s power come from clean energy by 2030 [4]. In July 2009, the Hawaii Department of Accounting and General Services awarded NORESCO, an energy service company, a $33.9M contract to improve the energy efficiency of 10 government buildings. The avoided utility cost of the energy and water savings from the improvements is the project funding mechanism. The energy savings realized by the project will reduce carbon dioxide emissions associated with utility power generation. However, as renewable energy becomes a larger portion of the utility generation profile through the Hawaii Clean Energy Initiative, the carbon dioxide emissions reductions from specific energy efficiency measures may erode over time. This work presents a method of analysis to quantify the carbon dioxide emissions reduction over the life of a project generated by energy efficiency upgrades that accounts for both the impact of policy initiatives and climate change using DOE-2/eQUEST. The analysis is based on the fact that HVAC energy usage will vary with climate changes and that carbon dioxide emission reductions will vary with both energy savings and the corresponding utility’s power generation portfolio. The energy savings related to HVAC system energy efficiency improvements are calculated over the life of a 20 year performance contract using a calibrated DOE-2/eQUEST model of an existing building that utilizes weather data adjusted to match the predictions of the Intergovernmental Panel on Climate Change. The carbon dioxide emissions reductions are calculated using the energy savings results and a projection of the implementation of the Hawaii Clean Energy Initiative. The emissions reductions are compared with other analysis methods and discussed to establish more refined expectations of the impact of energy efficiency projects in context with climate changes and policy initiatives.

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Singhal, Gaurav, Aengus Connolly, Manuel Laranjinha, Colin McKinnon, and Alan Mortimer. "Independent Assessment of Current Floater Concepts for Floating Wind Application." In SNAME 26th Offshore Symposium. SNAME, 2021. http://dx.doi.org/10.5957/tos-2021-04.

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Most of the offshore wind developments to date, globally, have been bottom-fixed foundations located in shallow waters (&lt;30m water depth) and in close proximity to shore. However, as technology improves and as space for near-shore sites decreases, offshore wind development is projected to trend towards deeper waters. Floating wind is thus expected to become one of the leading renewable energy sources over the next decade or so. Notably, the success of pilot projects in Europe has confirmed the viability of floating wind technology, drawing in additional developers to the market. In the United States, there is a significant potential for floating offshore wind off the coast of California, Maine, and Hawaii. While the majority of current floating wind activity is concentrated in &lt;200m water depth, further technology improvement coupled with experience from floating oil and gas developments will lead to even deeper floating wind projects in the future. One key aspect for floating wind technology is the floater foundation that will support the wind turbine assembly. The entire unit will be moored to the seabed and be subject to challenging environment conditions throughout its service life (akin to a floating oil and gas production facility). There are several floating wind concepts currently in the market - a handful are field-proven at pilot project scale but the majority are still in development phase, each with their own unique offering. The purpose of this paper is to perform an independent qualitative assessment of the current floating wind concepts. The assessment will focus on aspects related to technology readiness, design complexity and scalability, material selection, constructability, installation, operations, and maintenance. This paper provides the offshore wind industry with an unbiased opinion on available designs as well as an insight into perceived challenges for future developments. As a disclaimer, it is noted that Wood has utilized public-domain information for this study and has no preference towards any existing floating wind concepts or designs.

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Fradette, Michael, and Ke Max Zhang. "Energy Storage for a Sustainable Development." In ASME 2009 3rd International Conference on Energy Sustainability collocated with the Heat Transfer and InterPACK09 Conferences. ASMEDC, 2009. http://dx.doi.org/10.1115/es2009-90214.

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The CU Green, Palamanui Project Team worked to create an integrated document for the developers of Palamanui, a 725 acre community on the Big Island of Hawaii consisting of residential sections, a business park, town center, university, and hotel, regarding how the development can be more sustainable and environmental aware. The document addresses engineering issues, alongside architectural and environmental issues, including but not limited to solar generation, energy storage, plug in hybrid vehicles (PHEV), microgrids, smart architectural and landscape design, load management, waste water treatment, and the business aspects of each technology. The team worked together to combine engineering, environmental, social, architectural, and business aspects into a single overarching document recommending how the development can move towards sustainability. The following paper addresses the energy storage aspects for the Palamanui development, analyzing different technologies, operating scenarios, and financial results. Incorporating an energy-storage system in the Palamanui development is beneficial for all involved parties. Residents benefit from a more reliable grid, with increased distributed generation. The community and environment will benefit from increased solar generation and a reduction in required peak generation from HELCO, corresponding to a decrease in greenhouse gas emissions and pollutants. Lastly, the developers benefit because the property can be marketed as a sustainable development with a more reliable grid, thus increasing market value. The storage system can exist as a centralized plant, being a large battery bank or compressed-air-energy storage system (CAES), or the system can be distributed throughout the development as plug-in hybrid vehicles (PHEV) or individual home batteries. Of the many energy storage methods available, three are seriously considered for the Palamanui development: sodium sulfur battery banks, lead-acid battery banks, and small-scale CAES in fabricated vessels. Battery banks and CAES operate under the same concept, drawing energy from the grid during times of low demand (10 p.m. to 6 a.m.) or from excess solar generation. During times of peak demand, stored energy is discharged to the grid to meet daily loads. Of all the systems analyzed, the final recommendation is block storage distributed throughout the development using sodium-sulfur (NaS) batteries. Sodium-sulfur batteries are the most appealing because of the small footprint, long lifetime, and lower lifetime cost. CAES systems with natural-gas prove to be too expensive with Hawaii’s high natural-gas prices. CAES without natural-gas has potential, but with little to no commercial testing having been done on this systems, further investigation is required and strongly recommended.

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Reports on the topic "Waiahole Water Project (Hawaii)"

1

Sorey, M. L., and E. M. Colvard. Potential effects of the Hawaii geothermal project on ground-water resources on the Island of Hawaii. Office of Scientific and Technical Information (OSTI), 1994. http://dx.doi.org/10.2172/10163008.

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2

Potential effects of the Hawaii Geothermal Project on ground-water resources on the island of Hawaii. US Geological Survey, 1994. http://dx.doi.org/10.3133/wri944028.

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