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151.
Arthur H. Purcell 《Resources Policy》1979,5(2):149
The impacts of materials substitution in the automobile industry were examined in a symposium at the 99th Winter Annual Meeting of the American Society of Mechanical Engineers. Papers were contributed by W.D. Compton of the Ford Motor Company, R.B. Gavert of the Office of Technology Assessment, US Congress, J.T. Herridge and R.W. Hale of Battelle Columbus Laboratories, A.H. Purcell of Technical Information Project Incorporated, and M.B. Bever of the Massachusetts Institute of Technology. Symposium on Measurements of the Impacts of Material Substitution – A Case Study in the Automobile Industry, San Francisco, 10–15 December 1978. 相似文献
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156.
The incinerator at the T.Z. Osborne Plant in Greensboro, North Carolina burns sludge from its own waste water treatment plant and sludge pumped from the nearby North Buffalo plant. The two plants have a combined capacity of 36 million gallons per day of wastewater. Because of the age of and increasing high maintenance on the existing multiple hearth incinerator, and the need to increase treatment capacity, the Osborne plant concluded a study in 1992 evaluating its options for future municipal sewage sludge disposal. Options which were evaluated during the study included; (i) rehabilitation of the existing eight-year old multiple hearth unit; (ii) addition of a new multiple hearth; (iii) addition of a new fluid bed system; (iv) drying, composting, or land application. The chosen option, based on both economic and environmental considerations, was a new fluid bed system with a capacity of 2.55 tons per hour, approximately double that of the existing multiple hearth. Design of the new fluid bed system began in December 1994 and equipment delivery for the incineration system was begun in April 1995. Initial operation occurred in August 1996. Primary and secondary sludge, dewatered to 28% dry solids by centrifuge, is delivered by piston pumps to the twenty-foot freeboard ID incinerator. A shell and tube heat exchanger recuperates heat from the exhaust gas and preheats the combustion air to 1250°F, resulting in minimal auxiliary fuel use. The air pollution control device is a high-energy Tandem Nozzle® scrubber. Greensboro was the initial installation of this scrubber design on a fluid bed incinerator and its characteristics and performance are discussed. Ash is dewatered in an ash thickener/belt press system prior to disposal to landfill. The system includes a state of the art Programmable Logic Controller (PLC) system for computer control of the operation. The unit was commissioned in August 1996 and has been in continuous operation since that time except for a one week inspection and maintenance shutdown in February 1999. The plant operates 24 h/day, 7 days per week. The initial performance test showed the system to readily meet federal and state air emission standards. Particulate released was 0.002 grains per dry standard cubic foot, carbon monoxide was 22.5 parts per million volumetric (ppmv) and opacity was 0.4%. These results show a significant emission reduction with the fluid bed when compared to the multiple hearth. Annual tests conducted since then and continuous emission monitoring have shown the unit to be in consistent compliance. Since the fluid bed system became operational, the old multiple hearth system has been maintained on standby as a backup, but its use has not been required. Operational experience is discussed, the most interesting of which is the relatively trouble-free operation. The minor problems which occurred and their solutions are detailed. Also included is a comparison of operation and maintenance experience of the fluid bed and the multiple hearth. Current sludge disposal actual cost data are also provided including the average cost per ton of dry solids treated. The almost three years of operational experience to date has shown that the decision to install a new fluid bed system was the correct one on both an environmental and economic basis. It has provided benefits to all interested parties — the wastewater treatment plant, the regulators, the taxpayers, and the surrounding community. 相似文献
157.
Implication of two in-stream processes in the fate of nutrients discharged by sewage system into a temporary river 总被引:2,自引:0,他引:2
David A Perrin JL Rosain D Rodier C Picot B Tournoud MG 《Environmental monitoring and assessment》2011,181(1-4):491-507
The aim of this study was to better understand the fate of nutrients discharged by sewage treatment plants into an intermittent Mediterranean river, during a low-flow period. Many pollutants stored in the riverbed during the low-flow period can be transferred to the downstream environments during flood events. The study focused on two processes that affect the fate and the transport of nutrients, a physical process (retention in the riverbed sediments) and a biological process (denitrification). A spatial campaign was carried out during a low-flow period to characterize the nutrient contents of both water and sediments in the Vène River. The results showed high nutrient concentrations in the water column downstream of the treated wastewater disposal (up to 13,315 μg N/L for ammonium and 2,901 μg P/L for total phosphorus). Nutrient concentrations decreased rapidly downstream of the disposal whereas nutrient contents in the sediments increased (up to 1,898 and 784 μg/g for total phosphorus and Kjeldahl nitrogen, respectively). According to an in situ experiment using sediment boxes placed in the riverbed for 85 days, we estimated that the proportion of nutrients trapped in the sediments represents 25% (respectively 10%) of phosphorus (respectively nitrogen) loads lost from the water column. In parallel, laboratory tests indicated that denitrification occurred in the Vène River, and we estimated that denitrification likely coupled to nitrification processes during the 85 days of the experiment was significantly involved in the removal of nitrogen loads (up to 38%) from the water column and was greater than accumulation processes. 相似文献
158.
Keith E. Schilling Eileen McLellan E. Arthur Bettis III 《Environmental management》2013,52(6):1440-1452
In this paper, we argue that there is tremendous potential for nitrate-N reductions to occur throughout the Corn Belt region of the USA if we simply let naturally occurring wet spots on the landscape be wet. Geologic and hydrologic data gathered in the Walnut Creek watershed located in south-central Iowa provides compelling evidence that substantial nutrient-processing capacity exists in this dissected glacial landscape. Self-similarity of stratigraphy, sedimentology and hydrology observed at all spatial scales in the watershed suggests that Holocene alluvial fill deposits provide a natural bioreactor for denitrification of upland groundwater nitrate-N; the occurrence of such deposits can be mapped to identify potential nitrogen sinks across the landscape. This approach to identifying potential nitrogen sinks is geology focused and extends potential locations for nutrient processing upstream into the headwater catchments of individual fields. 相似文献
159.
The ctenophore Mnemiopsis leidyi A. Agassiz, 1865 is known to be eaten by the scyphomedusan Chrysaora quinquecirrha (Desor, 1948), which can control populations of ctenophores in the tributaries of Chesapeake Bay. In the summer of 1995,
we videotaped interactions in large aquaria in order to determine whether M. leidyi was always captured after contact with medusae. Surprisingly, M. leidyi escaped in 97.2% of 143 contacts. The ctenophores increased swimming speed by an average of 300% immediately after contact
with tentacles and 600% by mid-escape. When caught in the tentacles of C. quinquecirrha, the ctenophores frequently lost a portion of their body, which allowed them to escape. Lost parts regenerated within a few
days. The striking ability of M. leidyi to escape from C. quinquecirrha may be critically important in maintaining ctenophore populations in situ.
Received: 14 November 1996 / Accepted: 4 December 1996 相似文献
160.
J. E. Purcell 《Marine Biology》1981,63(3):283-294
Individuals of the siphonophore Rosacea cymbiformis (Chiaje, 1822) were collected in surface waters of the Gulf of California during July/August 1978, off Southern California during May 1980, and in the Sargasso Sea during July 1979. Specimens were preserved within 30 min after capture, and the ingested prey in the gastrozooids were examined microscopically and identified to the closest practical taxon. Most gastrozooids (50 to 84%) contained recognizable prey organisms. The prey were primarily copepods, but crab zoeae, pelagic molluscs, juvenile shrimps and mysids were also commonly eaten. There were significant differences between the sizes and types of prey organisms that had been ingested and that were available in the environment of the siphonophores. Electivity indices for the prey demonstrated that the large and/or active prey were selected. The feeding selectivity exhibited by the siphonophores probably depends upon speed and diameter of the prey, which affect the frequency of contact with the siphonopore tentacles. Behavioral observations suggest that R. cymbiformis feeds primarily in the light. Digestion experiments indicate that most prey remain in the gastrozooids for 8 h or more before egestion. The caloric values of common prey types were derived from their length to dry weight regressions. The caloric consumption of R. cymbiformis during the 4 to 6 h feeding period following sunrise was estimated to be from 0.109 to 0.365 cal per gastrozooid; the daily caloric consumption was projected to be at least 2.4 to 8.2 times that required to balance metabolism. 相似文献