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Mass movements, especially landslides, are a recurring natural phenomenon and are an integral part of any geological/geomorphological cycle of landform development through sequential development of slopes in any elevated region and especially in young fold mountain chains. The purpose of this paper is to develop and evolve cheap, affordable, environment friendly and ecologically sustainable techniques of landslide disaster management and prevention.

The study is based on extensive research and field observations of various landslide management projects over the past decade and includes an intensive review of literature from secondary sources.

Landslide management aims to facilitate, and as far as possible accelerate the ongoing process of development on a sustainable basis, by preventing (reducing) the loss of lives and property by applying modern science and technology and taking appropriate measures and safety precautions at the right place at the right time. Landslide management, even in the most developed countries, has suffered from lack of adequate financial resources. Bioengineering offers an environment friendly and highly cost and time effective solution to the slope instability problems in mountainous and hilly areas.

The paper aims to initiate and encourage research in the field of landslide management with the viewpoint that green technology is a clean and affordable technology (both financially and ecologically).

The paper shows that bioengineering is highly cost effective and has very high cost‐benefit ratio. Bioengineering techniques when used in combination with civil and social engineering measures reduce the overall cost of landslide mitigation considerably which is the key factor for developing nations. Bioengineering has a very high success rate and is much more sustainable, eco‐friendly and affordable than other available options.

The purpose of this paper is to analyse the investment pattern, adoption behaviour, attitude of farmers towards conservation compliance programmes and the extent of participation of farmers in soil conservation projects in the Western Ghats of India.

For the present study, multistage purposive sampling was followed. The sample respondents were identified for the survey in all the five categories of watersheds (very high, high, medium, low and very low priority watersheds) in the Nilgiris district of Tamil Nadu at the rate of 50 farm respondents in each category. Since the investment among the five categories of watersheds did not show any significant differences, the sample farmers were post stratified as marginal, small, medium and large farmers based on farm size for further analysis.

The investment analysis showed a benefit cost ratio (BCR) of 1.03 for staggered trenches for tea to 1.40 for bench terrace for carrot. For annual crops, the BCR for bench terrace varied from 1.03 for cabbage to 1.32 for carrot. Among the soil conservation technologies, in tea plantation, stone wall had the highest net present value (NPV) of Rs. 74,335. Staggered trench had the lower NPV Rs. 19,237 among all conservation structures. The results of the contingent valuation showed that cropped area, farm size, on-farm income positively and significantly influenced the willingness to pay (WTP) towards soil conservation. Family size and age of the farmer negatively influenced the WTP of the respondents significantly. The multinomial logit model indicated that staggered trench had direct impact on productivity. In tea plantation, staggered trench adoption was influenced by area under plantation crops, farm size, educational level and land slope. The participation index was very low (<30), indicating the poor participation of farmers in soil conservation programmes.

The results of the study reveal the appropriateness of the soil conservation technologies for the select soil type as well as the specific socioeconomic conditions of the farmers undertaking conservation compliance programs in the Nilgiris district of Tamil Nadu. Understanding the farmer’s perceptions and adoption behaviour is important in making the whole programme a successful one. Hence the results of the study may not be generalized for other study zones, unless otherwise, the agro-ecological zone is similar to the site where the study was conducted.

The study suggested that adoption of conservation technologies should be promoted in a big way to conserve natural resources like soil and enhance economic returns. It is also advocated that institutions should provide only guidance for community participation not on community governance and the role should be involving the real stakeholders/beneficiaries under participatory mode to achieve the goal of soil conservation. The bottom-up approach should be adopted to address the real issues involved in conservation compliance programmes.

The outcome of the study advocates the economic viability of conservation technologies adopted by the crop farmers. The project results also advised the farmers, institutions and the enforcements authorities, the strategies to be adopted to minimize soil loss and increase crop productivity by adopting the appropriate conservation compliance programs. The results also revealed that conservation of soil and water not only conserved the precious natural resources but also had far reaching effect on the yield of croplands, which would be reflected on the food and nutritional securities of the local communities at the micro level and the nation as a whole at the macro level.

The research outcome is based on the field level research done by the authors in the Western Ghats of India. The primary data collected from the respondents were analysed and used for drawing inferences and conclusions.

Addressing probable complexities of climate change on rural livelihoods, food security, and poverty reduction, requires mainstreaming of cross-sectoral interventions and adaptations into existing frameworks. Indigenous communities due to their isolation, reluctance to current practices, and knowledge deprivation are difficult to reach by many developmental programs. The purpose of this paper is to identify relevant adaptations from indigenous rural Jharkhand (India), applicable to improving livelihoods through integrated natural resource management (NRM). Prospects of rainwater harvest and management for supporting local rural livelihoods were also examined.

Tested and applicable models of participatory research methods widespread in sociological research were used. Focussed group discussions and structured interviews were conducted for primary data collection from micro-watershed units of this study.

In-situ soil and water conservation methods showed increased availabilities of freshwater both for food and non-food consumption in the area. Construction of rural infrastructure and land husbandry practices improved agricultural productivity and resulted in subsequent reductions in women's drudgeries. Culture fishery provided ample scope for livelihood diversification, food and nutrition security of households. Overall, micro-watershed area developmental approach improved food and nutrition securities, generated employment opportunities, improved agricultural productivity, diversified livelihoods and were widely accepted by communities.

Creating greater sense of ownership among grass-root communities was an important thrust behind the success of this particular project. By entrusting tribal communities with fund management, rural planning, and execution of various interventions, a successful replicable model was produced, which has wider community implications extending beyond societies and geographies.

This study aims to introduce a three-hole cooling unit to improve downstream cooling performance by jet interaction and coalescence at a lower manufacture cost.

A new three-hole cooling unit is proposed. Reynolds-averaged Navier–Stokes (RANS) simulation is performed in the present study. The CFD package ANSYS CFX is used to predict film-cooling effectiveness and flow fields.

The results show that, at pitch ratio P/D = 3, Case 4 configuration with a round hole upstream and two trenched holes downstream can obtain a high cooling performance at a lower manufacture cost, especially at the higher turbulence. Considering the effect of increased pitch ratio, Case 6 configurations of three staggered trenched holes show a superior downstream cooling performance than Case 4 configurations. Case 6 configurations have the potential of achieving a high cooling performance with a reduced number of holes and less coolant flow.

The application of these cooling units in the turbine passage will be conducted in the future. The more detailed flow field will be simulated by large eddy simulation in the following research.

The round and trenched cooling holes have been proved to be achievable in the manufacture. This combined three-hole cooling unit will give the opportunity to increase turbine inlet temperature further.

Both cooling performance and practical manufacture are taken into account. This cooling scheme will give a superior surface protection on the hot components.

While rapid increase in demand for foods but limited availability of croplands has forced to adopt input-intensive farming practices to increase yield, there are serious long-term ecological implications including degradation of biodiversity. It is increasingly recognised that ensuring agricultural sustainability under the changing climatic conditions requires a change in the production system along with necessary policies and institutional arrangements. In this context, this chapter examines if climate-smart agriculture (CSA) can facilitate adaptation and mitigation practices by improving resource utilisation efficiency in India. Such an attempt has special significance as the existing studies have very limited discussions on three main aspects, viz., resource productivity, adaptation practices and mitigation strategies in a comprehensive manner. Based on insights from the existing studies, this chapter points out that CSA can potentially make significant contribution to enhancing resource productivity, adaptation practices, mitigation strategies and food security, especially among the land-constrained farmers who are highly prone to environmental shocks. In this connection, staggered trench irrigation structure has facilitated rainwater harvesting, local irrigation and livelihood generation in West Bengal. However, it is necessary to revisit the existing approaches to promotion of CSA and dissemination of information on the design of local adaptation strategies. This chapter also proposes a change in the food system from climate-sensitive to CSA through integration of technologies, institutions and policies.

The purpose of this article is to inform the reader of the various options available today in the management of power and communication systems within a library. These options are measured against several factors: the library’s program goals, its budget, and its structure. As library architects and interior designers, the design of the building must meet the user’s needs and the owner’s goals and be flexible to change as these needs and goals change. The facility’s ability to support technology and provide for adaptation to future changes is key to its success. This article describes six methods of managing and accessing power and communication in both new and renovated facilities. It describes the advantages and disadvantages of each system, and provides examples of their practical applications. The solutions to managing wiring for power and communication within the furniture systems is also discussed relative to how the connections interface with the building and the users. On reading this article, librarians and owners will have a better understanding of the options available and how their decisions regarding these options impacts the future adaptability of the facility.

There are industrial applications for varying speed lid-driven flow and heat transfer such as the float glass process where the glass film stretches or thickens depending on the desired thickness. Hence the tin cavity underneath or the nitrogen cavity above is being driven by a variable speed. The purpose of this paper is to simulate such behavior.

Numerical solution of variable speed lid-driven cavity is carried out with thermal radiation being considered using control volume approach and staggered grid and applying the SIMPLE algorithm. Transient simulation is used for 2D model in the present study. Second order upwind schemes were used for discretization of momentum, energy equations and time.

Under laminar conditions, thermal radiation plays a significant role in the heat transfer characteristics of the lid-driven cavity. This effect is more significant for blackbody radiation and decreases as the surface emissivity decreases. Nusselt number (Nu) behavior lies between these two limiting case profiles considering constant speed profiles of both maximum and minimum lid velocities, respectively. In addition, local Nu values at the tip where higher than those at the top of the cavity that is stagnant.

The study is limited to laminar flow case.

The applications of this study can be found in float glass process where the glass film stretches or thickens depending on the desired thickness. Hence the tin cavity underneath or the nitrogen cavity above is being driven by a variable speed. Another application involves casting of plastic films. The molten polymer leaves the die with a considerable thickness and high temperature. The film is then trenched to reach its final thickness. In this case, usually there is no actual cavity above or below the film but one can approximate the problem as such. Other similar applications do exist in food drying and processing where the conveyer belt is in portions and their speed may not be the same in different section of the processing oven.

To the best of the authors knowledge, no study in the literature addressed the effect of thermal radiation in lid-driven cavities with variable speed

The purpose of this paper is to present a comprehensive review on development and future trends in zinc oxide thin film transistors (ZnO TFTs). This paper presents the development of TFT technology starting from amorphous silicon, poly-Si to ZnO TFTs. This paper also discusses about transport and device modeling of ZnO TFT and provides a comparative analysis with other TFTs on the basis of performance parameters.

It highlights the need of high–k dielectrics for low leakage and low threshold voltage in ZnO TFTs. This paper also explains the effect of grain boundaries, trap densities and threshold voltage shift on the performance of ZnO TFT. Moreover, it also addresses the challenges like requirement of stable p-type ZnO semiconductor for various electronic applications and high value of ZnO mobility to meet growing demand of high-definition light emitting diode TV (HD-LED TV).

This review will motivate the readers to further investigate the conduction mechanism, best alternate for gate-dielectric and the deposition technique optimization for the enhancement of the performance of ZnO TFTs.

This is a literature review. The technological evolution of TFT in general and ZnO TFT in particular is presented in this paper.