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Renewable Energy
Renewable energy
Renewable energy sources worldwide at the end of 2006.
Renewable energy is energy generated from natural resources—such as sunlight, wind, rain, tides, and geothermal heat — which are renewable (naturally replenished). In 2006, about 18% of global final energy consumption came from renewables, with 13% coming from traditional biomass, such as wood-burning.Hydroelectricity was the next largest renewable source, providing 3% (15% of global electricity generaiton), followed by solar hot water /heating, which contributed 1.3%. Modern technologies, such as geothermal energy, wind power, solar power and ocean energy together provided some 0.8% of final energy consumption.
Climate change concerns coupled with high oil prices, peak oil and increasing government support are driving increasing renewable energy legislation, incentives and commercialization.European Union leaders reached an agreement in principle in March 2007 that 20 percent of their nations' energy should be produced from renewable fuels by 2020, as part of its drive to cut emissions of carbon dioxide, blamed in part for global warming. Investment capital flowing into renewable energy climbed from $80 billion in 2005 to a record $100 billion in 2006.
In responce to the G8's call on the IEA for "guidance on how to achieve a clean, clever and competitive energy future", the IEA reported that the replacement of current technology with renewable energy could help reduce CO2 emmisions by 50% by 2050, which they claim is of crucial importance because current policies are not sustainable.
Wind power is growing at the rate of 30 percent annually, with a worldwide installed capacity of over 100 GW, and is widely used in several European countries and the United States. The manufacturing output of the photovoltaics industry reached more than 2,000 MW in 2006, and photovoltaic (PV) power stations are particularly popular in Germany. Solar thermal power stations operate in the USA and Spain, and the largest of these is the 354 MW SEGS power plant in the Mojave Desert. The world's largest geothermal power installation is The Gevsers in California, with a rated capacity of 750 MW. Brazil has one of the largest renewable energy programs in the world, involving production of ethanol fuel from sugar cane, and ethanol now provides 18 percent of the country's automotive fuel. Ethanol fuel is also widely available in the USA.
While there are many large-scale renewable energy projects and production, renewable technologies are also suited to small off-grid applications, sometimes in rural and remote areas, where energy is often crucial in human development. Kenya has the world's highest household solar ownership rate with roughly 30,000 small (20–100 watt) solar power systems sold per year.
Some renewable energy technologies are criticised for being intermittent or unsightly, yet the market is growing for many forms of renewable energy.
Main renewable energy technologies
Three energy sources
The majority of renewable energy technologies are directly or indirectly powered by the sun. The Earth-Atmosphere system is in equilibrium such that heat radiation into space is equal to incoming solar radiation, the resulting level of energy within the Earth-Atmosphere system can roughly be described as the Earth's "climate." The hydrosphere (water) absorbs a major fraction of the incoming radiation. Most radiation is absorbed at low latitudes around the equator, but this energy is dissipated around the globe in the form of winds and ocean currents. Wave motion may play a role in the process of transferring mechanical energy between the atmosphere and the ocean through wind stress. Solar energy is also responsible for the distribution of precipitation which is tapped by hydroelectric projects, and for the growth of plants used to create biofuels.
Renewable energy flows involve natural phenomena such as sunlight, wind, tides and geothermal heat, as the International Energy Agency explains:
"Renewable energy is derived from natural processes that are replenished constantly. In its various forms, it derives directly from the sun, or from heat generated deep within the earth. Included in the definition is electricity and heat generated from solar, wind, ocean, hydropower, biomass, geothermal resources, and biofuels and hydrogen derived from renewable resources.”
Each of these sources has unique characteristics which influence how and where they are used.
Wind power
Vestas V80 wind turbines
Airflows can be used to run wind turbines. Modern wind turbines range from around 600 kW to 5 MW of rated power, although turbines with rated output of 1.5–3 MW have become the most common for commercial use; the power output of a turbine is a function of the cube of the wind speed, so as wind speed increases, power output increases dramatically. Areas where winds are stronger and more constant, such as offshore and high altitude sites, are preferred locations for wind farms.
Since wind speed is not constant, a wind farm’s annual energy production is never as much as the sum of the generator nameplate ratings multiplied by the total hours in a year. The ratio of actual productivity in a year to this theoretical maximum is called the capacity factor. Typical capacity factors are 20-40%, with values at the upper end of the range in particularly favourable sites. For example, a 1 megawatt turbine with a capacity factor of 35% will not produce 8,760 megawatt-hours in a year, but only 0.35x24x365 = 3,066 MWh, averaging to 0.35 MW. Online data is available for some locations and the capacity factor can be calculated from the yearly output.
Globally, the long-term technical potential of wind energy is believed to be five times total current global energy production, or 40 times current electricity demand. This could require large amounts of land to be used for wind turbines, particularly in areas of higher wind resources. Offshore resources experience mean wind speeds of ~90% greater than that of land, so offshore resources could contribute substantially more energy. This number could also increase with higher altitude ground-based or airborne wind turbines.
Wind power is renewable and produces no greenhouse gases during operation, such as carbon dioxdie and methane.
Water power
Energy in water (in the form of kinetic energy, temperature differences or salinity gradients) can be harnessed and used. Since water is about 800 times denser than air, even a slow flowing stream of water, or moderate sea swell, can yield considerable amounts of energy.
One of 3 PELAMIS P-750 Ocean Wave Power engines in the harbour of Peniche/ Portugal.
There are many forms of water energy:
· Hydroelectric energy is a term usually reserved for large-scale hydroelectric dams. Examples are the Grand Coulee Dam in Washington State and the Akosombo Dam in Ghana.
· Micro hydro systems are hydroelectric power installations that typically produce up to 100 kW of power. They are often used in water rich areas as a Remote Area Power Supply (RAPS). There are many of these installations around the world, including several delivering around 50 kW in the Solomon Islands.
· Damless hydro systems derive kinetic energy from rivers and oceans without using a dam.
· Ocean energy describes all the technologies to harness energy from the ocean and the sea:
o Marine current power. Similar to tidal stream power, uses the kinetic energy of marine currents
o Ocean thermal energy conversion (OTEC) uses the temperature difference between the warmer surface of the ocean and the colder lower recesses. To this end, it employs a cyclic heat engine. OTEC has not been field-tested on a large scale.
o Tidal power captures energy from the tides. Two different principles for generating energy from the tides are used at the moment:
o Tidal motion in the vertical direction — Tides come in, raise water levels in a basin, and tides roll out. Around low tide, the water in the basin is discharged through a turbine, exploiting the stored potential energy.
o Tidal motion in the horizontal direction — Or tidal stream power. Using tidal stream generators, like wind turbines but then in a tidal stream. Due to the high density of water, about eight-hundred times the density of air, tidal currents can have a lot of kinetic energy. Several commercial prototypes have been build, and more are in development.
· Wave power uses the energy in waves. Wave power machines usually take the form of floating or neutrally buoyant structures which move relative to one another or to a fixed point. Wave power has now reached commercialization.
· Saline gradient power, or osmotic power, is the energy retrieved from the difference in the salt concentration between seawater and river water. Reverse electrodialysis (RED), and Pressure retarded osmosis (PRO) is in research and testing phase.
· Deep lake water cooling, although not technically an energy generation method, can save a lot of energy in summer. It uses submerged pipes as a heat sink for climate control systems. Lake-bottom water is a year-round local constant of about 4 °C.
Solar energy use
Monocrystalline solar cell
In this context, "solar energy" refers to energy that is collected from sunlight. Solar energy can be applied in many ways, including to:
• Generate electricity by heating trapped air which rotates turbines in a Solar updraft tower.
• Generate electricity in geosynchronous orbit using solar power satellites.
• Generate electricity using photovoltaic solar cells.
• Generate electricity using concentrated solar power.
• Generate hydrogen using photoelectrochemical cells.
• Heat and cool air through use of solar chimneys.
• Heat buildings, directly, through passive solar building design.
• Heat foodstuffs, through solar ovens.
• Heat water or air for domestic hot water and space heating needs using solar-thermal panels.
• Solar air conditioning
Biofuel
Plants use photosynthesis to grow and produce biomass. Also known as biomatter, biomass can be used directly as fuel or to produce liquid biofuel. Agriculturally produced biomass fuels, such as biodiesel, ethanol and bagasse (often a by-product of sugar cane cultivation) can be burned in internal combustion engines or boilers. Typically biofuel is burned to release its stored chemical energy. Research into more efficient methods of converting biofuels and other fuels into electricity utilizing fuel cells is an area of very active work.
Liquid biofuel
Information on pump, California.
Liquid biofuel is usually either a bioalcohol such as ethanol fuel or a bio-oil such as biodiesel and straight vegetable oil. Biodiesel can be used in modern diesel vehicles with little or no modification to the engine and can be made from waste and virgin vegetable and animal oil and fats (lipids). Virgin vegetable oils can be used in modified diesel engines. In fact the Diesel engine was originally designed to run on vegetable oil rather than fossil fuel. A major benefit of biodiesel is lower emissions. The use of biodiesel reduces emission of carbon monoxide and other hydrocarbons by 20 to 40%.
In some areas corn, cornstalks, sugarbeets, sugar cane, and switchgrasses are grown specifically to produce ethanol (also known as grain alcohol) a liquid which can be used in internal combustion engines and fuel cells. Ethanol is being phased into the current energy infrastructure. E85 is a fuel composed of 85% ethanol and 15% gasoline that is sold to consumers. Biobutanol is being developed as an alternative to bioethanol. There is growing international criticism about biofuels from food crops with respect to issues such as food security, environmental impacts (deforestation) and energy balance.
Solid biomass
Sugar cane residue can be used as a biofuel
Solid biomass is mostly commonly usually used directly as a combustible fuel, producing 10-20 MJ/kg of heat.
Its forms and sources include wood fuel, the biogenic portion of municipal solid waste, or the unused portion of field crops. Field crops may or may not be grown intentionally as an energy crop, and the remaining plant byproduct used as a fuel. Most types of biomass contain energy. Even cow manure still contains two-thirds of the original energy consumed by the cow. Energy harvesting via a bioreactor is a cost-effective solution to the waste disposal issues faced by the dairy farmer, and can produce enough biogas to run a farm.
With current technology, it is not ideally suited for use as a transportation fuel. Most transportation vehicles require power sources with high power density, such as that provided by internal combustion engines. These engines generally require clean burning fuels, which are generally in liquid form, and to a lesser extent, compressed gaseous phase. Liquids are more portable because they have high energy density, and they can be pumped, which makes handling easier. This is why most transportation fuels are liquids.
Non-transportation applications can usually tolerate the low power-density of external combustion engines, that can run directly on less-expensive solid biomass fuel, for combined heat and power. One type of biomass is wood, which has been used for millennia in varying quantities, and more recently is finding increased use. Two billion people currently cook every day, and heat their homes in the winter by burning biomass, which is a major contributor to man-made climate change global warming. The black soot that is being carried from Asia to polar ice caps is causing them to melt faster in the summer. In the 19th century, wood-fired steam engines were common, contributing significantly to industrial revolution unhealthy air pollution. Coal is a form of biomass that has been compressed over millennia to produce a non-renewable, highly-polluting fossil fuel.
Wood and its byproducts can now be converted through process such as gasification into biofuels such as woodgas, biogas, methanol or ethanol fuel; although further development may be required to make these methods affordable and practical. Sugar cane residue, wheat chaff, com cobs and other plant matter can be, and are, burned quite successfully. The net carbon dioxide emissions that are added to the atmosphere by this process are only from the fossil fuel that was consumed to plant, fertilize, harvest and transport the biomass.
Processes to harvest biomass from short-rotation poplars and willows, and perennial grasses such as switchgrass, phalaris, and miscanthus, require less frequent cultivation and less nitrogen than from typical annual crops. Pelletizing miscanthus and burning it to generate electricity is being studied and may be economically viable.
Biogas
Biogas can easily be produced from current waste streams, such as: paper production, sugar production, sewage, animal waste and so forth. These various waste streams have to be slurried together and allowed to naturally ferment, producing methane gas. This can be done by converting current sewage plants into biogas plants. When a biogas plant has extracted all the methane it can, the remains are sometimes better suitable as fertilizer than the original biomass.
Alternatively biogas can be produced via advanced waste processing systems such as mechanical biological treatment. These systems recover the recyclable elements of household waste and process the biodegradable fraction in anaerobic digesters.
Renewable natural gas is a biogas which has been upgraded to a quality similar to natural gas. By upgrading the quality to that of natural gas, it becomes possible to distribute the gas to the mass market via gas grid.
Geothermal energy
Krafla Geothermal Station in northeast Iceland
Geothermal energy is energy obtained by tapping the heat of the earth itself, usually from kilometers deep into the Earth's crust. It is expensive to build a power station but operating costs are low resulting in low energy costs for suitable sites. Ultimately, this energy derives from heat in the Earth’s core. The government of Iceland states: "It should be stressed that the geothermal resource is not strictly renewable in the same sense as the hydro resource." It estimates that Iceland's geothermal energy could provide 1700 MW for over 100 years, compared to the current production of 140 MW. Radioactive elements in the earth's crust continuously decay, replenishing the heat. The International Energy Agency classifies geothermal power as renewable.
Three types of power plants are used to generate power from geothermal energy: dry steam, flash, and binary. Dry steam plants take steam out of fractures in the ground and use it to directly drive a turbine that spins a generator. Flash plants take hot water, usually at temperatures over 200 °C, out of the ground, and allows it to boil as it rises to the surface then separates the steam phase in steam/water separators and then runs the steam through a turbine. In binary plants, the hot water flows through heat exchangers, boiling an organic fluid that spins the turbine. The condensed steam and remaining geothermal fluid from all three types of plants are injected back into the hot rock to pick up more heat.
The geothermal energy from the core of the Earth is closer to the surface in some areas than in others. Where hot underground steam or water can be tapped and brought to the surface it may be used to generate electricity. Such geothermal power sources exist in certain geologically unstable parts of the world such as Chile, Iceland, New Zealand, United States, the Philippines and Italy. The two most prominent areas for this in the United States are in the Yellowstone basin and in northern California. Iceland produced 170 MW geothermal power and heated 86% of all houses in the year 2000 through geothermal energy. Some 8000 MW of capacity is operational in total.
There is also the potential to generate geothermal energy from hot dry rocks. Holes at least 3 km deep are drilled into the earth. Some of these holes pump water into the earth, while other holes pump hot water out. The heat resource consists of hot underground radiogenic granite rocks, which heat up when there is enough sediment between the rock and the earths surface. Several companies in Australia are exploring this technology.
Renewable energy commercialization
Costs
Source 2001 energy costs Potential future energy cost
Electricity
Wind 4–8 ¢/kWh 3–10 ¢/kWh
Solar photovoltaic 25–160 ¢/kWh 5–25 ¢/kWh
Solar thermal 12–34 ¢/kWh 4–20 ¢/kWh
Large hydropower 2–10 ¢/kWh 2–10 ¢/kWh
Small hydropower 2–12 ¢/kWh 2–10 ¢/kWh
Geothermal 2–10 ¢/kWh 1–8 ¢/kWh
Biomass 3–12 ¢/kWh 4–10 ¢/kWh
Coal (comparison) 4 ¢/kWh
Heat
Geothermal Heat 0.5–5 ¢/kWh 0.5–5 ¢/kWh
Biomass — heat 1–6 ¢/kWh 1–5 ¢/kWh
Low Temp Solar Heat 2–25 ¢/kWh 2–10 ¢/kWh
All costs are in 2001 US$-cent per kilowatt-hour.
New generation of solar thermal plants
The 11 megawatt PS10 solar power tower in Spain produces electricity from the sun using 624 large movable mirrors called heliostats.
Aerial view of one of the SEGS plants.
Since 2004 there has been renewed interest in solar thermal power stations and two plants were completed during 2006/2007: the 64 MW Nevada Solar One and the 11 MW PS10 solar power tower in Spain. Three 50 MW trough plants were under construction in Spain at the end of 2007 with 10 additional 50 MW plants planned. In the United States, utilities in California and Florida have announced plans (or contracted for) at least eight new projects totaling more than 2,000 MW.
In developing countries, three world bank projects for integrated CSP/combined-cycle gas-turbine power plants in Egypt, Mexico, and Morocco were approved during 2006/2007.
There are several solar thermal power plant in the Mojave Desert which supply power to the electricity grid. Solar Energy Generating Systems (SEGS) is the name given to nine solar power plants in the Mojave Desert which were built in the 1980s. These plants have a combined capacity of 354 MW making them the largest solar power installation in the world.
World's largest photovoltaic power plants
Several large photovoltaic power plants have been completed in Spain in 2008: the Parque Fotovoltaico Olmedilla de Alarcon (60 MW), Parque Solar Merida/Don Alvaro (30 MW), Planta solar Fuente Alamo (26 MW), Planta fotovoltaica de Lucainena de las Torres (23.2 MW), Parque Fotovoltaico Abertura Solar (23.1 MW), Parque Solar Hoya de Los Vincentes (23 MW), the Solarpark Calveron (21 MW), and the Planta Solar La Magascona (20 MW).
First Solar 40 MW PV Array installed by JUWI Group in Waldpolenz, Germany
Waldpolenz Solar Park, which will be the world’s largest thin-flim photovoltaic (PV) power system, is being built at a former military air base to the east of Leipzig in Germany. The power plant will be a 40-megawatt solar power system using state-of-the-art thin film technology, and should be finished by the end of 2009. 550,000 First Solar thin-film modules will be used, which will supply 40,000 MWh of electricity per year.
Topaz Solar Farm is a proposed 550 MW solar photovoltaic power plant which is to be built northwest of California Valley in the USA at a cost of over $1 billion. Built on 9.5 square miles (25 km2) of ranchland, the project would utilize thin-film PV panels designed and manufactured by OptiSolar in Hayward and Sacramento. The project would deliver approximately 1,100 gigawatt-hours (GWh) annually of renewable energy. The project is expected to begin construction in 2010, begin power delivery in 2011, and be fully operational by 2013.
High Plains Ranch is a proposed 250 MW solar photovoltaic power plant which is to be built by Sun Power in the Carrizo Plain, northwest of California Valley.
However, when it comes to renewable energy systems and PV, it is not just large systems that matter. Building-Integrated Photovoltaics or "onsite" PV systems have the advantage of being matched to end use energy needs in terms of scale. So the energy is supplied close to where it is needed.
Environmental and social considerations
While most renewable energy sources do not produce pollution directly, the materials, industrial processes, and construction equipment used to create them may generate waste and pollution. Some renewable energy systems actually create environmental problems. For instance, older wind turbines can be hazardous to flying birds.
Land area required
Another environmental issue, particularly with biomass and biofuels, is the large amount of land required to harvest energy, which otherwise could be used for other purposes or left as undeveloped land. However, it should be pointed out that these fuels may reduce the need for harvesting non-renewable energy sources, such as vast strip-mined areas and slag mountains for coal, safety zones around nuclear plants, and hundreds of square miles being strip-mined for oil sands. These responses, however, do not account for the extremely high biodiversity and endemism of land used for ethanol crops, particularly sugar cane.
In the U.S., crops grown for biofuels are the most land- and water-intensive of the renewable energy sources. In 2005, about 12% of the nation’s corn crop (covering 11 million acres (45,000 km²) of farmland) was used to produce four billion gallons of ethanol—which equates to about 2% of annual U.S. gasoline consumption. For biofuels to make a much larger contribution to the energy economy, the industry will have to accelerate the development of new feedstocks, agricultural practices, and technologies that are more land and water efficient. Already, the efficiency of biofuels production has increased significantly and there are new methods to boost biofuel production.
Hydroelectric dams
The major advantage of hydroelectric systems is the elimination of the cost of fuel. Other advantages include longer life than fuel-fired generation, low operating costs, and the provision of facilities for water sports. Operation of pumped-storage plants improves the daily load factor of the generation system. Overall, hydroelectric power can be far less expensive than electricity generated from fossil fuels or nuclear energy, and areas with abundant hydroelectric power attract industry.
However, there are several major disadvantages of hydroelectric systems. These include: dislocation of people living where the reservoirs are planned, release of significant amounts of carbon dioxide at construction and flooding of the reservoir, disruption of aquatic ecosystems and birdlife, adverse impacts on the river environment, potential risks of sabotage and terrorism, and in rare cases catastrophic failure of the dam wall.
Hydroelectric power is now more difficult to site in developed nations because most major sites within these nations are either already being exploited or may be unavailable for other reasons such as environmental considerations.
Wind farms
Wind power is one of the most environmentally friendly sources of renewable energy
A wind farm, when installed on agricultural land, has one of the lowest environmental impacts of all energy sources:
• It occupies less land area per kilowatt-hour (kWh) of electricity generated than any other energy conversion system, apart from rooftop solar energy, and is compatible with grazing and crops.
• It generates the energy used in its construction in just 3 months of operation, yet its operational lifetime is 20–25 years.
• Greenhouse gas emissions and air pollution produced by its construction are tiny and declining. There are no emissions or pollution produced by its operation.
• In substituting for base-load coal power, wind power produces a net decrease in greenhouse gas emissions and air pollution, and a net increase in biodiversity.
• Modern wind turbines are almost silent and rotate so slowly (in terms of revolutions per minute) that they are rarely a hazard to birds.
Studies of birds and offshore wind farms in Europe have found that there are very few bird collisions. Several offshore wind sites in Europe have been in areas heavily used by seabirds. Improvements in wind turbine design, including a much slower rate of rotation of the blades and a smooth tower base instead of perchable lattice towers, have helped reduce bird mortality at wind farms around the world. However older smaller wind turbines may be hazardous to flying birds. Birds are severely impacted by fossil fuel energy; examples include birds dying from exposure to oil spills, habitat loss from acid rain and mountaintop removal coal mining, and mercury poisoning.
Other issues
Sustainability
Renewable energy sources are generally sustainable in the sense that they cannot "run out" as well as in the sense that their environmental and social impacts are generally more benign than those of fossil. However, both biomass and geothermal energy require wise management if they are to be used in a sustainable manner. For all of the other renewables, almost any realistic rate of use would be unlikely to approach their rate of replenishment by nature.
Transmission
If renewable and distribution generation were to become widespread, electric power transmission and electricity distribution systems might no longer be the main distributors of electrical energy but would operate to balance the electricity needs of local communities. Those with surplus energy would sell to areas needing "top ups". That is, network operation would require a shift from 'passive management' — where generators are hooked up and the system is operated to get electricity 'downstream' to the consumer — to 'active management', wherein generators are spread across a network and inputs and outputs need to be constantly monitored to ensure proper balancing occurs within the system. Some governments and regulators are moving to address this, though much remains to be done. One potential solution is the increased use of active management of electricity transmission and distribution networks. This will require significant changes in the way that such networks are operated.
However, on a smaller scale, use of renewable energy produced on site reduces burdens on electricity distribution systems. Current systems, while rarely economically efficient, have shown that an average household with an appropriately-sized solar panel array and energy storage system needs electricity from outside sources for only a few hours per week. By matching electricity supply to end-use needs, advocates of renewable energy and the soft energy path believe electricity systems will become smaller and easier to manage, rather than the opposite.
Controversy over nuclear power as a renewable energy source
In 1983, physicist Bernard Cohen proposed that uranium is effectively inexhaustible, and could therefore be considered a renewable source of energy. He claims that fast breeder reactors, fueled by uranium extracted from seawater, could supply energy at least as long as the sun's expected remaining lifespan of five billion years. Nuclear energy has also been referred to as "renewable" by the politicians George W. Bush, Charlie Crist, and David Sainsbury.
Inclusion under the "renewable energy" classification could render nuclear power projects eligible for development aid under various jurisdictions. However, it has not been established that nuclear energy is inexhaustible, and issues such as peak uranium and uranium depletion are ongoing debates. No legislative body has yet included nuclear energy under any legal definition of "renewable energy sources" for provision of development support. Similarly, statutory and scientific definitions of renewable energies usually exclude nuclear energy. Commonly sourced definitions of renewable energy sources often omit or explicitly exclude nuclear energy sources as examples.Nuclear fission is not regarded as renewable by the U.S. DOE on the website "What is Energy?"
There are also environmental concerns over nuclear power, including the dangerous environmental hazards of nuclear waste and concerns that development of new plants cannot happen quickly enough to reduce CO2 emissions, such that nuclear energy is neither efficient nor effective in cutting CO2 emissions.
ADVANTAGES AND DISADVANTAGES OF RENEWABLE ENERGY:
There are many energy sources today that are extremely limited in supply. Some of these sources include oil, natural gas, and coal. It is a matter of time before they will be exhausted.
Estimates are that they can only meet our energy demands for another fifty to seventy years. So in an effort to find alternative forms of energy, the world has turned to renewable energy sources as the solution. There are many advantages and disadvantages to this.
Renewable energy sources consist of solar, hydro, wind, geothermal, ocean and biomass. The most common advantage of each is that they are renewable and cannot be depleted. They are a clean energy, as they don't pollute the air, and they don't contribute to global warming or greenhouse effects. Since their sources are natural the cost of operations is reduced and they also require less maintenance on their plants. A common disadvantage to all is that it is difficult to produce the large quantities of electricity their counterpart the fossil fuels are able to. Since they are also new technologies, the cost of initiating them is high.
Solar energy makes use of the sun's energy. It is advantageous because the systems can fit into existing buildings and it does not affect land use. But since the area of the collectors is large, more materials are required. Solar radiation is also controlled by geography. And it is limited to daytime hours and non-cloudy days.
Wind energy uses the power of the wind to produce electricity. Although it is the largest job producer, it is reliant on strong winds. Wind turbines are large and, although you can use the area under them for farming, many consider them unattractive looking. They are also very noisy to operate. In addition, they threaten the wild bird population.
Hydroelectric energy uses water to produce power. This is the most reliable of all the renewable energy sources. On the down side, it affects ecology and causes downstream problems. The decay of vegetation along the riverbed can cause the buildup of methane. Methane is a contributing gas to greenhouse effect. Dams can also alter the natural river flow and affect wildlife. Colder, oxygen poor water can be released into the river, killing fish. And the release of water from the dam can cause flooding.
Geothermal energy uses steam from the Earth's ground to generate power. It uses smaller land areas than other power plants. They can run 24 hours per day, every day of the year. Disadvantages are that it is very site specific and, along with the heat from the Earth, it can also bring up toxic chemicals when obtaining the steam. Drilling geothermal reservoirs and finding them can be an expensive task.
Biomass electricity is produced through the energies from wood, agricultural and municipal waste. It helps save on landfill waste but transportation can be expensive and ecological diversity of land may be affected. In addition, its process needs to be made simpler.
Ocean energy is a clean and abundant energy form. It does, however, have high costs. Ocean thermal energy also requires close to a forty degree Fahrenheit difference in water temperature year round. In addition, construction and laying pipes can cause damage to the ecosystem.
There are many advantages to the use of renewable energy sources. There are also some disadvantages. The fact is energy demands will continue to increase. Through research and development, as well as, new technologies, the hope is many of the disadvantages of renewable sources of energy can be eliminated and we can successfully incorporate it into our power supplies.
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Hayward Pro-Grid 60 Sq. Ft. Vert Grid DE Pool Filter w/o Valve -( DE6020 , Hayward ) $919.99 Hayward Pro Grid™ Vertical Grid D.E. Filters Pro-Grid is a high-performance filter series that provides superior water clarity, efficient flow and large cleaning capacity for pools of all types and sizes.Pro-Grid filter tanksare now molded from PermaGlass XL,™ a glass reinforced copolymer, providing the ultimate in strength, durability, and long life. Pro-Grid filtersalso combine high technology features with a "service-ease" design for dependable operation and low maintenance.Plus, Pro-Grid filters are available with the unique SP-740DESelecta-Flo control valve, the only filter control valve designed specifically for D.E. filters.For the quality conscious pool owner, Pro-Grid filters are an unparalleled filtration value.Plumbing Versatility.Select from a wide array of valve options for customized control of your filtration system, including Haywards 2", 2-postion slide valve (shown).Shipping Included Competitive Prices, Always! Available Valves With Positions - Sold SeparatelyModel NumberFilterBackwashWasteRecirculateRinseClosedSP0740DE••••----SP0710XR50•••••• |
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Hayward Pro-Grid 24 Sq. Ft. Vert Grid DE Pool Filter w/o Valve -( DE2420 , Hayward ) $659.99 Hayward Pro Grid™ Vertical Grid D.E. Filters Pro-Grid is a high-performance filter series that provides superior water clarity, efficient flow and large cleaning capacity for pools of all types and sizes.Pro-Grid filter tanksare now molded from PermaGlass XL,™ a glass reinforced copolymer, providing the ultimate in strength, durability, and long life. Pro-Grid filtersalso combine high technology features with a "service-ease" design for dependable operation and low maintenance.Plus, Pro-Grid filters are available with the unique SP-740DESelecta-Flo control valve, the only filter control valve designed specifically for D.E. filters.For the quality conscious pool owner, Pro-Grid filters are an unparalleled filtration value.Plumbing Versatility.Select from a wide array of valve options for customized control of your filtration system, including Haywards 2", 2-postion slide valve (shown).Shipping Included Competitive Prices, Always! Available Valves With Positions - Sold SeparatelyModel NumberFilterBackwashWasteRecirculateRinseClosedSP0740DE••••----SP0710XR50•••••• |
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HAYWARD PRO-GRID 36 SQ. FT. VERT GRID DE POOL FILTER SYSTEM W/ 1 HP PUMP $1289.99 Hayward Pro Grid™ Vertical Grid D.E. FiltersPro-Grid is a high-performance filter series that provides superior water clarity, efficient flow and large cleaning capacity for pools of all types and sizes.Pro-Grid filter tanksare now molded from PermaGlass XL,™ a glass reinforced copolymer, providing the ultimate in strength, durability, and long life. Pro-Grid filtersalso combine high technology features with a "service-ease" design for dependable operation and low maintenance.Plus, Pro-Grid filters are available with the unique SP-740DESelecta-Flo control valve, the only filter control valve designed specifically for D.E. filters.For the quality conscious pool owner, Pro-Grid filters are an unparalleled filtration value.Plumbing Versatility.Select from a wide array of valve options for customized control of your filtration system, including Haywards 2", 2-postion slide valve (shown).Shipping Included Competitive Prices, Always! Available Valves With Positions - Sold SeparatelyModel NumberFilterBackwashWasteRecirculateRinseClosedSP0740DE••••----SP0710XR50•••••• |
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PRO-GRID 48 SQ. FT. VERT GRID DE FILTER SYSTEM W/ 1HP PUMP -( DE4820 , HAYWARD ) $1379.99 Hayward Pro Grid™ Vertical Grid D.E. FiltersPro-Grid is a high-performance filter series that provides superior water clarity, efficient flow and large cleaning capacity for pools of all types and sizes.Pro-Grid filter tanksare now molded from PermaGlass XL,™ a glass reinforced copolymer, providing the ultimate in strength, durability, and long life. Pro-Grid filtersalso combine high technology features with a "service-ease" design for dependable operation and low maintenance.Plus, Pro-Grid filters are available with the unique SP-740DESelecta-Flo control valve, the only filter control valve designed specifically for D.E. filters.For the quality conscious pool owner, Pro-Grid filters are an unparalleled filtration value.Plumbing Versatility.Select from a wide array of valve options for customized control of your filtration system, including Haywards 2", 2-postion slide valve (shown).Shipping Included Competitive Prices, Always! Available Valves With Positions - Sold SeparatelyModel NumberFilterBackwashWasteRecirculateRinseClosedSP0740DE••••----SP0710XR50•••••• |
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Hayward 2 Inch FIP Vari-Flow 6 Pos Valve For Pro-Grid De Pool Filter -( SP0715Xr50 , Hayward ) $209.99 Six-position valve by HaywardABS body and coverEasy-to-use handleNeoprene valve seat and a built-in sight glassHeavy duty stainless steel springAutomatic self-cleaning design prevents clogging or sticking |
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Gordon Hayward, Utah Jazz, 3/3/2012 $14.99 DALLAS- TX - MARCH 3: Gordon Hayward #20 of the Utah Jazz drives against Jason Terry #31 of the Dallas Mavericks on March 3- 2012 at the American Airlines Center in Dallas- Texas. Copyright 2012 NBAE (Photo by Glenn James/NBAE via Getty Images) |
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Gordon Hayward, Utah Jazz, 4/2/2012 $14.99 PORTLAND- OR - APRIL 2: Gordon Hayward #20 of the Utah Jazz drives to the basket against the Portland Trail Blazers on April 2- 2012 at the Rose Garden Arena in Portland- Oregon. Copyright 2012 NBAE (Photo by Sam Forencich/NBAE via Getty Images) |
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Gordon Hayward, Utah Jazz, 4/18/2012 $14.99 PORTLAND- OR - APRIL 18: Gordon Hayward #20 of the Utah Jazz dunks ahead of Wesley Matthews #2 of the Portland Trail Blazers on April 18- 2012 at the Rose Garden Arena in Portland- Oregon. Copyright 2012 NBAE (Photo by Sam Forencich/NBAE via Getty Images) |
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Lazar Hayward, Minnesota Timberwolves, 11/3/2010 $14.99 ORLANDO- FL - NOVEMBER 3: Lazar Hayward #32 of the Minnesota Timberwolves brings the ball up court during the game against the Orlando Magic on November 3- 2010 at the Amway Center in Orlando- Florida. The Magic won 128-86. Copyright 2010 NBAE (Photo by Fernando Medina/NBAE via Getty Images) Our outstanding framing service features quality materials and superior craftsmanship- providing you with high-end and customizable options. We feature an assortment of molding and matting choices- including black- brown- mahogany and metallic frames- archival quality standard and suede mats- and handcrafted team logos that are intricately pieced together. |
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Lazar Hayward, Minnesota Timberwolves, 2/23/2011 $14.99 MINNEAPOLIS- MN - FEBRUARY 23: Lazar Hayward #32 of the Minnesota Timberwolves goes to the basket against Marc Gasol #33 of the Memphis Grizzlies during the game on February 23- 2011 at Target Center in Minneapolis- Minnesota. Copyright 2011 NBAE (Photo by David Sherman/NBAE via Getty Images) Our outstanding framing service features quality materials and superior craftsmanship- providing you with high-end and customizable options. We feature an assortment of molding and matting choices- including black- brown- mahogany and metallic frames- archival quality standard and suede mats- and handcrafted team logos that are intricately pieced together. |
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Gordon Hayward, Utah Jazz, 4/5/2011 $14.99 LOS ANGELES- CA - APRIL 5: Gordon Hayward #20 of the Utah Jazz extends for a shot against Shannon Brown #12 of the Los Angeles Lakers at Staples Center on April 5- 2011 in Los Angeles- California. Copyright 2011 NBAE (Photo by Noah Graham/NBAE via Getty Images) Our outstanding framing service features quality materials and superior craftsmanship- providing you with high-end and customizable options. We feature an assortment of molding and matting choices- including black- brown- mahogany and metallic frames- archival quality standard and suede mats- and handcrafted team logos that are intricately pieced together. |
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Gordon Hayward, Utah Jazz, 4/3/2011 $14.99 SACRAMENTO- CA -APRIL 3: Gordon Hayward #20 of the Utah Jazz dunks the ball against the Sacramento Kings on April 3- 2011 at Power Balance Pavilion in Sacramento- California. Copyright 2011 NBAE (Photo by Rocky Widner/NBAE via Getty Images) Our outstanding framing service features quality materials and superior craftsmanship- providing you with high-end and customizable options. We feature an assortment of molding and matting choices- including black- brown- mahogany and metallic frames- archival quality standard and suede mats- and handcrafted team logos that are intricately pieced together. |
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Gordon Hayward, Utah Jazz, 1/1/2011 $14.99 SALT LAKE CITY- UT - JANUARY 1: Gordon Hayward #20 of the Utah Jazz goes for the layup against the defense of the Memphis Grizzlies at EnergySolutions Arena on January 1- 2011 in Salt Lake City- Utah. Copyright 2011 NBAE (Photo by Melissa Majchrzak/NBAE via Getty Images) Our outstanding framing service features quality materials and superior craftsmanship- providing you with high-end and customizable options. We feature an assortment of molding and matting choices- including black- brown- mahogany and metallic frames- archival quality standard and suede mats- and handcrafted team logos that are intricately pieced together. |
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Gordon Hayward, Utah Jazz, 1/25/2011 $14.99 LOS ANGELES- CA - JANUARY 25: Gordon Hayward #20 of the Utah Jazz goes up for a dunk against the Los Angeles Lakers at Staples Center on January 25- 2011 in Los Angeles- California. Copyright 2011 NBAE (Photo by Andrew D. Bernstein/NBAE via Getty Images) Our outstanding framing service features quality materials and superior craftsmanship- providing you with high-end and customizable options. We feature an assortment of molding and matting choices- including black- brown- mahogany and metallic frames- archival quality standard and suede mats- and handcrafted team logos that are intricately pieced together. |
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Gordon Hayward, Utah Jazz, 2/11/2011 $14.99 SALT LAKE CITY- UT - FEBRUARY 11: Gordon Hayward #20 of the Utah Jazz passes the ball against Jared Dudley #3 of the Phoenix Suns at EnergySolutions Arena on February 11- 2011 in Salt Lake City- Utah. Copyright 2011 NBAE (Photo by Melissa Majchrzak/NBAE via Getty Images) Our outstanding framing service features quality materials and superior craftsmanship- providing you with high-end and customizable options. We feature an assortment of molding and matting choices- including black- brown- mahogany and metallic frames- archival quality standard and suede mats- and handcrafted team logos that are intricately pieced together. |
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Gordon Hayward, Utah Jazz, 3/7/2011 $14.99 NEW YORK- NY - MARCH 7: Gordon Hayward #20 of the Utah Jazz shoots against Roger Mason Jr. #18 of the New York Knicks during a game on March 7- 2011 at Madison Square Garden in New York City. Copyright 2011 NBAE (Photo by Nathaniel S. Butler/NBAE via Getty Images) Our outstanding framing service features quality materials and superior craftsmanship- providing you with high-end and customizable options. We feature an assortment of molding and matting choices- including black- brown- mahogany and metallic frames- archival quality standard and suede mats- and handcrafted team logos that are intricately pieced together. |
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Gordon Hayward, Utah Jazz, 3/24/2011 $14.99 SALT LAKE CITY- UT - MARCH 24: Utah Jazz small forward Gordon Hayward #20 protects the ball during the game against the New Orleans Hornets at EnergySolutions Arena on March 24- 2011 in Salt Lake City- Utah. The New Orleans won 121-117. Copyright 2011 NBAE (Photo by Melissa Majchrzak/NBAE via Getty Images) Our outstanding framing service features quality materials and superior craftsmanship- providing you with high-end and customizable options. We feature an assortment of molding and matting choices- including black- brown- mahogany and metallic frames- archival quality standard and suede mats- and handcrafted team logos that are intricately pieced together. |
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Gordon Hayward, Utah Jazz, 4/13/2011 $14.99 SALT LAKE CITY- UT - APRIL 13: Gordon Hayward #20 of the Utah Jazz goes up for a three during play against the Denver Nuggets at EnergySolutions Arena on April 13- 2011 in Salt Lake City- Utah. Copyright 2011 NBAE (Photo by Melissa Majchrzak/NBAE via Getty Images) Our outstanding framing service features quality materials and superior craftsmanship- providing you with high-end and customizable options. We feature an assortment of molding and matting choices- including black- brown- mahogany and metallic frames- archival quality standard and suede mats- and handcrafted team logos that are intricately pieced together. |
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Saucony Women's Pro Grid Omni Running Shoe $98.99 Saucony Women's Pro Grid Omni Running Shoe |
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Gordon Hayward, Jeremy Evans, Utah Jazz, 12/14/2011 $14.99 SALT LAKE CITY- UT - DECEMBER 14: Jeremy Evans #40 and Gordon Hayward #20 of the Utah Jazz pose for a portrait during the 2011 NBA Media Day at Energy Solutions Arena on December 14- 2011 in Salt Lake City- Utah. Copyright 2011 NBAE (Photo by Melissa Majchrzak/NBAE via Getty Images) Our outstanding framing service features quality materials and superior craftsmanship- providing you with high-end and customizable options. We feature an assortment of molding and matting choices- including black- brown- mahogany and metallic frames- archival quality standard and suede mats- and handcrafted team logos that are intricately pieced together. |
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Hayward Multiport 2 Inch Side Valve For Pro-Series Sand Pool Filter -( SP0715X62 , Hayward ) $209.99 Hayward Multiport Valve All Hayward Multiport Valves feature a self-cleaning design that prevents clogging and sticking. Other features include an easy-to use handle, a heavy duty stainless steel spring, a durable molded ABS body and cover, a neoprene valve seat and a built-in sight glass. |
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Hayward Pro-Series Plus 700 Lb Sand Filter w/ 2 Inch Variflo Valve $1349.99 Hayward Pro-Series Plus 700 Lb Sand Filter w/ 2 Inch Variflo Valve |
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Gordon Hayward, Utah Jazz, Quarterfinals Game 4, 5/7/2012 $14.99 SALT LAKE CITY- UT - MAY 7: Gordon Hayward #20 of the Utah Jazz drives against Daniel Green #4 of the San Antonio Spurs in Game Four of the Western Conference Quarterfinals during the 2012 NBA Playoffs at Energy Solutions Arena on May 7- 2012 in Salt Lake City- Utah. Copyright 2012 NBAE (Photo by Melissa Majchrzak/NBAE via Getty Images) |
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Hayward Pro-Series 200 Lb Sand Filter w/ 1.5 Inch Vari Flo Valve -( S210S , Hayward ) $519.99 Hayward Pro Series Sand Filters Totally Hayward™ - Americas #1 Pool Water Systems Hayward Pro Series sand filters are the very latest in pool filter technology, and produce crystalclear, sparkling water with only minimum care and attention for pools of all types and sizes. Molded of durable, corrosion-proof polymeric materials, theyfeature an advanced, self-cleaning lateral system for smooth, efficient flow and totally-balanced backwashing. Plus, with a Hayward 6-position Vari-Flo control valve, you can easily dial any of the 6 valve/filter functions for easier operation and maximum efficiency. For crystal clear water with only minimal care, pool professionals choose Pro Series.Features6-Position Hayward Vari-FloTM™ Control Valve with easy-to-use lever-action handle lets you dial any of the 6 valve/filter functions. Integral sight glass lets you see when backwash cycle is completed.Manual Air Relief for easy, safe manual release of air from system.Durable Flanged Inspection/Access Cover provides convenient access to top of filter.Integral Top Diffuser assures even distribution of water over the top of the sand media bed. Full-size internal piping gives smooth, free-flowing performance.Automatic Air Relief purges any entrapped air during operation of the filter system.Unitized, Corrosion-Proof Filter Tank molded of rugged, colorfast polymeric material for dependable, all-weather performance. Efficient, Multi-Lateral Underdrain Assembly with 360 slotted, - self-cleaning laterals, gives totally balanced flow and backwashing. Integral Molded Drain Plug for easy draining of tank, without the - loss of sand. Totally Corrosion-Proof Base is rugged and attractively styled to provide strong, stable support.Vari-Flo™ 6-Position Control Valve with easy-to-use lever action handle lets you "dial" and of six valve/filter functions. |
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Hayward Pro-Series 300 Lb Sand Pool Filter w/ 1.5 Inch Variflo V -( S244S , Hayward ) $629.99 Hayward Pro Series Sand Filters Totally Hayward™ - Americas #1 Pool Water Systems Hayward Pro Series sand filters are the very latest in pool filter technology, and produce crystalclear, sparkling water with only minimum care and attention for pools of all types and sizes. Molded of durable, corrosion-proof polymeric materials, theyfeature an advanced, self-cleaning lateral system for smooth, efficient flow and totally-balanced backwashing. Plus, with a Hayward 6-position Vari-Flo control valve, you can easily dial any of the 6 valve/filter functions for easier operation and maximum efficiency. For crystal clear water with only minimal care, pool professionals choose Pro Series.Features6-Position Hayward Vari-FloTM™ Control Valve with easy-to-use lever-action handle lets you dial any of the 6 valve/filter functions. Integral sight glass lets you see when backwash cycle is completed.Manual Air Relief for easy, safe manual release of air from system.Durable Flanged Inspection/Access Cover provides convenient access to top of filter.Integral Top Diffuser assures even distribution of water over the top of the sand media bed. Full-size internal piping gives smooth, free-flowing performance.Automatic Air Relief purges any entrapped air during operation of the filter system.Unitized, Corrosion-Proof Filter Tank molded of rugged, colorfast polymeric material for dependable, all-weather performance. Efficient, Multi-Lateral Underdrain Assembly with 360 slotted, - self-cleaning laterals, gives totally balanced flow and backwashing. Integral Molded Drain Plug for easy draining of tank, without the - loss of sand. Totally Corrosion-Proof Base is rugged and attractively styled to provide strong, stable support.Vari-Flo™ 6-Position Control Valve with easy-to-use lever action handle lets you "dial" and of six valve/filter functions. |
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Derrick Favors, Gordon Hayward, Jeremy Evans, Utah Jazz, 12/14/2011 $14.99 SALT LAKE CITY- UT - DECEMBER 14: (L-R) Jeremy Evans #40- Gordon Hayward #20 and Derrick Favors #15 of the Utah Jazz poses for a portrait during the 2011 NBA Media Day at Energy Solutions Arena on December 14- 2011 in Salt Lake City- Utah. Copyright 2011 NBAE (Photo by Melissa Majchrzak/NBAE via Getty Images) Our outstanding framing service features quality materials and superior craftsmanship- providing you with high-end and customizable options. We feature an assortment of molding and matting choices- including black- brown- mahogany and metallic frames- archival quality standard and suede mats- and handcrafted team logos that are intricately pieced together. |
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Grid $10 Grid |
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The Grid. $11.99 The Grid. |
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Hayward Pro-Series 14 Inch Sand Pool Filter w/ Top Valve -( S144T , Hayward ) $244.99 Pro™ Series Sand Filters From Hayward This economical Pro Series system will provide crystal clear water with minimal maintenanceand care for smaller above-ground pools. Everything is easy when youre working with a Pro. Because the Pro Series High-Rate Sand Filter System from Hayward offers advanced full-flow technology that results in sparkling pure water, energy efficient operation, and good, clean fun for the entire family. Why you should go with the flow. The Pro Series filter features an integral top diffuser that evenly distributes unfiltered water over the sand media bed in cascading, umbrella-like pattern. This allows the greatest filtration possible from each and every square inch of sand. Then the Pros unique, self-cleaning underdrain assembly, with its 360 degree slotted laterals, provides a fast, balanced flow of clean water back to your pool. It also allows for more thorough backwashing. Best of all, the Pros full-flow technology reduces energy costs because you operate the filter for shorter periods. Which makes operation of the Pro Series as easy on your wallet as it is on you. Built-in Convenience. Haywards value added technology addresses convenience as well. The Pro Series laterals incorporate a unique folding ball-joint design which allows the assembly to be easily accessed for simple servicing. Each lateral is precision installed and can be removed individually, or as acomplete unit. The pros four-position valve puts you in control. The patented, multi-port control valve developed by Hayward was designed with six pool filter positions. It couldnt be simpler. An easy-to-use lever-action handle lets you quickly dial any of these functions: filter, backwash, rinse, waste, closed, or recirculate. This is what gives you complete control over our full-flow technology. Corrosion-proof construction filters out the elements. To protect against severe weather conditions,the Pro Series filter is constructed of rugged, durable, color-fast polymeric material. Which will keep your Pro running in tip-top shape for years to come. |
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Pro-Grid 24 Sq. Ft. Vert Grid DE Filter System w/ 3/4 HP Pump $1069.99 Pro-Grid 24 Sq. Ft. Vert Grid DE Filter System w/ 3/4 HP Pump |
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Hayward Pro Series 27 Inch Sand Pool Filter w/ 1.5 Inch Valve -( S270T , Hayward ) $489.99 Hayward Pro Series Sand FilterPro Series high-rate sand filters are the very latest in poolfilter technology. Molded of durable, corrosion-proof polymeric material, they feature attractive, unitized tank construction for years of trouble-free operation with only minimal care. Pro Series sets a new standard for performance, value and dependability.FeaturesFlange clamp design allows 360 degree rotation of valve to simplify plumbing.Integral top diffuser ensures even distribution of water over the top of the sand media bed. Full-size internal piping provides smooth, free-flowing performance.Unitized, corrosion-proof filter tank molded of rugged, colorfast polymeric material for dependable, all-weather performance.7Position Hayward Veri-Flo control valve with easy-to-use lever-action handle lets you dial any of the valve/filter functions. Integral sight glass lets you see when backwash cycle is completed.Precision engineered umbrella-fold self cleaning laterals for balanced flow and backwashing, plus easy serviceability.Large pressure sand/water drain for rapid winterizing or servicing. |
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Saucony Women's Pro Grid Xodus Trail Running Shoe $89.99 Saucony Women's Pro Grid Xodus Trail Running Shoe |
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Saucony Women's Pro Grid Peregrine 2 Trail Running Shoe $89.95 Saucony Women's Pro Grid Peregrine 2 Trail Running Shoe |
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Saucony Women's Pro Grid Echelon 2 Running Shoe $98.95 Saucony Women's Pro Grid Echelon 2 Running Shoe |
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Hayward Pro Series 14 Inch A/G Pool Filter System w/ 40 GPM Pump -( S144T1540S , Hayward ) $444.99 Pro™ Series Sand Filters From Hayward Model H.P. S144T1540S 40GPM S166T1575XS 1 S180T1580X15 1 1/2 S210T1580X15 1 1/2 Above systems include top-mount valve, hoses, adapters, base & power-flo plus pump and motor. Sand media not included. Everything is easy whenyoure working with a Pro. Because the Pro Series High-Rate Sand Filter System from Hayward offers advanced full-flow technology that results in sparkling pure water, energy efficient operation, and good, clean fun for the entire family. Why you should go with the flow. The Pro Series filter features an integral top diffuser that evenly distributes unfiltered water over the sand media bed in cascading, umbrella-like pattern. This allows the greatest filtration possible from each and every square inch of sand. Then the Pros unique, self-cleaning underdrain assembly, with its 360 degree slotted laterals, provides a fast, balanced flow of clean water back to your pool. It also allows for more thorough backwashing. Best of all, the Pros full-flow technology reduces energy costs because you operate the filter for shorter periods. Which makes operation of the Pro Series as easy on your wallet as it is on you. Built-in Convenience. Haywards value added technology addresses convenience as well. The Pro Series laterals incorporate a unique folding ball-joint design which allows the assembly to be easily accessed for simple servicing. Each lateral is precision installed and can be removed individually, or as a complete unit. |
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Hayward Pro Series 16 Inch Sand Pool Filter Tank & Valve - ( S166T , Hayward ) $284.99 Pro™ Series Sand Filters From Hayward ModelH.P. S144T1540S40GPMS166T1575XS1 S180T1580X151 1/2S210T1580X151 1/2 Above filter includes top-mounted valve.Everything is easy when youre working with a Pro.Because the Pro Series High-Rate Sand Filter System from Hayward offers advanced full-flow technology that results in sparkling pure water, energy efficient operation, and good, clean fun for the entire family.Why you should go with the flow.The Pro Series filter features an integral top diffuser that evenly distributes unfiltered water over the sand media bed in cascading, umbrella-like pattern. This allows the greatest filtration possible from each and every square inch of sand. Then the Pros unique, self-cleaning underdrain assembly, with its 360 degree slotted laterals, provides a fast, balanced flow of clean water back to your pool. It also allows for more thorough backwashing. Best of all, the Pros full-flow technology reduces energy costs because you operate the filter for shorter periods. Which makes operation of the Pro Series as easy on your wallet as it is on you. Built-in Convenience.Haywards value added technology addresses convenience as well. The Pro Series laterals incorporate a unique folding ball-joint design which allows the assembly to be easily accessed for simple servicing. Each lateral is precision installed and can be removed individually, or as a complete unit. |
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