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Emissions analysis on second generation biodiesel
Yuvarajan Devarajan,Ravi kumar Jayabal,Devanathan Ragupathy,Harish Venu
Frontiers of Environmental Science & Engineering. 2017, 11 (1 ): 3-.
https://doi.org/10.1007/s11783-017-0891-0
CNSBD can be used as a fuel without any modification in existing CI engine.
Pentanol reduces HC, CO, NOx and Smoke emissions significantly.
New and next generation alternative fuel is employed.
Blending of CNSBD with pentanol resulted in no separation of phases and found miscible.
This work investigates the effect of adding pentanol with biodiesel derived from cashew nut shell on its emissions characteristics is conducted in stationery diesel engine. The main purpose of this work is intended to reduce the emissions by fuelling biodiesel derived from cashew nut shell and the pentanol blends. Cashew nut shell biodiesel is prepared by transesterification process. Oxygenated additive used in the work is Pentanol. The experiment is conducted using four test fuels such as, biodiesel derived from cashew nut shell (CNSBD), a fuel containing 90% cashew nut shell biodiesel and 10% pentanol (CNSBD90P10), a fuel containing 80% cashew nut shell biodiesel and 20% pentanol (CNSBD80P20) and neat diesel. Experimental work concluded that by adding 10% of pentanol to cashew nut shell biodiesel 10.1%, 2.6%, 5.1% and 2.1%reduction in CO, HC, NOx and Smoke emissions were observed respectively. Further by fueling with these blends, no modifications in engines were required.
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Microplastics pollution and reduction strategies
Wei-Min Wu,Jun Yang,Craig S. Criddle
Frontiers of Environmental Science & Engineering. 2017, 11 (1 ): 6-.
https://doi.org/10.1007/s11783-017-0897-7
Microplastic particles smaller than 5 mm in size are of increasing concern, especially in aquatic environments, such as the ocean. Primary source is microbeads (<1 mm) used in cosmetics and cleaning agents and fiber fragments from washing of clothes, and secondary source such as broken down plastic litter and debris. These particles are mostly made from polyethylene (PE), polypropylene (PP), polystyrene (PS), polyethylene terephthalate (PET) and polyesters. They are ingested by diverse marine fauna, including zooplanktons, mussel, oyster, shrimp, fish etc. and can enter human food chains via several pathways. Strategy for control of microplastics pollution should primarily focus on source reduction and subsequently on the development of cost-effective clean up and remediation technologies. Recent research results on biodegradation of plastics have revealed a potential for microbial biodegradation and bioremediation of plastic pollutants, such as PE, PS and PET under appropriate conditions.
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Adsorption in combination with ozonation for the treatment of textile waste water: a critical review
Shraddha Khamparia,Dipika Kaur Jaspal
Frontiers of Environmental Science & Engineering. 2017, 11 (1 ): 8-.
https://doi.org/10.1007/s11783-017-0899-5
A combination of adsorption with ozonation proved best for dye removal.
Toxicity of the textile effluents can be remarkably reduced by combined method.
Wide scope for choice of natural materials for treatment of textile dyes.
Intrusion of synthetic textile dyes in the ecosystem has been recognized as a serious issue worldwide. The effluents generated from textiles contain large amount of recalcitrant unfixed dyes which are regarded as emerging contaminants in the field of waste water study. Removal of various toxic dyes often includes diverse and complex set of physico-chemical, biological and advanced oxidation processes adopted for treatment. Adsorption in itself is a well-known technique utilized for treatment of textile effluents using a variety of adsorbents. In addition, ozonation deals with effective removal of dyes using high oxidising power of ozone. The review summarizes dye removal study by a combination of ozonation and adsorption methods. Also, to acquire an effective interpretation of this combined approach of treating wastewater, a thorough study has been made which is deliberated here. Results asserts that, with the combined ability of ozone and a catalyst/adsorbent, there is high possibility of total elimination of dyes from waste water. Several synthetically prepared materials have been used along with few natural materials during the combined treatment. However, considering practical applicability, some areas were identified during the study where work needs to be done for effective implementation of the combined treatment.
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Global sources, emissions, transport and deposition of dust and sand and their effects on the climate and environment: a review
Feng Wang, Xueqiu Zhao, Cynthia Gerlein-Safdi, Yue Mu, Dongfang Wang, Qi Lu
Frontiers of Environmental Science & Engineering. 2017, 11 (1 ): 13-.
https://doi.org/10.1007/s11783-017-0904-z
he main sources of sand and dust lie in deserts and semi-deserts, such as the Sahara Desert in Africa and the deserts in Central and Western Asia.
Dust aerosols directly alter the radiation balance of the earth-atmosphere system by scattering and absorbing short- and long-wave radiation.
Dust aerosols indirectly alter the albedo and rainfall patterns by acting as cloud condensation nuclei (CCN) or ice nuclei (IN).
Dust aerosols mitigate global warming by altering the amount of CO2 absorbed by the marine phytoplankton.
Dust and Sand Storms (DSS) originating in deserts in arid and semi-arid regions are events raising global public concern. An important component of atmospheric aerosols, dust aerosols play a key role in climatic and environmental changes at the regional and the global scale. Deserts and semi-deserts are the main source of dust and sand, but regions that undergo vegetation deterioration and desertification due to climate change and human activities also contribute significantly to DSS. Dust aerosols are mainly composed of dust particles with an average diameter of 2 m m, which can be transported over thousands of kilometers. Dust aerosols influence the radiation budget of the earth-atmosphere system by scattering solar short-wave radiation and absorbing surface long-wave radiation. They can also change albedo and rainfall patterns because they can act as cloud condensation nuclei (CCN) or ice nuclei (IN). Dust deposition is an important source of both marine nutrients and contaminants. Dust aerosols that enter marine ecosystems after long-distance transport influence phytoplankton biomass in the oceans, and thus global climate by altering the amount of CO2 absorbed by phytoplankton. In addition, the carbonates carried by dust aerosols are an important source of carbon for the alkaline carbon pool, which can buffer atmospheric acidity and increase the alkalinity of seawater. DSS have both positive and negative impacts on human society: they can exert adverse impacts on human’s living environment, but can also contribute to the mitigation of global warming and the reduction of atmospheric acidity.
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