Technology portfolio analysis for residential lighting

electricity forces the electricity utilities to increase their generating capacity. The huge investments on generation, transmission and distribution (at the cost of alternative development projects) adversely affect India's scarce capital resources. Also, internal energy resources like coal are utilised with a great risk to the environment. This paper attempts to show analytically the benefits of shift in the focus from supply augmentation to demand management through a case study of replacement of inefficient devices with efficient ones for residential lighting. This is being done by analyzing the economics of various alternatives and developing an optimal portfolio for meeting the lighting requirement of a typical household in Maharashtra State in India. A mixed integer-programming model has been used for developing the optimal portfolio and a comparison of annual returns is made. Finally, the results for the typical household have been extended to the state of Maharashtra and the cost and benefits are estimated. The results show that the optimal lighting portfolio provides a far higher return at a lower risk compared to other investment alternatives like the stock market while providing substantial savings both in terms of energy and peak demand.Demand management, electricity consumption, energy resources, mixed integer-programming model, rate of return

Technology portfolio analysis for residential lighting

Electricity consumption in India is increasing rapidly over the years. The increased demand for electricity forces the electricity utilities to increase their generating capacity. The huge investments on generation, transmission and distribution (at the cost of alternative development projects) adversely affect India's scarce capital resources. Also, internal energy resources like coal are utilised with a great risk to the environment. This paper attempts to show analytically the benefits of shift in the focus from supply augmentation to demand management through a case study of replacement of inefficient devices with efficient ones for residential lighting. This is being done by analyzing the economics of various alternatives and developing an optimal portfolio for meeting the lighting requirement of a typical household in Maharashtra State in India. A mixed integer-programming model has been used for developing the optimal portfolio and a comparison of annual returns is made. Finally, the results for the typical household have been extended to the state of Maharashtra and the cost and benefits are estimated. The results show that the optimal lighting portfolio provides a far higher return at a lower risk compared to other investment alternatives like the stock market while providing substantial savings both in terms of energy and peak demand.Demand management, electricity consumption, energy resources, mixed integer-programming model, rate of return

Hydrogen energy for Indian transport sector: A Well-to-wheel techno-economic and environmental feasibility analysis

With the alarming rate of growth in vehicle population and travel demand, the energy consumption has increased significantly contributing to the rise of GHG emissions. Therefore, the development of a viable environmentally benign technology/fuel, which minimises both global and local environmental impacts, is the need of the hour. There are four interconnected reasons for propagating a shift towards alternative fuels/technologies: (i) Energy Supply: world oil reserves are rapidly diminishing, (ii) Environment: local pollution from vehicles is creating an atmosphere that is increasingly damaging public health and environment, (iii) Economic competitiveness: the cost of producing oil and regulating the by-products of oil consumption continues to increase, and (iv) Energy security: the military and political costs of maintaining energy security in international markets are becoming untenable. Hydrogen energy has been demonstrated as a viable alternative automotive fuel in three technological modes: internal combustion engines connected mechanically to conventional vehicles; fuel cells that produce electricity to power electric vehicles; and hybrids that involve combinations of engines or fuel cells with electrical storage systems, such as batteries The present study provides a well-to-wheel analysis of the economic and environmental implications of technologies to deliver the hydrogen energy to the vehicles. The main objectives of the study are: (i) prioritization of technologies of hydrogen production, transportation, storage and refueling, (ii) economic analysis of prioritized technology alternatives to estimate the delivered cost of hydrogen at the end-use point, and (iii) estimating the environmental impacts. To achieve the desired objectives, various quantitative life-cycle-cost analyses have been carried out for numerous pathways (i.e. technologies and processes) for hydrogen production, storage, transportation/distribution and dispensing. The total cost implications are arrived at by combining the costs of hydrogen (at end-use point) and the estimated demand for hydrogen for transport. The environmental benefits (potential to abate GHG emissions) of alternative hydrogen energy technology pathways have been worked out by using the standard emission factors. Finally, the GHG emission levels of hydrogen supply pathways are compared with those of diesel and petrol pathways. The application of this systematic methodology will simulate a realistic decision-making process.

Hydrogen Energy For Indian Transport Sector - A Well-To-Wheel Techno-Economic and Environmental Feasibility Analysis

With the alarming rate of growth in vehicle population and travel demand, the energy consumption has increased significantly contributing to the rise of GHG emissions. Therefore, the development of a viable environmentally benign technology/fuel, which minimises both global and local environmental impacts, is the need of the hour. There are four interconnected reasons for propagating a shift towards alternative fuels/technologies : (i) Energy Supply : world oil reserves are rapidly diminishing, (ii) Environment : local pollution from vehicles is creating an atmosphere that is increasingly damaging public health and environment, (iii) Economic competitiveness : the cost of producing oil and regulating the by-products of oil consumption continues to increase, and (iv) Energy security : the military and political costs of maintaining energy security in international markets are becoming untenable. Hydrogen energy has been demonstrated as a viable alternative automotive fuel in three technological modes : internal combustion engines connected mechanically to conventional vehicles; fuel cells that produce electricity to power electric vehicles; and hybrids that involve combinations of engines or fuel cells with electrical storage systems, such as batteries The present study provides a well-to-wheel analysis of the economic and environmental implications of technologies to deliver the hydrogen energy to the vehicles. The main objectives of the study are : (i) prioritization of technologies of hydrogen production, transportation, storage and refueling, (ii) economic analysis of prioritized technology alternatives to estimate the delivered cost of hydrogen at the end-use point, and (iii) estimating the environmental impacts. To achieve the desired objectives, various quantitative life-cycle-cost analyses have been carried out for numerous pathways (i.e. technologies and processes) for hydrogen production, storage, transportation/distribution and dispensing. The total cost implications are arrived at by combining the costs of hydrogen (at end-use point) and the estimated demand for hydrogen for transport. The environmental benefits (potential to abate GHG emissions) of alternative hydrogen energy technology pathways have been worked out by using the standard emission factors. Finally, the GHG emission levels of hydrogen supply pathways are compared with those of diesel and petrol pathways. The application of this systematic methodology will simulate a realistic decision-making process.Hydrogen Energy, Indian Transport Sector, Feasibility Analysis

Commercialisation of Sustainable Energy Technologies

Commercialization efforts to diffuse sustainable energy technologies (SETs) need to be sustainable in terms of replication, spread and longevity, and should promote goal of sustainable development. Limited success of diffusion through government driven pathways illustrates the need for market-based approaches to SET commercialization. This paper presents a detailed treatment of the pre-requisites for adopting a private sector driven business model approach for successful diffusion of SETs. This is expected to integrate the processes of market transformation and entrepreneurship development with innovative regulatory, marketing, financing, incentive and intermediary mechanisms. Further, it envisages a public-private partnership driven-mechanism as a framework for diffusion leading to technology commercialization.Commercialisation, Energy, Financing, technology, Sustainable

An Entrepreneurship Model for Energy Empowerment of Indian Households - Economic and Policy Analysis

Provision of modern energy services for cooking (gaseous fuels) and lighting (electricity) is an essential component of any policy aiming to address health, education or welfare issues; yet it gets little attention from policymakers. Secure, adequate, low-cost energy of quality and convenience is core to the delivery of these services. The present study analyses the energy consumption pattern of Indian domestic sector and conceptualizes availability, accessibility, and affordability indicators of modern energy services to households and describes the practical ways of evaluating them. A comprehensive analysis is done to estimate the cost for providing modern energy services to everyone by 2030. A publicprivate partnership-driven business model, with entrepreneurship at the core, is developed with innovative institutional, financing and pricing mechanisms for diffusion of energy services. This approach facilitates largescale dissemination of energy efficient and renewable technologies like smallscale biogas/biofuel plants, and solar water heating systems to provide clean, safe, reliable and sustainable energy to rural households and urban poor. It is expected to integrate the processes of market transformation and entrepreneurship development involving government, NGOs, financial institutions and community groups as stakeholders.Energy Service, Electricity, Biogas, Availability, Accessibility, Affordability

PROTECTIVE EFFECT OF COMMIPHORA MUKUL GUM RESIN ON BRAIN IN STREPTOZOTOCIN-INDUCED DIABETIC RATS

Objective: The present study was undertaken to investigate the hypolipidemic activity of ethanolic extract of Commiphora mukul gum resin (EtCMGR) on the brain of streptozotocin (STZ) induced diabetic Wistar rats.Methods: Thirty two rats, included for the study, were divided into four groups: control (C), control treated with EtCMGR (C+CM), diabetic (D) and diabetic treated with EtCMGR (D+CM). Diabetes was induced by single intraperitonial injection of STZ (55 mg/kg b.w.).Results: Diabetic rats showed significant reduction in the levels of total lipids, phospholipids, cholesterol, glycolipids and protein level and significant decrease in the activity of acetylcholinesterase while the levels of triglycerides, acetylcholine and the activities of glutamate pyruvate transaminases (GPT) and glutamate oxaloacetate transaminases (GOT) increased significantly when compared to control group. Oral administration of EtCMGR (suspended in 5% Tween-80 in distilled water prior to use) daily at a concentration of 200 mg/kg b.w. to group-D+CM rats for 60 days reversed the above changes significantly.Conclusion: These results suggest that EtCMGR exhibits hypolipidemic effect in the STZ-induced diabetic rats.Â

Histopathological Observations in Rabbits Experimentally Infected with Trypanosoma evansi

New Zealand white rabbits (n=6) were challenged with the South Indian local strain of Trypanosoma evansi. Each animal was infected with 5x105 trypanosomes subcutaneously. Animals were daily examined for the development of clinical signs using wet blood-films sampled from the ear veins. Clinically, intermittent pyrexia, undulating parasitaemia, anorexia and emaciation were predominant. Three months post infection, rabbits were sacrificed, detailed postmortem examination was carried out and representative tissue samples were fixed. Gross pathological changes including paleness of visceral organs, gelatinization of fat, congested and oedematous lungs,mucoid enteritis, hepatomegaly and splenomegaly were noticed. Histopathologically, internal organs elucidated clear changes consisted of severe hepatic fatty change, pulmonary congestion with thickened interstitial spaces and emphysema, degeneration of the renal epithelium associated with cystic tubular formation and congested red pulp

Efficiently Identifying the Data Leakages

Abstract Data leakage is defined as the accidental or unintentional distribution of private or sensitive data to an unauthorized entity. Sensitive data in companies and organizations include intellectual property (IP), financial information, patient information, personal credit-card data, and other information depending on the business and the industry. Data leakage poses a serious issue for companies as the number of incidents and the cost to those experiencing them continue to increase. Data leakage is enhanced by the fact that transmitted data (both inbound and outbound), including emails, instant messaging, website forms, and file transfers among others, are largely unregulated and unmonitored on their way to their destinations. Furthermore, in many cases, sensitive data are shared among various stakeholders such as employees working from outside the organization's premises (e.g., on laptops), business partners, and customers. This increases the risk that confidential information will fall into unauthorized hands. Whether caused by malicious intent or an inadvertent mistake by an insider or outsider, exposure of sensitive information can seriously hurt an organization.The Data Leakage problem can be defined as any unauthorized access of data due to an improper implementation or inadequacy of a technology, process or a policy. The "unauthorized access" described above can be the result of a malicious, intentional, inadvertent data leakage, or a bad business/technology process from an internal or external user. Traditionally, this leakage of data is handled by water marking technique which requires modification of data. If the watermarked copy is found at some unauthorized site then distributor can claim his ownership. To overcome the disadvantages of using watermar

ASSESSMENT OF IN VITRO ANTIOXIDANT POTENTIAL AND QUANTIFICATION OF TOTAL PHENOLS AND FLAVONOIDS OF AQUEOUS EXTRACT OF PHYLLANTHUS AMARUS

Objective: The modern research is directed towards finding naturally occurring antioxidants of plant origin. To search for new sources of safe and inexpensive antioxidants, present study was undertaken to quantify total phenols and flavonoids and, evaluation and correlation of antioxidant potential of aqueous extract of Phyllanthus amarus Schum & Thonn, (PAAEt) belongs to Euphorbiace family under in vitro condition.Methods: Determination of total phenolic and flavonoid contents was performed by UV-visible spectrophotometer. The antioxidant potential of P. amarus was tested with different antioxidant test systems; inhibition of lipid peroxidation (LPO), scavenging of 1,1-Diphenyl-2-picrylhydrazyl (DPPH), hydroxyl, superoxide and nitric oxide radicals with reducing power. Results: The plant extract has appreciable amounts of total phenolic compounds (120±2.0 mg GA eq. g-1) and flavonoids (3.02±0.13 mg Q eq. g-1) of the extract. PAAEt exhibited effective and strong antioxidant activity in dose-dependent manners in inhibiting LPO (IC50 623.4 μg/ml) and scavenging of free radicals such as DPPH (IC50 200.2 μg/ml), hydroxyl (IC50 280.6 μg/ml), superoxide (IC50 201.5 μg/ml), nitric oxide (IC50 408.5 μg/ml) with reducing power (IC50 500.0 μg/ml). PAAEt showed effective and strong positive correlation with reducing power (r2= 0.972) and LPO inhibition (r2= 0.964) and free-radicals (P<0.05).Conclusion: Presence of high amount of phenolic and flavonoid compounds and appreciable amounts of IC50 for various free radicals and inhibition of LPO and reducing power with significant strong positive correlation for scavenging of free radicals, LPO inhibition and reducing power indicated that PAAEt has strong antioxidant potential.Â