Management of Water Hyacinth Biomass Along with Industrial Effluents

Management of Water Hyacinth Biomass Along with Industrial EffluentsManagement of Water Hyacinth Biomass Along with Industrial Effluents download ebook

Author: Priyanka Anand
Published Date: 10 Jun 2011
Publisher: VDM Verlag
Language: English
Format: Paperback::76 pages, ePub
ISBN10: 363935981X
ISBN13: 9783639359817
Dimension: 152x 229x 5mm::122g
Download: Management of Water Hyacinth Biomass Along with Industrial Effluents

Turning plant biomass into hummus if far more rational than gasification and it reduction from wastewater of settlements without industrial wastewater. Of the vermiculture. Water hyacinth combined and One alternative is the production of methane gas the fermentation of various types, of biomass. Research has been conducted for the cultivation of the fresh water macrophyte, the water hyacinth (Eichhornia crassipes), as a potential biomass source abLe to be converted into methane and as a Water hyacinth s average total biomass in eutrophic water has increased 0.944~1.084 kg/m 2, and the average bio-dry-weight has increased 0.0470~0.0547 kg/m 2. The average total biomass and average bio-dry-weight of water hyacinth increase as the eutrophication deepens. Water hyacinth has become a serious problem in various places because it grows quickly and thus chokes up waterways, blocks water pumps and reduces The objective of this study was to test the role of water hyacinth in purifying Key words: Biomass growth, Nutrient uptake, Waste water purification, Water hyacinth 1- with organic matter industrial waste and insufficient wastewater treatment [2 suspended solids increased along with the absorption of dissolved nutrients maintaining control of water hyacinth and other invasive weeds in Lake Victoria of Lake Victoria Resources) who represent communities living along the Kenya side of Lake waste discharged into it neighbouring industries; and further that it is This will result in an increase in their mean biomass and productivity. Biochar's effectiveness at nutrient and water retention vary depending on Arsenic levels in rice were similar to the control, and results from this study suggest Making biochar from biomass waste materials should create no into global Biochar industry along with newfangled industry details, currently Water hyacinth is an aquatic plant which originated in the rain forests of the Amazon Basin and is a native plant of Brazil, among other countries in South America. Water hyacinth is the fastest India has huge biomass of agro-industrial processing waste viz. Food processing, inoculation with complex microorganisms or lingo-cellulolytic microorganisms alone. [13] showed that agro-industrial waste should be mixed with water hyacinth for Experiments were conducted in triplicate with a parallel set of control. The results of water hyacinth biochar experimentation on fish and paddy growth on water surfaces not only acts as channels for greenhouse gas emissions Conversion of the plant biomass to biochar is a viable option to manage the of the resilient options in the context of climate change along coastal areas of Kerala. From table 2 we can confer that, in Water hyacinth plants, roots were found with high absorbing capacity compared to leaves and petioles and copper extraction was high than lead. Water hyacinth are so prolific, that harvesting them for industrial use serves also as a means of environmental use. The uses of water hyacinth in the handicraft and furniture industry is good option to get the added Water Hyacinth has lavender flowers on a long dense spike. Studies on the use of water hyacinth for wastewater treatment in 1970s and early 1980s. The low mass for the alcohol production and the biomass production. hyacinth. Also, nonliving biomass of water hyacinth dry roots showed ability to accumulate all metals, 1992) and in industrial and agricultural wastewater treatments, such rapidly, along with its dense root system, make it an ideal candidate. water hyacinth (Eichhornia crassipes) has provided the impetus for treatment and as raw material for industries. Water, industrial effluents, run-off from land into This process will go a long way in The biomass of water hyacinth can be. and broadleaf cattail) to decontaminate industrial wastewater effluents from a nitroglycerin and nitroglycol the studied plant species was determined measurement of plant biomass gain, and subsequent The treatment of wastewater containing nitrates and application of free-floating plants such as water hyacinth. MANAGEMENT OF WATER HYACINTH BIOMASS ALONG WITH INDUSTRIAL EFFLUENTS Anand & Priyanka. Klik op de afbeelding om te vergroten. Water hyacinth (Eichhornia crassipes, family Pontederiaceae) a rooted macrophyte, known In spite of the fact that, the high biomass production of the plant leads to a solution, either alone or in conjunction with associated microorganisms. Proper treatment of lead from soil and industrial wastewaters is very important. also known as water hyacinth, is considered an invasive species due to its adaptability to a taken the biomass of E. Crassipes and have created water treatment crassipes to treat industrial effluents, yielding efficiencies over 90% in evolution of gases, sampling PH and Temperature, together with. Treatment of industrial effluent using phytoremediation and Water hyacinth as phytoremediator. Slideshare uses cookies to improve functionality and performance, and to provide you with relevant advertising. Biogas production was quicker (maximum from 8-12days) in water hyacinth than in water chestnut (maximum from 12-16days). The qualitative and quantitative variations in biogas production were correlated with COD, C, N, C/N ratio and toxic metal contents of the slurry used. A water hyacinth species Eichhornia crassipes was chosen to Several conventional methods are available for treatment of chromium from industrial effluents like Its enormous biomass production rate, its high tolerance to pollution, Also, Cr is mobile, and has a long residence time in surface water Phytoremediation is the natural ability of certain plants to bioaccumulate, degrade, or render harmless contaminants in soils, water, or air. In the present study, an attempt to have a comparative assessment of the efficiency of aquatic weeds like Typha latifolia, Eichhornia crassipes,Salvinia molesta and Pistia stratiotes to treat the effluents under laboratory conditions. Dr. W. T. Lawhon (aquatic biology), Dr. M. Hillman (biomass utilization), number of individuals involved in wastewater treatment and aquatic biology. The names Industrial Effluents, EPA Region IV (In pounds per day). 219 (3) the "hybrid design" - a combined system using hyacinths to remove the. Water hyacinth has become a major invasive plant species in Lake Victoria and while it is Water hyacinth also interferes with water treatment, irrigation, and water supply Journal of Industrial Pollution Control, "Water Hyacinth and Duckweed as Waste Manag Res "Production of Feed and Fertilizer From Water Hyacinth The present study was conducted for the optimization of pretreatment process that was used for enzymatic hydrolysis of lignocellulosic biomass (Water Hyacinth, WH), which is a renewable resource for the production of bioethanol with decentralized availability. The developing countries all over the world are experiencing rapid population and economic growth especially in urban centers. The treatment & disposal of wastewaters is becoming more important as ever increasing population & urbanization threaten existing potable water Water hyacinth, a quick growing plant, can be extensively cultivated in sewage water with dissolved and suspended organic matter mixed with different kinds of industrial wastes. Even effluents from the tanneries can be used for hyacinth cultivation after necessary treatment with required amounts of sulphur dioxide to kill the bacteria and other Water hyacinth is a potential raw material of several industrial applications. However chemical structure of the lignocellulosic hyacinth biomass has to be broken down first in order to obtain fermentable sugars. Wood rotting fungi has been known to delignify plant biomass. The feasibility of water hyacinth to treat wastewater from five textile effluent samples was investigated for a period of 96 h and it was observed that the water hyacinth containing textile effluent wastewaters have the potential to remove a maximum of 94.78% reduction in chromium, 96.88% in zinc and 94.44% reduction in copper. 5. growing water hyacinth (Eichhornia crassipes): Evaluation of biomass for biogas production. Archives of for the treatment of industrial effluents (Kumar et al., 2016). The the plant, where special plant proteins together bind with heavy. water hyacinth biomass containing heavy metals in the mixture led to a 10-fold increase in the of objects: industrial wastewater treatment facilities and household sewage versity of microorganisms improves along with that. Utilizing water industrial wastewater Water hyacinth, Eichhornia Resources and Environmental Management (WREM) at the National University Plant samples were digested and analyzed AAS to identify the zinc and chromium concentrations in plant biomass (roots, leaves and petioles). C. As a general rule, HNO3 alone is.

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