Engineering Commons^™

Photovoltaic Applications For Disasters Course Manual, Florida Solar Energy Center, William Young

FSEC Energy Research Center®

This workshop training manual provides information for disaster relief and emergency management organization on using photovoltaic systems to supply electrical power for their every day operation in a disaster. The general public and the PV industry will also benefit from this information. Topics presented in the workshop manual will include emergency management operations, energy needs analysis, photovoltaic technology, system performance, reliability, maintenance, selection criteria, applications, and equipment specifications.

Evaluation Of Grid-Connected Photovoltaic Systems At The Nature Conservancy - Disney Wilderness Preserve, Florida Solar Energy Center, James Dunlop

FSEC Energy Research Center®

This report presents the results of an evaluation of two grid-connected photovoltaic (PV) systems installed at the Disney Wilderness Preserve, in Kissimmee, FL. Conducted by the Florida Solar Energy Center (FSEC), this evaluation consisted of visual inspection of the equipment and installation, as well as electrical performance measurements on the PV array and operating system. Following lists the key results from this evaluation.

• The two grid-connected PV systems at this site were functioning properly and their operational performance is within expectations. The photovoltaic array installation is generally pleasing and complete, and uses listed equipment (PV panels, inverter and combiner box). …

Supervisory Control And Data Acquisition Experiment Using The Advanced Communications Technology Satellite - Lessons Learned, Florida Solar Energy Center, Carol Emrich

FSEC Energy Research Center®

Satellite Supervisory Control and Data Acquisition (SCADA) of a Photovoltaic (PV)/diesel hybrid system was tested using NASA's Advanced Communication Technology Satellite (ACTS) and Ultra Small Aperture Terminal (USAT) ground stations. The setup consisted of a custom-designed PV/diesel hybrid system, located at the Florida Solar Energy Center (FSEC), which was controlled and monitored at a remote hub via Ka-band satellite link connecting two USATs in a SCADA arrangement. The robustness of the communications link was tested for remote monitoring of the health and performance of a PV/diesel hybrid system, and for investigating load control and battery charging strategies to maximize battery …

An Assessment Of Renewable Energy Options At Brooks Camp, Katmai National Park And Preserve, Florida Solar Energy Center, Gerard Ventre

FSEC Energy Research Center®

At the request of Brad Richie, NPS Alaska Support Office and manager of the Brooks Camp relocation project, a renewable energy team (RET) from the Department of Energy/Federal Energy Management Program (DOE/FEMP) conducted an on-site power system assessment at Brooks Camp. The assessment included:

• An evaluation of the current electrical loads at the site,
• An evaluation of the current facility power system,
• A review of the plans for the relocated facility and planned power needs,
• An assessment of the renewable resources and possible siting options, and
• The identification of potential opportunities for renewable power systems.

The RET activities were coordinated …

User Evaluation Of Prototype Pv Equipment For Disasters, Florida Solar Energy Center, William Young

FSEC Energy Research Center®

Natural disasters, such as hurricanes, floods and tornados, can happen at any time, destroying homes and businesses. One such disaster, Hurricane Andrew, devastated South Florida in 1992, leaving several hundred thousand people homeless. Many people were without electrical service, functional water and sewage systems, communications and medical services for days and weeks in the aftermath of the storm. Emergency management teams, the military, and countless public and private organizations staged a massive relief effort.

In response to the Hurricane Andrew disaster, the staff at the Florida Solar Energy Center, with assistance from Sandia National Laboratories, transported PV-powered equipment to Miami …

Program Plan For Photovoltaic Buildings In Florida, Florida Solar Energy Center, Gerard Ventre

FSEC Energy Research Center®

This document outlines plans developed by the Florida Solar Energy Center (FSEC) to support photovoltaic (PV) building applications in the State through the next decade. Implementation of the plan will be a collaborative effort among the Florida Energy Office (FEO) of the Department of Community Affairs, Sandia National Laboratories (SNL), the photovoltaic industry, nine end-user groups, and FSEC.

Pv Lighting Systems For Bcc - Evaluation Of Vrla Batteries And Pwm Controls, Florida Solar Energy Center, James Dunlop

FSEC Energy Research Center®

This report presents the initial seven-month performance summary for these 15 PV lighting systems, for the period February 13 through September 15, 1997. During this time, the systems were configured with three types of valve-regulated lead acid (VRLA) batteries (five systems using each type of battery), all operating with pulse-width-modulated (PWM) battery charge controllers. Details of the system configurations are presented in this report. Prior to initial operation, extensive baseline data was collected on the individual components installed in each system. This data included battery capacity and high-rate load measurements, battery weights, charge controller set points, PV array currents and …

Florida Photovoltaic Buildings Program: Mounting Methods For Rooftop Photovoltaic Arrays Shingle, Tile, And Metal Roofing Systems, Florida Solar Energy Center, Gerard Ventre

FSEC Energy Research Center®

The decision to install a PV array on a rooftop should be followed by the questions where, what, and how. Site selection determines where the array will be installed. The system design provides details on what hardware will be used; and the selected mounting method determines how the array will be attached to the roof.

A Summary Report On The Application Of Photovoltaic Systems And Metal Roofs, Florida Solar Energy Center, Stephen Barkaszi

FSEC Energy Research Center®

A recent resurgence of interest in roof-mounted photovoltaic systems has prompted the Florida Solar Energy Center to assess the current state of the technology from a systems viewpoint. A major part of the system that is often underestimated in the performance and economics of the system is the roof structure. The type of roof can significantly affect both the initial cost of an installation and the life cycle costs.

Stand-Alone Photovoltaic Lighting Systems A Decision-Maker's Guide, Florida Solar Energy Center, James Dunlop

FSEC Energy Research Center®

This document provides general considerations for evaluating the feasibility of photovoltaic (PV) lighting applications. These considerations include assessing lighting requirements, understanding site conditions and investigating alternative lighting and power source options. These guidelines are intended to help prospective buyers of PV lighting equipment evaluate applications, as well as helping those supplying systems and equipment identify potential markets for their products. Also covered in this document is an overview of popular PV lighting system applications, including area and sign lighting, signal and warning systems, consumer lighting devices and solar home lighting systems.

Needs Assessment: Photovoltaics In Disasters, Florida Solar Energy Center, William Young

FSEC Energy Research Center®

In recent years, solar energy has been used sporadically for disaster relief. Disaster relief organizations knew very little about photovoltaics; therefor, the technology was not included in their plans or operations. Likewise, the photovoltaic (PV) industry has not been directly involved on disaster teams, and did not aggressively pursue associated markets.

However, the Florida Solar Energy Center (FSEC) and Sandia National Laboratories (SNL) recently completed an energy needs assessment of disaster response, recovery and mitigation activities. The study found that PV is best suited for specialized or dedicated applications that need to operate for long periods of time. This paper …

Energy Needs During Disasters: Workshop Summary Report, Florida Solar Energy Center, Gerard Ventre

FSEC Energy Research Center®

When natural disasters, such as hurricanes, earthquakes and floods, occur, thousands of people can be left without homes, electrical power, communications, potable water, and food storage capabilities. Adequate electrical power is imperative for both disaster relief operations and community rebuilding. However, the disaster may have disrupted the commercial power supply to a community, requiring disaster relief agencies to rely on alternative sources of power. Photovoltaic-powered equipment provides electrical power which is renewable, quiet, and safe, and which can be used for many essentials of disaster relief efforts, such as refrigeration, communications and lighting. However, at present, photovoltaic (PV) technology is …

Pv Powering A Weather Station For Severe Weather, Florida Solar Energy Center, William Young

FSEC Energy Research Center®

A natural disaster, such as Hurricane Andrew, destroys thousands of homes and businesses. The destruction from this storm left thousands of people without communications, potable water, and electric power. This prompted the Florida Solar Energy Center to study the application of solar electric power for use in disasters.

During this same period, volunteers at the Tropical Prediction Center at the National Hurricane Center (NHC) and the Miami Office of the National Weather Service (NWS) were working to increase the quantity and quality of observations received from home weather stations.

Many weather data collecting stations are at remote sites, which are …

Photovoltaic Equipment For Disaster Relief, Florida Solar Energy Center, William Young

FSEC Energy Research Center®

Photovoltaic (solar electricity) has been used to power various equipment used in disasters. Previously, no organized program had used photovoltaic powered equipment in disasters. In response to an energy needs study with disaster relief organizations, Sandia National Laboratories for the U.S. Department of Energy sponsored the Florida Solar Energy Center to provide PV equipment to selected disaster relief organizations and evaluate its performance and acceptability. The purpose of the report is to describe the six PV-powered systems that were provided.

Needs Assessment For Applying Photovoltaics To Disaster Relief, Florida Solar Energy Center, William Young

FSEC Energy Research Center®

When disaster strikes, such as a hurricane, flood, tornado, or earthquake, it can leave many people without adequate medical services, portable water, electrical service and communications. It can be as destructive as Hurricane Andrew, which left several hundred-thousand people homeless. Those fortunate enough to survive the disaster could be without local utility power and other services for long periods of time as services are restored.

When such disasters occur, emergency management teams, the military, and many public and private organizations respond with massive relief efforts. Dependency on electrical utility power becomes pronounced as emergency services are rendered and rebuilding begins. …

Photovoltaic System Design Course For Savannah State College: Course Evaluation, Florida Solar Energy Center, Gerard Ventre

FSEC Energy Research Center®

This report describes the evaluation of a course entitles Photovoltaic System Design (PVSD), which was presented by the Florida Solar Energy Center (FSEC) to faculty members of Savannah State University (SSU). This distance education (DE) course was delivered via a two-way audio/video delivery system from FSEC to SSU. This course evaluation report is included as one of the deliverables in a contract awarded to SSU and FSEC as part of the Advanced Communications Technologies Satellite research project sponsored by the NASA Lewis Research Center, Cleveland, Ohio.

Evaluation Of Resources And Energy Systems At Fort Jefferson Garden Key, Dry Tortugas National Park, Florida Solar Energy Center, James Dunlop

FSEC Energy Research Center®

This report presents an evaluation of the resources and energy systems at Fort Jefferson, located on Garden Key in Dry Tortugas National Park, Florida. Conducted by Florida Solar Energy Center staff on June 11-12, 1997, this evaluation builds on a prior evaluation conducted in May 1989. The purpose of this evaluation was to document the energy and resource needs at the site, and to identify possibilities for reduced costs through conservation measures and renewable energy options.

Approximately 700 kWh of electrical energy is used at Fort Jefferson on a daily average, supplied exclusively by diesel-fueled generators. Average diesel fuel consumption …

Batteries And Charge Control In Stand-Alone Photovoltaic Systems. Fundamental And Application, Florida Solar Energy Center, James Dunlop

FSEC Energy Research Center®

This report presents an overview of battery technology and charge control strategies commonly used in stand-alone photovoltaic (PV) systems. This work is a compilation of information from several sources, including PV system design manuals, research reports, data from component manufacturers, and lessons learned from hardware evaluations.

History Of Applying Photovoltaics To Disaster Relief, Florida Solar Energy Center, William Young

FSEC Energy Research Center®

Hurricanes, floods, tornadoes, earthquakes, and other disasters can happen any place, any time. Major disasters destroy homes and businesses, and leave many people without adequate medical services, portable water, electrical service and communications. In response to the need for electrical service, solar energy offers a source of quite, safe, pollution-free power. Over the last few years, photovoltaic (solar electricity) power systems have provided energy for various disaster all over the country. Photovoltaics (PV) have been used to power vaccine refrigerators, medical equipment, lighting, radios, fans, communications, traffic devices and other electrical equipment. Previously, photovoltaics have supplied emergency power for Hurricane …

Applying Photovoltaics To Disaster Relief, Florida Solar Energy Center, William Young

FSEC Energy Research Center®

Hurricanes, floods, tornadoes, earthquakes, and other disasters can happen at any time, often with little or no advance warning. They can be as destructive as Hurricane Andrew leaving several hundred-thousand people homeless or as minor as an afternoon thunderstorm knocking down local power lines to your home. Major disasters leave many people without adequate medical services, portable water, electrical service and communications. In response to a natural disaster, photovoltaic (solar electric) modules offer a source of quite, safe, pollution-free electrical power. Photovoltaic (PV) power systems are capable of providing the electrical needs for vaccine refrigerators, microscopes, medical equipment, lighting, radios, …

Photovoltaic Applications For Disaster Relief, Florida Solar Energy Center, William Young

FSEC Energy Research Center®

Hurricanes, floods, tornadoes, and earthquakes are natural disasters that can happen at any time destroying homes, businesses, and natural surroundings. One such disaster, Hurricane Andrew, devastated South Florida leaving several hundred-thousand people homeless. Many people were without electrical service, functioning water and sewage systems, communications, and medical services for days, even weeks in the aftermath of the storm. Emergency management teams, the military and countless public and private organizations staged a massive relief effort. Dependency on electrical utility power became a pronounced problem as emergency services were rendered to survivors and the rebuilding process started.

Many of the energy needs …

Photovoltaic Applications For Disaster Relief. 11-95. Copies 1,2&3., Florida Solar Energy Center, William Young

FSEC Energy Research Center®

No abstract provided.

Solar Photovoltaic Air Conditioning Of Residential Buildings, Florida Solar Energy Center, Danny Parker

FSEC Energy Research Center®

The use of photovoltaics (PV) for residential air conditioning (AC) represents an attractive application due to the close match between the diurnal cooling load and the availability of solar radiation. Conventional wisdom suggests that air conditioning is a process too energy intensive to be addressed by PV. Previous investigations have concentrated on the feasibility of matching PV output to vapor-compression machines, and the cost effectiveness of other solar cooling options. Recently, Japanese manufacturers have introduced small (8,000 Btu/hr) grid-connected solar assisted AC systems. These small room-sized systems are inadequately sized to meet air conditioning peak demands in larger U.S. homes …

Barriers To Commercialization Of Solar Energy In Florida, Florida Solar Energy Center, Colleen Kettles

FSEC Energy Research Center®

Florida has a distinct history of solar system development and use. Solar systems have been operating in the State since the 1920s. During the past several decades, solar technologies have advanced and matured, as have the business entities that deliver solar products to the end user. Solar products made in Florida are U.S. and world industry leaders. Quality control measures, such as collector and system testing and certification, contractor training and licensing, and follow-up site inspection, have assured consumer confidence in solar equipment and installation.

Real Life Applications Of Photovoltaic Power To Hurricane Andrew Relief, Florida Solar Energy Center, William Young

FSEC Energy Research Center®

On August 24, 1992, Hurricane Andrew struck the coast of South Florida and devastated Dade County leaving several hundred-thousand people homeless. Over a million residences were without electrical service, functional water and sewage systems and medical services for days and weeks in the aftermath of the storm. Emergency management teams, medical personnel, the military and countless public and private organizations staged a massive relief effort.

The staff at the Florida Solar Energy Center and SANDIA National Laboratory responded to the disaster with photovoltaics (solar electric) powered equipment to assist in the relief effort. Electricity generated by these systems were used …

The Implementation Of Photovoltaic Transportation Devices, Florida Solar Energy Center, William Young

FSEC Energy Research Center®

The Florida Solar Energy Center (FSEC) and the Florida Department of Transportation (FDOT) are currently involved in a program to implement solar electric (photovoltaic) powered applications in the transportation sector. The objective of the program is to encourage the widespread use of cost-effective, transportation related, photovoltaic-powered systems in all areas of traffic control.

Transportation departments have generally relied on conventional practices of using generators, primary batteries, and extensions of utility grid to fulfil their power needs. There exist many remote and conventional electric power requirements within the FDOT that may be effectively satisfied by photovoltaic (PV) power. Applications ranging from …

Hurricane Andrew Photovoltaic Traffic Control Relief, Florida Solar Energy Center, William Young

FSEC Energy Research Center®

On August 24, 1992 Hurricane Andrew damaged and destroyed much of south Florida. The storm destroyed buildings, structures, and traffic devices along the highway. Travel was hazardous with debris in the roadway, traffic signals damaged or not working, and signs missing. This disaster offered a unique opportunity to research and evaluate the potential for using photovoltaic power systems in emergency traffic control situations. This report describes the findings of this study completed by the Florida Solar Energy Center sponsored by the Florida Department of Transportation.

Color-Rendering Of Daylight From Water-Filled Light Pipes, Florida Solar Energy Center, Ross Mccluney

FSEC Energy Research Center®

Water-filled light pipes can be used to transport concentrated beam solar radiation from a solar collection system to a utilization system, altering the spectral distribution of the radiation in a beneficial way in the process. One use for such a system would be for the daylighting of the core interior spaces of buildings, spaces that are far removed from outside walls or the roof and are therefore not amenable to conventional daylighting with sidelights or toplights. The filtering action of the water can be used to remove unwanted infrared and ultraviolet radiation while affecting the visible portion of the radiation …

Solar Energy In Florida, Florida Solar Energy Center, Carolyn King Burns

FSEC Energy Research Center®

To understand Florida's position in the development of solar technologies it's necessary to visualize a bigger picture. Currently, the United States spends over $38 billion per year for crude oil and petroleum product imports, whereas appropriations for research and development on solar energy technology total less than $120 million per year.

Not only do we operate within a global economy, we also operate within a global environment. If the greenhouse effect and global climate change force nations to drastically reduce carbon dioxide emissions, there are very few alternatives to fossil fuels for power production. In a world of dwindling energy …

Photovoltaic-Powered Lighting System For Overhead Highway Guide Signs, Florida Solar Energy Center, Public Information Office

FSEC Energy Research Center®

The problem: A safety hazard affected motorists traveling through a remote area in Brevard County near the St. Johns River on the eastbound Bee Line Expressway (S.R. 528). At that point the Bee Line splits, sending Titusville- bound motorists to the north, and Central Brevard- bound travelers to the south. Because of the high cost of extending utility service several miles from the nearest distribution point, the overhead guide signs were not illuminated, and at such a critical juncture on the 65-mph highway, it was difficult, if not impossible, to read them at night. The problem-solvers: Since 2.5 million vehicles …