ID: 59047
Title: Hydro Energy in Bihar.
Author: Mohit Jain, Atul Rai, Anuradha Tomar.
Editor: Mahadevan Iyer.
Year: 2013
Publisher: Mahadevan Iyer, A Chary Publication.
Source: Centre for Ecological Sciences
Reference: Electrical India Vol 53 (no.11) pp. 168-173, 2013
Subject: Electrical India.
Keywords: Hydro Energy, Hydro power.
Abstract: This article includes the performance of hydro power in Bihar under BHPC. Power availability in Bihar for the last few years, installed capacity of projects under operation. The achievements during 10th plan and 11th plan and the upcoming projects planned by the state government. A case study has done on agnoor hydro power station.
Location: TE 12 New Biology Building
Literature cited 1: None
Literature cited 2: None
ID: 59046
Title: Coal Requirements for Indian Thermal Power Plants.
Author: M Siddhartha Bhat.
Editor: Mahadevan Iyer.
Year: 2013
Publisher: Mahadevan Iyer, A Chary Publication.
Source: Centre for Ecological Sciences
Reference: Electrical India Vol 53 (no.11) pp. 156-162, 2013
Subject: Electrical India.
Keywords: Coal, Thermal Power Plants.
Abstract: Coal popularly known as black diamond is a national resource which needs to be used efficiently for energy security. By 2016, the percentage of coal requirement for power generation is likely to go to 82% of the total coal production (520 million tonnes/year) and the import is likely to go to 38% (200 million tonnes/year). The increase in coal consumption is not only because of new capacity addition but also because of deterioration of coal quality (in terms of its heating value). Washing of coal for removal of extraneous mineral matter (also termed as extraneous ash) at the mine end and the power plant end is an important solution but the water requirements and net environmental effects of the wet washing process needs to be kept in sight. Presence of surface moisture and its liability and control needs to be kept in sight. Presence of surface moisture and its liability and control needs to be understood on a broader national perspective.
Location: TE 12 New Biology Building
Literature cited 1: None
Literature cited 2: None
ID: 59045
Title: Nuclear Power Energy, Fourth Largest Source of Electricity in India.
Author: P K Vasudeva.
Editor: Mahadevan Iyer.
Year: 2013
Publisher: Mahadevan Iyer, A Chary Publication.
Source: Centre for Ecological Sciences
Reference: Electrical India Vol 53 (no.11) pp. 144-150, 2013
Subject: Electrical India.
Keywords: Nuclear Power Energy, Thermal Hydro Nuclear.
Abstract: Indian Power Sector has seen significant acceleration capacity addition. The installed capacity reached 223 GW as on 31 March 2013, with a record capacity addition of about 20 GW during 11th plan (2007-2012), followed by more than 20 GW of capacity addition in 2012-13 alone.
Location: TE 12 New Biology Building
Literature cited 1: None
Literature cited 2: None
ID: 59044
Title: Pumped Storage Hydro Power Plant.
Author: Mayadhar Swain.
Editor: Mahadevan Iyer.
Year: 2013
Publisher: Mahadevan Iyer, A Chary Publication.
Source: Centre for Ecological Sciences
Reference: Electrical India Vol 53 (no.11) pp. 126-136, 2013
Subject: Electrical India.
Keywords: Pumped Storage, Hydro Power Plant, Elevation reservoir.
Abstract: Pumped storage hydro power plant is a type of hydroelectric generation plant that stores energy in the form of water, pumped from a lower elevation reservoir to a higher elevation reservoir. It pumps water from lower reservoir to upper reservoir during off-peak period and generates electrically during peak periods. This is currently one of the most effective means of storing large amount of electrical energy. It helps in power generation load levelling.
Location: TE 15 New Biology Building
Literature cited 1: None
Literature cited 2: None
ID: 59043
Title: Solar Energy Future in India.
Author: R P Deshpande.
Editor: Mahadevan Iyer.
Year: 2013
Publisher: Mahadevan Iyer, A Chary Publication.
Source: Centre for Ecological Sciences
Reference: Electrical India Vol 53 (no.11) pp. 108-120, 2013
Subject: Electrical India.
Keywords: Solar Energy, renewable energy.
Abstract: Globally, solar generation is the fastest growing source of energy, with an annual average growth of 35% over the past few years. Japan, Europe, China, U S. and India are the major growing investors in solar energy.
India has one of the worlds highest solar intensities with an annual solar energy yield of 1,700 to 1,900 kilowatt hours per kilowatt peak (kWh/KWp) of the installed capacity.
Location: TE 15 New Biology Building
Literature cited 1: None
Literature cited 2: None
ID: 59042
Title: Feeding growth: Renewable Energy to the rescue.
Author: Prakash Nayak.
Editor: Mahadevan Iyer.
Year: 2013
Publisher: Mahadevan Iyer, A Chary Publication.
Source: Centre for Ecological Sciences
Reference: Electrical India Vol 53 (no.11) pp. 96-106, 2013
Subject: Electrical India.
Keywords: renewable energy, sustainability.
Abstract: Energy plays a very important role in saving problems related to society, economy, and environment. In this context, there is no doubt that renewable energy sources are a key constituent in our efforts towards aa sustainable future. Clean energy technologies are vital to alleviating poverty, expanding rural development, and improving health facilities. They enhance sustainability and improve environmental quality and thus aid in overall development of a nation.
Location: TE 15 New Biology Building
Literature cited 1: None
Literature cited 2: None
ID: 59041
Title: Satisfying Energy Requirements of Sugar Industry and Distillery.
Author: N M Ghogare, R P Wagh, P R Kalvankar.
Editor: Mahadevan Iyer.
Year: 2013
Publisher: Mahadevan Iyer, A Chary Publication.
Source: Centre for Ecological Sciences
Reference: Electrical India Vol 53 (no.11) pp. 88-92, 2013
Subject: Electrical India.
Keywords: Requirements, Sugar Industry, Distillery.
Abstract: About 50% of the bagasse will be saved and by the use of that it is easily convertible to paper industry and cardboard industry, also it is possible to generate electrical power by the use of the same, this invention relates to a process for treatment of sugar factory and agriculture area surrounding it. In Maharashtra about hundred distilleries and sugar cane industry combinable operated round the year.
Location: TE 15 New Biology Building
Literature cited 1: None
Literature cited 2: None
ID: 59040
Title: Energy Conservation, Why elevated now to the Top of Pyramid?
Author: Ashok S.
Editor: Mahadevan Iyer.
Year: 2013
Publisher: Mahadevan Iyer, A Chary Publication.
Source: Centre for Ecological Sciences
Reference: Electrical India Vol 53 (no.11) pp. 54-60, 2013
Subject: Electrical India.
Keywords: Energy Conservation, Energy pyramid.
Abstract: The Energy pyramid has 3 segments top, middle and bottom. The bottom of pyramid is Energy Consevation. The Middle is Energy Efficiency and the top is Renewable Energy Alternatives. Now, the thrust given by the Government shows that the talk of the nation is Solar as renewable now and the talk of the State EB boards is CFL or LED is the only resource as energy efficiency.
Location: TE 15 New Biology Building
Literature cited 1: None
Literature cited 2: None
ID: 59039
Title: Emergence of Meter Data Management as a backbone for AMI.
Author: Jayant Sinha.
Editor: Mahadevan Iyer.
Year: 2013
Publisher: Mahadevan Iyer, A Chary Publication.
Source: Centre for Ecological Sciences
Reference: Electrical India Vol 53 (no.11) pp. 48-53, 2013
Subject: Electrical India.
Keywords: Meter Data Management, Aggregation, Validation, communication and processing.
Abstract: Accurate measurement, aggregation, validation, communication and processing of energy data is a must to identify, analyze and check sources of energy losses and revenue leakages. Metering and Meter Data Management plays a critical role in achieving these objectives. Setting up a reliable and automated system for collecting energy data and adoption of suitable technology for energy data processing and total energy accounting are some of the key challenges facing the utilities. This paper emphasizes the trends among utilities to establish an integrated Meter Data Management (MDM) system for bi-directional communication between various metering points and the centralized Meter Data Acquisition System (MDAS). This paper also discusses the role of emerging technologies and open standards bases architechture in creating Advanced metering infrastructure (AMI) for billing, energy audit and load studies.
Location: TE 15 New Biology Building
Literature cited 1: None
Literature cited 2: None
ID: 59038
Title: Electrical Insulation Design for high voltage inverter transformer.
Author: Kacey C Lee.
Editor: Mahadevan Iyer.
Year: 2013
Publisher: Mahadevan Iyer, A Chary Publication.
Source: Centre for Ecological Sciences
Reference: Electrical India Vol 53 (no.11) pp. 32-40, 2013
Subject: Electrical India.
Keywords: Insulation Design, High Voltage Inverter Driving System.
Abstract: Recently, the adoption of high voltage inverter driving system has been more expanded to control high voltage motors for energy saving in many industries; cement, oil and gas, mining, power generation, steel. This system consists of high voltage transformer (input transformer), high voltage inverter (IGBT) and high voltage motor in a voltage range of 3 kV and 10 kV. This system is subject to frequent line voltage surges, switching surges, over voltages, harmonics and other abnormal conditions that may causes a system, especially input transformers to have premature failure.
Location: TE 15 New Biology Building
Literature cited 1: None
Literature cited 2: None
ID: 59037
Title: High volume at low prices is not what we do. "We ' re changing from a corporation to a medium-sized company"
Author: Jurgen Zeschky.
Editor: Sylvia Pilarsky Grosch.
Year: 2013
Publisher: new energy press.
Source: Centre for Ecological Sciences
Reference: New Energy (no.2), pp. 50-51 (2013)
Subject: New Energy.
Keywords: Renewable Energy Resources, growth markets.
Abstract: Nordex is currently enjoying a change of fortune. CEO Jurgen Zeschky explains how this turnaround came about, which growth markets the firm is focusing on, and what form Germany ' s new Renewable energies Sources Act could take.
Location: TE 15 New Biology Building
Literature cited 1: None
Literature cited 2: None
ID: 59036
Title: Business Ideas for a Green Future.
Author: Anne-Katrin Wehrmann.
Editor: P K Bhattacharya.
Year: 2013
Publisher: new energy press.
Source: Centre for Ecological Sciences
Reference: New Energy (no.2), pp. 46-49 (2013)
Subject: New Energy.
Keywords: Green Future. Green economy.
Abstract: While there are fewer company-start ups in Germany overall, The green economy is bucking the trend. Many of the newly developed products and services are based on the idea that everyone can play a part in the switch to renewables.
Location: TE 15 New Biology Building
Literature cited 1: None
Literature cited 2: None
ID: 59035
Title: Energy-efficient Technology of Air Distribution in Air Conditioning.
Author: V N Bartaria.
Editor: P K Bhattacharya.
Year: 2013
Publisher: TERI Press, The Energy and Resources Institute.
Source: Centre for Ecological Sciences
Reference: TIDEE (TERI Information Digest on Energy and Environment) Vol 12(no.2), pp. 183-188 (2013)
Subject: TIDEE (TERI Information Digest on Energy and Environment)
Keywords: Overhead air-conditioning system, Non-uniform thermal environment, Thermal comfort.
Abstract: Thermal comfort and energy savings are the important aspects of air distribution in a conditioned space. In conventional methods of air distribution, the supply air is used to provide a uniformly mixed thermal environment in the room. The conditioned air is supplied from the ceiling through ducts and the air is returned back from the ceiling itself. An alternative to this arrangement is the supply of air from floor-based diffusers and the returning air is extracted through the ceiling. In this arrangement the air is required to be supplied at the same or slightly less temperature than the temperature required for the comfort within the occupied space. The supply air mixes with the room air and produces a non-uniform thermal environment in the room. A two-layered stratification is thus produced and energy can be saved by conditioning of the occupied space only. The objective of this paper is to present the concept of this air induction technology. The turbulent plume and fountain theory is used for the conceptual model. By this method, energy can be saved in addition to increased human comfort.
Location: TE 12 New Biology Building
Literature cited 1: None
Literature cited 2: None
ID: 59034
Title: Meeting the Challenges of Sustainable Development of Energy Through Clean Coal Technologies.
Author: Mrinal K Ghose.
Editor: P K Bhattacharya.
Year: 2013
Publisher: TERI Press, The Energy and Resources Institute.
Source: Centre for Ecological Sciences
Reference: TIDEE (TERI Information Digest on Energy and Environment) Vol 12(no.2), pp. 169-182 (2013)
Subject: TIDEE (TERI Information Digest on Energy and Environment)
Keywords: Primary Energy, Oil Equivalent, Fossil Fuels, Greenhouse, Zero Emission, Sustainable
Abstract: The global energy requirement has grown at a phenomenal rate. The demand for coal will continue to remain as it is looked upon as the prime energy source for the coming future. Economic development and poverty alleviation depend on securing affordable energy sources and coal mining industry offers a bright future for the energy security in the Asia Pacific region. However, direct use of coal leads to environmental pollution. The emission of carbon dioxide (CO2), a principal greenhouse gas (GHG), is strongly related to the use of fossil fuel, especially coal, for energy production. A long term projection for the Indian energy sector upto the year 2031-32 showed that CO2 emissions from India are likely to increase much faster and reach 3.5 times the present value. A rise in the global temperature varying from 2? C to 3.5 ?C and a sea-level rise of 65 cm is also estimated by the year 2100. As coal will remain to be the prime energy source, this paper emphasizes on the need to develop clean coal technologies where coal can be refined in coal refineries to obtain different fractionated products having different quality-grade-class (QGC) of fuels. It also highlights the need to develop further clean coal technologies, such as integrated gasification combined cycle (IGCC), through hydrogen generation for zero emission. The use of ultra clean coal in gas turbines directly will enhance the efficiency of power generation of 33-38 per cent. This paper discusses the role of Mining Engineers for the promotion of clean coal technologies (CCT) in fulfilling energy demand in a sustainable manner. Brute force high pressure coal conversion processes will have to be replaced by the convenient and cost effective low atmospheric pressure processes. During the production of coal gas methane if CO2 is injected suitably in coal seems it can release methane, which has double benefit in curbing global warming. Underground coal gasification (UCG) has a large potential to extend the lifetime of this resource, perhaps by a couple hundred years. UCG can also provide a clean energy source through carbon capture and storage techniques and it offers a unique option for CO2 storage. The methodology, as discussed, may have formed a guideline to develop clean coal technologies, which can be applied at an industrial scale for various sites.
Location: TE 12 New Biology Building
Literature cited 1: None
Literature cited 2: None
ID: 59033
Title: Impact of different land use systems on soil quality in northwest Himalayan region.
Author: D Mandal, B L Dhyani, Ambrish Kumar, Charan Singh, Bankey Bihari, M Muruganandam, M Madhu.
Editor: O P Chaturvedi.
Year: 2013
Publisher: Indian Association of Soil and Water Conservation.
Source: Centre for Ecological Sciences
Reference: Indian Journal of Soil Conservation Vol 41(no.2), pp. 200-205 (2013)
Subject: Indian Journal of Soil Conservation
Keywords: Land use, Relative soil quality index (RSQI), Soil quality, Soil properties, Sustainable soil management.
Abstract: The important soil quality indicators were investigated under different land use systems namely, sal forest, agroforestry, rainfed cropland and irrigated cropland to provide base line data for future research in lower north western Himalayan region. The soil properties such as soil depth, texture, organic carbon, total N, available P, available K, CEC and soil pH were investigated for each land use system to assess relative soil quality index (RSQI).
The study revealed that there were significant differences in soil quality parameters under different land use systems. The study further revealed that soil quality index (SQI) values varied from 33.7 in sal forest to 257 in rainfed cropland in Dungakhet village indicating the superiority of forest land use system in terms of maintaining greater SQI than other land-use systems. Similar trend was also observed in the other site of the study area. Analysis of data on RSQI revealed that the soil quality index for rainfed cropland was 23.74% lower in Dungakhet and 19.88% lower in Pasauli than the reference sal forest. In general, intensive tillage practices have degraded most of the important soil quality indicators. Therefore, reducing the intensive tillage practices and use of integrated inorganic and organic fertilizers could replenish the degraded soil quality for sustainable agricultural production in the study area.
Location: TE 12 New Biology Building
Literature cited 1: None
Literature cited 2: None