Design and Analysis of Telescopic Boom for Mobile Cranes

Composite is stated as constituent of two or more materials which retain their own physical and chemical property during the time of application, but produce a component which inherent the properties of its constituent materials and makes it better for the real time USAge. There are varieties of processing techniques for fabricating composite parts or structures such as: (1) Resin Transfer Moulding, (2) Pultrusion, (3) Filament Winding, (4) Autoclave Moulding. Among all these technique of exercising composite materials, the filament winding technique is the most appropriate because it avails the user with the ease of USAge, as well as gives wide range of degree of freedom for fabricating or manufacturing objects. In the paper we basically reveal the maximum approach made to study basic theory related to the filament winding technique or method, which provides initial platform for the new learner

A Review Onbuilding Integrated Photovoltaics for Sustainable Environment

As India is moving towards industrial and urban development, the need for energy is growing with time. The conventional energy resources cannot fulfill these demands forever since they provide a certain finite energy demands. In such case thesolar energy can be considered as a potential source. The geographical location of India being close to the equator, the solar energy is available in abundance. Capturing the solar energy and converting into electrical will prove to be an efficient way toutilize the solar potential for fulfilling the growing demand for energy. Photo Voltaic Solar Panels located on terraces or open grounds are commonly used as solar capturing devices in India. The Building Integrated Photovoltaic panels (BIPV) is a step further which can also be used as outer envelope in buildings. This paper reviews the feasibility and suitability of the BIPV system to Indian construction industry and its future

Role of trace elements as cofactor

Metabolic engineering has potential to steadily enhance product titers by inducing changes in metabolism. Especially, availability of cofactors plays a crucial role in improving efficacy of product conversion. Hence, the effect of certain trace elements was studied individually or in combinations, to enhance butanol flux during its biological production. Interestingly, nickel chloride (100 mg L-1) and sodium selenite (1 mg L-1) showed nearly two-fold increase in solvent titer, achieving 16.13±0.24 and 12.88±0.36 g L-1 total solvents with yield of 0.30 and 0.33 g g-1, respectively. Subsequently, addition time (screened entities) was optimized (8 h) to further increase solvent production up to 18.17±0.19 and 15.5±0.13 g L-1 by using nickel and selenite, respectively. A significant upsurge in butanol dehydrogenase (BDH) levels was observed, which reflected in improved solvent productions. Additionally, a three-dimensional structure of BDH was also constructed using homology modeling and subsequently docked with substrate, cofactor and metal ion to investigate proper orientation and molecular interactions.Peer reviewe

Domestic Waste Water Treatment By Using Bio-soil Filter

Water resource management major challenge for development worldwide. While water demand will continue to increase, the limited amount of natural fresh water available will always be problematic in term of water resources management. Large portion of domestic waste water in small and remote communities few discharge in environment without effective treatment in areas with low population densities and dispersed household, waste water system strategies are needed which are environmentally ,socially and economically sustainable. A waste water treatment and disposal method the study aim to present the removal of suspended solid, bacterial indicators of fecal contamination, dissolved solid and parasites using bio-soil filter consist of three glass column .Two column contain gravel, red soil, murum, brick and rock wool

Review on Redesign of Traditional Open Canal System Into Closed Conduit System of Shetphal Medium Canal Project

This paper deals with the water distribution methods of canal irrigation and their social implications. The availability of water of water resources is limited in space and time. It was also seen that the water is stolen by the people's results in ineffective irrigation system. The Pipe Distribution Network system is one of the best possible alternatives to overcome the limitations of conventional gravity flow Canal Distribution Network system. But it was found that there is a loss of water due to evaporation, percolation and theft. It also includes study of different irrigation system like sprinkler, flow, drip irrigation and suggesting the system as per crop pattern and water requirement. This paper includes information about closed conduit canal system of water distribution. It includes advantages of pipe distribution network over the open canal water supply system

Role of Trace Elements as Cofactor: An Efficient Strategy toward Enhanced Biobutanol Production

Metabolic engineering has the potential to steadily enhance product titers by inducing changes in metabolism. Especially, availability of cofactors plays a crucial role in improving efficacy of product conversion. Hence, the effect of certain trace elements was studied individually or in combinations, to enhance butanol flux during its biological production. Interestingly, nickel chloride (100 mg L^–1) and sodium selenite (1 mg L^–1) showed a nearly 2-fold increase in solvent titer, achieving 16.13 ± 0.24 and 12.88 ± 0.36 g L^–1 total solvents with yields of 0.30 and 0.33 g g^–1, respectively. Subsequently, the addition time (screened entities) was optimized (8 h) to further increase solvent production up to 18.17 ± 0.19 and 15.5 ± 0.13 g L^–1 by using nickel and selenite, respectively. A significant upsurge in butanol dehydrogenase (BDH) levels was observed, which reflected in improved solvent productions. Additionally, a three-dimensional structure of BDH was also constructed using homology modeling and subsequently docked with substrate, cofactor, and metal ion to investigate proper orientation and molecular interactions