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Yes it is possible to reconstruct shredded documents however it is rather time consuming. However !!!,there is a new reconstructing skredded document software available for purchase/downloading at the website: www.unshredder.com many private investigation offices from all around the world are making very good and profitable use of this software which is supplied together with special paper trays and guiding. they also give good support and technical help !
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Are tyvek house wrap and tyvek groundcloths made of identical material?
acctuall that is a very interesting question because yes they are made up moast of the same thing but there is something else added to tyvek groundcloths. its the fibers from carpets and also dried hardend donky poo shredded. hope this answers your question
What material can be use for insulation in buildings?
Fibre glass usually though some buildings simply have a vacuum (space with no air) between the walls as this stops heat from being transferred. updated by hummy05 26/05/11 18:47 rock wool which is exploded rock shredded newspaper this is treated for fire resistance plastic foam boards or sprayed on vermiculite which is heat expanded micacious volcanic rock ceramic fiber blanket in limited quantities around heaters
How do you answer interview question Describe a situation in which you have used a creative solution to solve a problem?
The question, "Describe a situation in which you have used a creative solution to solve a problem", is commonly asked in interviews for jobs or entrance into higher institutions of education.Most of us feel challenged to come up with a fantastic answer! How did I alone save the world? But, employers and educators don't want the most fantastic story; instead, they want to hear (1) how you think about problems (2) how you initiate solutions to problems and (3) your skills with implementing the solution you came up with. It doesn't matter if your solution worked-- it's more about the process involved!Some very simple examples:Customers in a convenience store were always leaving their original documents in the ten-cent-for-fee copying machine. Customers would come back to get their originals, only to find another customer removed the papers from the copying area, or had thrown them away. SOLUTION: When each customer came to the cashier to pay, the cashier counted the originals AND the copies, before charging for the copies. The cashier could then politely say, "It seems all of your originals are here; please check through them before leaving the store. SOLUTION 2: An employee made a sign with bright lettering, "Remove your originals when finished. Originals left behind will be shredded in 24 hours."An employee at a grocery store noted that many people read magazines while waiting at the front desk, but never bought the copy. He suggested to the owner to move the magazines for purchase to a different area, and to keep several out-of-date, previously-read, magazines near the counter for use while waiting in line.An office kept printer ink on a high shelf. The boxes of copier paper sat in front of the shelves. Although ink wasn't needed that often, a couple times the solution spilled on the opened copier paper box, wasting the ink and ruining the paper. SOLUTION: The secretary suggested moving the copier paper to the opposite side of the copier, and closer to where it is loaded. She also suggested that the copier ink containers be moved to a waist-high shelf to avoid having to reach above the head. There were no more spills and no more ruined ink.At home, a mom dropped her ring down the drain and thought it was gone. But her son knew that it could be caught in the "trap" in the pipe. He told his mom not to run the water. When dad got home, he took the pipe apart and the ring was found in the trap.A "problem" does not need to be a critical problem. It can be an ordinary, every day problem that occurs. The solution does not need to be complex. It needs to be logical, creative, or thinking.
Where is biomass being used to make electricity?
geeze i really hope all this answers your question xoxox Introduction The U.S. economy uses biomass-based materials as a source of energy in many ways. Wood and agricultural residues are burned as a fuel for cogeneration of steam and electricity in the industrial sector. Biomass is used for power generation in the electricity sector and for space heating in residential and commercial buildings. Biomass can be converted to a liquid form for use as a transportation fuel, and research is being conducted on the production of fuels and chemicals from biomass. Biomass materials can also be used directly in the manufacture of a variety of products. In the electricity sector, biomass is used for power generation. The Energy Information Administration (EIA), in its Annual Energy Outlook 2002 (AEO2002) reference case,1 projects that biomass will generate 15.3 billion kilowatthours of electricity, or 0.3 percent of the projected 5,476 billion kilowatthours of total generation, in 2020. In scenarios that reflect the impact of a 20-percent renewable portfolio standard (RPS)2 and in scenarios that assume carbon dioxide emission reduction require- ments based on the Kyoto Protocol,3 electricity generation from biomass is projected to increase substantially. Therefore, it is critical to evaluate the practical limits and challenges faced by the U.S. biomass industry. This paper examines the range of costs, resource availability, regional variations, and other issues pertaining to biomass use for electricity generation. The methodology by which the National Energy ing System (NEMS) accounts for various types of biomass is discussed, and the underlying assumptions are explained. A major challenge in forecasting biomass energy growth is estimating resource potential. EIA has compiled available biomass resource estimates from Oak Ridge National Laboratory (ORNL),4 Antares Group, Inc.,5 and the U.S. Department of Agriculture (USDA).6 This paper discusses how these data are used for forecasting purposes and the implications of the resulting forecasts, focusing on biomass used in grid-connected electricity generation applications. Background Biomass has played a relatively small role in terms of the overall U.S. energy picture, supplying 3.2 quadrillion Btu of energy out of a total of 98.5 quadrillion Btu in 2000.7 The vast majority of it is used in the pulp and paper industries, where residues from production processes are combusted to produce steam and electricity. The industrial cogeneration sector consumed almost 2.0 quadrillion Btu of biomass in 2000. Outside the pulp and paper industries, only a small amount of biomass is used to produce electricity. There are power plants that combust biomass exclusively to generate electricity and facilities that mix biomass with coal (biomass co-firing plants). The electricity generation sector (excluding cogenerators) consumed about 0.7 quadrillion Btu of biomass in 2000. The remaining 0.5 quadrillion Btu of biomass was consumed in the residential and commercial sectors in the form of wood consumption for heating buildings. To put these numbers in perspective, the electricity generation sector consumed 20.5 quadrillion Btu of coal and 6.5 quadrillion Btu of natural gas in 2000.8 Biomass played a significant role among renewables in 2000, however, providing 48 percent of the energy coming from all renewable sources. In EIA's AEO2002 reference case projection, growth in demand for biomass is expected to be modest. In the AEO2002 high renewables case projection, the demand for biomass is higher than in the reference case due to assumptions of reduced initial capital cost9 and increased supply. In aggressive RPS cases,10 the demand for biomass is much higher than projected even in the high renewables case. Among many reasons for increased biomass utilization in those cases, environmental benefits are the most important. Compared with coal, biomass feedstocks have lower levels of sulfur or sulfur compounds.11 Therefore, substitution of biomass for coal in power plants has the effect of reducing sulfur dioxide (SO2) emissions. Demonstration tests have shown that biomass co-firing with coal12 can also lead to lower nitrogen oxide (NOx) emissions. Perhaps the most significant environmental benefit of biomass, however, is a potential reduction in carbon dioxide (CO2) emissions. A closed-loop process is defined as a process in which power is generated using feedstocks that are grown specifically for the purpose of energy production. Many varieties of energy crops are being considered, including hybrid willow, switchgrass, and hybrid poplar. If biomass is utilized in a closed-loop process, the entire process (planting, harvesting, transportation, and conversion to electricity) can be considered to be a small but positive net emitter of CO2. It is not precisely a net zero emission process in a life-cycle sense, because there are CO2 emissions associated with the harvesting, transportation, and feed preparation operations (such as moisture reduction, size reduction, and removal of impurities). However, those emissions are not the result of combustion of biomass but result instead from fuel consumption (mostly petroleum and natural gas) for harvesting, transportation, and feed preparation operations. Although biomass-based generation is assumed to yield no net emissions of CO2 because of the sequestration of biomass during the planting cycle, there are environmental impacts. Wood contains sulfur and nitrogen, which yield SO2 and NOx in the combustion process. However, the rate of emissions is significantly lower than that of coal-based generation. For example, per kilowatthour generated, biomass integrated gasification combined-cycle (BIGCC) generating plants can significantly reduce particulate emissions (by a factor of 4.5) in comparison with coal-based electricity generation processes.13 NOx emissions can be reduced by a factor of about 6 for dedicated BIGCC plants compared with average pulverized coal-fired plants.14 Biomass Technologies for Electricity Generation Both dedicated biomass and biomass co-firing are used in the electricity generation sector. New dedicated biomass capacity is represented in NEMS as BIGCC technology. It is assumed that hot gas filtration will be used for gas cleanup purposes in this technology. Hot gas cleanup technology is relatively new, and the U.S. Department of Energy (DOE) and many industrial partners are conducting tests to demonstrate the technology. The alternative to hot gas cleaning is low-temperature gas cleaning. In low-temperature cleaning the gas is quenched with water, and particulates are removed in a series of cyclone vessels. There are advantages and disadvantages associated with both processes. The advantages of cold gas cleaning are that it is commercially available, the capital cost is relatively low, and the systems are easier to operate than hot gas cleanup systems. The disadvantages of cold gas cleanup are that the cooling process, the cold gas cleanup system, and fuel gas recompression systems reduce the overall process efficiency by up to 10 percent. The gas turbines downstream of the gasifier require the gas at high temperatures and pressure, and therefore the gas that has just undergone cooling for cleanup purposes must be repressurized and reheated in order to conform to gas turbine inlet specifications. The advantages of the newer hot gas cleanup technology are that it allows the process to be operated at higher efficiencies and it generates less waste water than the cold gas cleanup processes. The disadvantages of the hot gas cleanup technology are that operational experience is limited, it has higher costs, and it adds complexity to the process; however, it is considered to be the technologically more advanced choice for new dedicated biomass plants. The McNeil Generating Station demonstration project in Burlington, Vermont, is an example of a biomass gasification plant. It has a capacity of 50 megawatts and supplies electricity to the residents of the City of Burlington. This is an existing wood combustion facility whose feedstock is waste wood from nearby forestry operations, including forest thinnings and discarded wood pallets. To this existing wood combustion facility a low-pressure wood gasifier has been added that is capable of converting 200 tons per day of wood chips into fuel gas. The fuel gas, fed directly into the existing boiler (Figure 1) augments the McNeil Station's capacity by an additional 12 megawatts. The system was designed and constructed in 1998 and attained fully operational status in August 2000. In addition to the Vermont project, DOE has funded five new advanced biomass gasification research and development projects beginning in 2001. Emery Recycling in Salt Lake City, Utah, will test new IGCC and integrated gasification and fuel cell (IGFC) concepts based on a new gasifier that uses segregated municipal solid waste, animal waste, and agricultural residues. Sebesta Blomberg in Roseville, Minnesota, has begun a project on an atmospheric gasifier with gas turbine at a malting facility, using barley residues and corn stover. Alliant Energy in Lansing, Iowa, is developing a new combined-cycle concept that involves a fluidized-bed pyrolyzer and uses corn stover as a feedstock. United Technologies Research Center in East Hartford, Connecticut, has begun a project that will test a biomass gasifier coupled with an aero-derivative turbine with fuel cell and steam turbine options, using clean wood residues and natural gas as feedstocks. Carolina Power and Light in Raleigh, North Carolina, will develop a biomass gasification process that will produce a reburning fuel stream for utility boilers, using clean wood residues. After completion of research and development tests, these projects are candidates for commercialization over the next few years.15 Biomass co-firing involves combining biomass material with coal in existing coal-fired boilers. Coal-fired boilers can handle a pre-mixed combination of coal and biomass in which the biomass is combined with the coal in the feed lot and fed through an existing coal feed system. Alternatively, boilers can be retrofitted with a separate feed system for the biomass such that the biomass and coal actually mix inside the boiler. Table 1 shows the power plants that currently are co-firing with biomass on a commercial basis. The portion of biomass consumed varies from less than 1 percent to about 8 percent of total heat input, with two exceptions: Excel Energy's Bay Front plant in Ashland, Wisconsin, and Tacoma Steam Plant Number 2, owned by Tacoma Public Utilities. The Bay Front Station can generate electricity using coal, wood, shredded rubber, and natural gas. Experience has shown that it is better to operate units 1 and 2 on 100 percent coal during periods of high load and on 100 percent biomass during off-peak periods. A blending of coal and biomass can cause ash fouling and slagging problems. Therefore, the heat input from biomass averages about 40 percent in this plant.16 Tacoma Public Utilities is a municipal utility that provides water, electricity, and rail services. Tacoma Steam Plant uses a fluidized-bed combustor that can co-fire wood, refuse-derived fuel, and coal. The plant runs for only as many hours as necessary to burn the refuse-derived fuel it receives. The City of Tacoma Refuse Utility has modified its resource recovery facility to produce refuse-derived fuel. The generating plant is paid $5.50 per ton to accept the refuse-derived fuel from the Refuse Utility. A memorandum of understanding between the Refuse Utility and Tacoma Public Utilities commits the latter to burn the refuse-derived fuel for electricity generation. Coal is the most expensive fuel for the plant, making it desirable to burn as much biomass as possible.17 The fuel mix varies from season to season, depending on the availability of biomass feedstocks. The cost of renovating the steam plant to co-fire the biomass fuel was about $45 million. Washington State's Department of Ecology provided a grant of $15 million to partially offset the renovation costs. Biomass for electricity generation is treated in four ways in NEMS: (1) new dedicated biomass or biomass gasification, (2) existing and new plants that co-fire biomass with coal, (3) existing plants that combust biomass directly in an open-loop process,18 and (4) biomass use in industrial cogeneration applications. Existing biomass plants are accounted for using information such as on-line years, efficiencies, heat rates, and retirement dates, obtained through EIA surveys of the electricity generation sector. Description of Biomass Supply Curves The biomass fuel price is calculated from regional supply curves, which are an input to the . The raw data for the supply schedules are available at the State or county level. These are aggregated to form the regional supply schedule by North American Electric Reliability Council (NERC) region. Supply schedules are aggregated for four fuel types: agricultural residues, energy crops, forestry residues, and urban wood waste/mill residues. Table 2 shows the biomass supply available in the United States. The data in Table 2 are based on survey and ing work by ORNL, the USDA, and Antares Group, Inc. Table 2 represents the maximum supply available in the various regions at a price of $5 per million Btu.19 A brief description of each type of biomass is provided below: * Agricultural residues are generated after each harvesting cycle of commodity crops. A portion of the remaining stalks and biomass material left on the ground can be collected and used for energy generation purposes. Residues of wheat straw and corn stover20 are included in the biomass supply schedule used in NEMS. Wheat straw and corn stover make up the majority of crop residues. * Energy crops are produced solely or primarily for use as feedstocks in energy generation processes. Energy crops includes hybrid poplar,21 hybrid willow,22 and switchgrass,23 grown on cropland acres currently cropped, idled, or in pasture, and in the Conservation Reserve Program (CRP).24 * Forestry residues are the biomass material remaining in forests that have been harvested for timber. Timber harvesting operations do not extract all biomass material, because only timber of certain quality is usable in processing facilities. Therefore, the residual material after a timber harvest is potentially available for energy generation purposes. Forestry residues are composed of logging residues, rough rotten salvageable wood, and excess small pole trees. * Urban wood waste/mill residues are waste woods from manufacturing operations that would otherwise be landfilled. The urban wood waste/mill residue category includes primary mill residues and urban wood such as pallets, construction waste, and demolition debris, which are not otherwise used. By 2020, the United States is estimated to have a maximum of 7.1 quadrillion Btu of biomass available at prices of $5 per million Btu or lower. Agricultural residues, forestry residues, and urban wood waste/mill residues are currently available. EIA also assumes that energy crops can become available on a commercial basis beginning in 2010. By 2020, the four biomass types are projected to be fairly evenly divided, with agricultural residues providing most of the supply and urban wood waste/mill residues providing the least amount at the high end of the supply curves. Figure 2 shows the variation in the resource as a function of price. A relatively small portion of the supply is available at $1 per million Btu or less. Feedstock cost is a contributing factor that keeps the growth of biomass-based electricity generation at low levels under AEO2002 reference case conditions. The available low-cost feedstock (
Is shredded an adjective?
Yes it can be (e.g. shredded documents, shredded wheat). The word shredded is the past tense and past participle of the verb (to shred) and can be used an adjective.
What was the paper that Director Vance shredded when he broke up the ncis team?
Director Vance shredded the document that states that there was an agent in Gibb's team who was a traitor: the agent was selling documents of national security.
Can you give a sentence with a word shredded?
Mom seldom buys shredded cheese because she prefers to grate it herself. Please be sure all confidential documents are shredded before discarding them. She made a beautiful cake with delicious curls of Swiss chocolate shredded on top. After her stroke, Grandma had a difficult time swallowing, so we shredded most foods in a food processor before giving them to her.
What are the benefits of using a heavy duty shredder?
The benefits of a heavy duty shredder is that a larger number of pages can be shredded, no need to worry about staples or paper clips in documents, and thicker cardboard can be shredded with ease.
What papers should be shredded when they are no longer needed?
Usually when someone decides to shred documents, it is to protect their privacy and important information. Anything with your credit card number, social security number or banking details on it should be shredded before you throw them away.
Should the Document Shredding Service I choose be insured and bonded?
The document shredding service you choose should be insured and bonded. This helps you in case there are problems. Absolutely. If for any reason your documents to be shredded were lost or stolen, they could be held responsible. If you don't have too much to be shredded, it's better to invest in a good shredded. Check overstock.com.
Is offsite document storage a safe idea?
Offsite document storage is not only safe, but it is good for the environment. It makes your documents more organized, removes an employee for document sorting and filing, your documents will be safely shredded and recycled, and all your documents will be stored on computers for fast and easy recovery.
What is the confidential document destruction?
A confidential document destruction means when one has a personal bank documents or anything with their personal information, it is securely shredded up and destroyed.
Where could someone find a document destruction company that will pick up shredded paper?
Companies that offer removal of shredded documents and paper include Shred Nations, Shred Right Now and DDC America. Companies that offer on-site shredding and removal include The Shredders and Shred It.
How many oz of shredded cheese should be used in 1 cup of garden salad?
Enough to actually taste the cheese.
If paper is shredded into confetti is that a physical or chemical change?
Physical. You're not actually changing the makeup of the substance, just the way it appears.
Shredded cheddar cheese comes from where?
From a block of Cheddar that is shredded.
