Polluted populations of Euphorbia heterophylla, Chromolaena odorata, Commelina diffusa and Kyllinga pumila were collected fresh from 0.1 m to 0.25 m radii of the exhausted-pipe of power generators used for domestic pu...Polluted populations of Euphorbia heterophylla, Chromolaena odorata, Commelina diffusa and Kyllinga pumila were collected fresh from 0.1 m to 0.25 m radii of the exhausted-pipe of power generators used for domestic purposes, whereas, their non-polluted counterparts were collected from distances of 100-110 m away. The length and width of 10 leaves, each of both polluted and non-polluted populations, were measured. Their average leaf areas (LA) were 2.60 ± 0.1 cm2, 14.16 ±0.4 cm2, 5.19 ± 0.8 cm2 and 1.80 ±0.8 cm2 for the polluted populations of each of the species, respectively. Whereas, the LA of their non-polluted counterparts were 4.18±0.7 cm2, 34.39 ±0.2 cm2, 7.51± 0.1 cm2 and 10.76 ± 0.3 cm2, respectively. Damages such as plugged stomatal pores, epidermal cell aberrations and erosion, ruptured stomatal ledges, occasional leaf perforations, irregularly fused cell boundaries and glued leaf surfaces were noticeable in the leaves of the polluted populations. Such were not observed in the non-polluted populations. It was suggested that foliar morphology of these group of plants could serve as phytometer to gauge the threats of power generators used in homes to terrestrial ecosystem.展开更多
The study was undertaken to assess the extent of mercury contamination in the soil and three types of leaf plants in Campus AL-Mustansaryah University sites within Baghdad, Iraq, as well as to determine the relationsh...The study was undertaken to assess the extent of mercury contamination in the soil and three types of leaf plants in Campus AL-Mustansaryah University sites within Baghdad, Iraq, as well as to determine the relationship between environmental parameters and the distribution of the mercury contamination with carbon in soil samples were collected and analyzed for inorganic mercury. The highest mercury concentrations were recorded at the sites located lowest cover the plant and close to the diesel-electric generators. Mercury concentrations in leaf plant Ziziphusspina-christi higher concentration than the rest type and soil were mostly higher mercury concentration. Also ratio of carbon to coincide with the increase in the concentration of mercury in the soil of the study areas. Mercury is more biologically because of his preference to bind with carbon. This research confirms that Campus University is key areas for formation of bioavailable mercury distribution is tied to organic carbon.展开更多
In this work, historical background of power generation by small hydro-power plants across the world and specially across the Iran with emphasis on small hydro-power plant utilization as recovery turbine in water tran...In this work, historical background of power generation by small hydro-power plants across the world and specially across the Iran with emphasis on small hydro-power plant utilization as recovery turbine in water transmission pipeline have been attended firstly, and then, three water transmission pipelines from Chah-nemie to Zahedan city, Shirindare dam to Bojnord city and Mokhtaran desert to Birjand city in Iran have been studied as case study samples. According to the sample pipeline characteristics and pipeline topography, reachable energy have been estimated; in the next step, pay attending to reachable energy, initial investment cost, total benefit of operating period, benefit to cost ratio and other economical parameters for small hydro-power plants in case study pipelines have been presented and generated power cost of the same amount via other resources compared to the hydro-power cost. At the end, in agreement with environmental advantages of small hydro-power plants, the methods of generated power utilization, proper solution for optimization of reachable energy in water transmission pipeline and substitution of pressure reducing valve by small hydro-power plant in the pipelines as a major solution for energy recovering in water pipelines have been proposed.展开更多
In contrast to a traditional coal-fired power generation plant where steam extracted from a turbine is used to preheat the feedwater in all preheating stages, a solar-aided power generation(SAPG) plant uses solar heat...In contrast to a traditional coal-fired power generation plant where steam extracted from a turbine is used to preheat the feedwater in all preheating stages, a solar-aided power generation(SAPG) plant uses solar heat to replace a part or all of the extracted steam in one or more preheating stages. The performance of an SAPG plant with different replacements is investigated in this study by using specific consumption theory(SCT). Fuel-specific and cost-specific consumption models for SAPG plants are built based on the SCT. A typical 330 MW coal-fired power plant is used as the study case. The performance of the SAPG plant in terms of specific consumption, with steam obtained from the first through the eighth(except for the fourth) stages of extraction replaced by solar heat, is compared with that of the reference coal-fired power plant. The fuel-specific consumption of the SAPG plant is determined to be lower than that of the reference coal-fired power plant. The fuel-specific consumption accrual distribution in SAPG plants is used to assess the effect of each individual replacement. Effective strategies to reduce the specific costs of the SAPG and coal-fired power plants are proposed based on the results of this study.展开更多
文摘Polluted populations of Euphorbia heterophylla, Chromolaena odorata, Commelina diffusa and Kyllinga pumila were collected fresh from 0.1 m to 0.25 m radii of the exhausted-pipe of power generators used for domestic purposes, whereas, their non-polluted counterparts were collected from distances of 100-110 m away. The length and width of 10 leaves, each of both polluted and non-polluted populations, were measured. Their average leaf areas (LA) were 2.60 ± 0.1 cm2, 14.16 ±0.4 cm2, 5.19 ± 0.8 cm2 and 1.80 ±0.8 cm2 for the polluted populations of each of the species, respectively. Whereas, the LA of their non-polluted counterparts were 4.18±0.7 cm2, 34.39 ±0.2 cm2, 7.51± 0.1 cm2 and 10.76 ± 0.3 cm2, respectively. Damages such as plugged stomatal pores, epidermal cell aberrations and erosion, ruptured stomatal ledges, occasional leaf perforations, irregularly fused cell boundaries and glued leaf surfaces were noticeable in the leaves of the polluted populations. Such were not observed in the non-polluted populations. It was suggested that foliar morphology of these group of plants could serve as phytometer to gauge the threats of power generators used in homes to terrestrial ecosystem.
文摘The study was undertaken to assess the extent of mercury contamination in the soil and three types of leaf plants in Campus AL-Mustansaryah University sites within Baghdad, Iraq, as well as to determine the relationship between environmental parameters and the distribution of the mercury contamination with carbon in soil samples were collected and analyzed for inorganic mercury. The highest mercury concentrations were recorded at the sites located lowest cover the plant and close to the diesel-electric generators. Mercury concentrations in leaf plant Ziziphusspina-christi higher concentration than the rest type and soil were mostly higher mercury concentration. Also ratio of carbon to coincide with the increase in the concentration of mercury in the soil of the study areas. Mercury is more biologically because of his preference to bind with carbon. This research confirms that Campus University is key areas for formation of bioavailable mercury distribution is tied to organic carbon.
文摘In this work, historical background of power generation by small hydro-power plants across the world and specially across the Iran with emphasis on small hydro-power plant utilization as recovery turbine in water transmission pipeline have been attended firstly, and then, three water transmission pipelines from Chah-nemie to Zahedan city, Shirindare dam to Bojnord city and Mokhtaran desert to Birjand city in Iran have been studied as case study samples. According to the sample pipeline characteristics and pipeline topography, reachable energy have been estimated; in the next step, pay attending to reachable energy, initial investment cost, total benefit of operating period, benefit to cost ratio and other economical parameters for small hydro-power plants in case study pipelines have been presented and generated power cost of the same amount via other resources compared to the hydro-power cost. At the end, in agreement with environmental advantages of small hydro-power plants, the methods of generated power utilization, proper solution for optimization of reachable energy in water transmission pipeline and substitution of pressure reducing valve by small hydro-power plant in the pipelines as a major solution for energy recovering in water pipelines have been proposed.
基金supported by the National Basic Research Program of China("973"Project)(Grant No.2015CB251505)the National Natural Science Foundation of China(Grant No.51206049)+2 种基金the National Hi-Tech Research and Development Program of China("863"Project)(2012AA050604)the 111 Project(Grant No.B12034)the Fundamental Research Funds for the Central Universities(Grant No.2014XS29)
文摘In contrast to a traditional coal-fired power generation plant where steam extracted from a turbine is used to preheat the feedwater in all preheating stages, a solar-aided power generation(SAPG) plant uses solar heat to replace a part or all of the extracted steam in one or more preheating stages. The performance of an SAPG plant with different replacements is investigated in this study by using specific consumption theory(SCT). Fuel-specific and cost-specific consumption models for SAPG plants are built based on the SCT. A typical 330 MW coal-fired power plant is used as the study case. The performance of the SAPG plant in terms of specific consumption, with steam obtained from the first through the eighth(except for the fourth) stages of extraction replaced by solar heat, is compared with that of the reference coal-fired power plant. The fuel-specific consumption of the SAPG plant is determined to be lower than that of the reference coal-fired power plant. The fuel-specific consumption accrual distribution in SAPG plants is used to assess the effect of each individual replacement. Effective strategies to reduce the specific costs of the SAPG and coal-fired power plants are proposed based on the results of this study.
