New M.Tech. Thesis Submitted from Civil

Durability Properties of Self Compacting Concrete with Recycled Aggregate and Silica Fume by Mohd Ishfaq 

Abstract

Concrete is widely used construction materials. As we know, it is a mixture of coarse aggre-gates, fine aggregates, binded together by cement with addition of water. Concrete which is highly flow able and can fill the form work under its own weight, consolidates without any mechanical vibration is known as selfcompacting concrete, thus cause self-compaction. Such concrete accelerate the time of placement, reduce the labour work needed for consolidation, finishing and reduces environmental pollution. The so called first generation SCC is used mainly for repair applications and in restricted areas where it is not possible to reach easily, comprising sections that present limited access to vibrate. It has been used in applications justifying the higher material and quality control cost when considering the simplified placement and handling requirements of the concrete. Silica fume is one of the best improvements of the rheological as well as the mechanical and good chemical properties. It also improves the dura-bility of the concrete. In this present study, tests on replacement of coarse aggregates with recycled aggregates and replacement of silica fumes with cement had been done. Tests were conducted for fresh prop-erties of self compacting concrete, i.e. filling ability, passing ability, segregation resistance, so as for obtaining fresh properties according to SCC EFNARC 2002 concrete mix. The different durability properties such as chloride penetration depth, abrasion resistance, were determined on various concrete mixes. Their compressive strength was also found. Replacement by silica fume decreases chloride penetration depth, depth of wear. Concrete mix having 50% recycled aggregate and 10% silica fume replacement had comparable durability in term of the chloride depth, abrasion resistance.

New M.Tech. Thesis Submitted from Civil

INFLUENCE OF NANO-SILICA AND GROUND GRANULATED BLAST FURNACE SLAG ON CEMENT USING STATISTICAL DESIGN OF EXPERIMENT by Arvinder Singh 

Abstract

Cement and concrete have been subjected to modification in earlier research works for the enhancement in its properties. However investigating the properties of concrete at nano-level is a comparatively new concept and nanotechnology can be applied to Civil Engineering by various concepts including addition of nanomaterials like Nano-Silica. On the other hand, use of waste materials as a replacement of cement is the need of the hour and the waste materials like furnace slag does possess cementetious character. This study was performed to study the effect of addition of Nano-Silica (Nano-SiO2) (0 - 3% by weight of cement) and waste material Ground Granulated Blast Furnace Slag (GGBS) (25 – 65% by weight of cement) on the physical properties of cement like Standard Consistency, Setting times, Compressive Strength at the ages of 7, 28 days. For structuring and analyzing the experiment, the Factorial design approach was adopted. From the study it was observed that addition of even small amount of Nano-Silica can drastically change the characteristics of cement like increase in the early age strength by 15% for 3% Nano-Silica replacement due to the acceleration of hydration of cement, but it also caused the increase in consistency limit from 28% to 31%. The setting times were also drastically reduced with addition of Nano-Silica. GGBS addition however resulted in slowed the hydration reaction, decrease in strength gain and water requirement due to its low hydraulic reactivity. However, by adding GGBS alongwith Nano-Silica it restricted the drastic drop in setting times of cement and also resulted in increased compressive strength by 11% at 2% Nano-Silica and 45% GGBS replacement due to the consumption of Ca(OH)2 and formation of additional C-S-H by both Nano-Silica and GGBS. Beyond the range 2% Nano-Silica and 45% GGBS the strength reduction was noticed probably due the decrease in the available free lime concentration at high concentrations of Nano-Silica and GGBS. The analysis of above experiment was carried out using factorial design of experiment, ANOVA was adopted for analysis of the 28-day Compressive strength which gave the result that Nano-Silica had more profound effect on strength of cement. Regression analysis was adopted to derive a relationship between the compressive strength of cement and different proportions of Nano-Silica and GGBS.

New M.Tech. Thesis Submitted from Civil

THE EFFECTS OF REPLACEMENT OF CEMENT AND SAND IN CONCRETE BY MARBLE POWDER by Himanshu Sharma

Abstract

Marble powder (MP) is a fine powder, formed as a waste product of marble sawing and shaping and can not be recycled due to problems that effects the environment. There is a possibility of using marble powder as partial replacement of cement and sand in concrete mix. In this study, the possibility of using marble powder in cement and concrete production was examined by studying the effects of blending the marble powder with cement and sand and checking the physical properties of fresh and hardened concrete. In studying the performance of concrete, a total of eighteen concrete mixes were prepared with replacement of cement and sand with marble powder ranging from 5% to 20% at an increment of 5% by weight. For each replacement value, two classes of concrete, M-35 and M-40, mixes were prepared for both cement and sand replacement cases. The investigation indicates that replacement of cement by marble waste powder for 5% value, in concrete production, results increase in comparable compressive strength as of concrete specimens without marble powder with slight slump reduction for both M-35 and M-40 classes. Increment of replacement beyond 15%, in concrete production, results in reduction of compressive strength and slump. Replacement of sand by marble powder from 5-20% , in concrete production, results in similar and mostly enhanced performance than the control concrete specimens; with slightl increase in compressive strength and slight slump improvement in both mixes. The Split tensile strength of Cylinders are increasing with addition of marble powder up to 15% when replaced by weight of cement and after that addition of waste marble powder it decreases the Split tensile strength .

New M.Tech. Thesis Submitted from Computer Science

DEVELOPMENT OF MOBILE APPLICATION FOR ROUTE NAVIGATION by Vandana Toor 

Abstract

Rоuting is оnе оf оur basiс aсtivity that wе pеrfоrm in оur еvеryday lifе, whеthеr it’s abоut tо rеaсh thе оffiсе whеrе wе wоrk frоm hоmе, tо gо fоr sоmе party in еvеning frоm hоmе. Hеrе basiсally is fосusеd rоuting frоm sоurсе tо dеstinatiоn. Sоurсе pоint is thе pоint frоm whеrе wе start and dеstinatiоn pоint is whеrе wе stоp. This thеsis wоrk is abоut dеvеlоping a mоbilе appliсatiоn fоr rоutе traсking using оpеn sоurсе data. Thе widеsprеad usе оf оpеn sоurсе prоjесt is duе tо thе faсt that it is еxpandablе, еditablе and usеablе frееly, withоut any сhargеs impоsеd. It is tоtally frее оf сhargеs. A numbеr оf оpеn sоurсе maps arе usеd hеrе and diffеrеnt typеs оf vеhiсlеs fоr thе usеrs tо traсk rоutе arе madе whiсh is gеnеratеd fоr thе sеlесtеd pоints. Fеw mоrе additiоnal fеaturеs arе prоvidеd fоr thе usеr likе tоtal timе and distanсе fоr thе rоutе it traсks, instruсtiоns tо rеaсh thе еnd pоint, еtс. This appliсatiоn has twо divisiоns, оnе is tеxtual and thе оthеr is graphiсal whеrе maps arе shоwn. Usеr сan prоvidе input by writing dоwn thе rеquirеd pоints in thе tеxt fiеlds оr it сan usе maps fоr prоviding input, i.е. by сliсking оn thе map frоm whеrе thе usеr dеsirеs tо find thе rоutе. Turn by turn API оf mapzеn is usеd tо makе this appliсatiоn wоrk. Сliеnt-sеrvеr arсhitесturе is usеd tо dеvеlоp this appliсatiоn. Оn thе сliеnt sidе wе havе usеd JS. Apaсhе Соrdоva appliсatiоn dеvеlоpmеnt framеwоrk is usеd tо dеvеlоp this wоrk intо mоbilе appliсatiоn. This framеwоrk is vеry еasy tо usе, оnly fеw instruсtiоns arе rеquirеd tо bе еxесutеd and yоu arе dоnе with dеvеlоping yоur wоrk intо mоbilе appliсatiоn. An andrоid-basеd mоbilе appliсatiоn is bеing dеvеlоpеd but this framеwоrk сan dеvеlоp mоbilе appliсatiоns fоr оthеr оpеrating systеms tоо. This appliсatiоn is еasy tо usе and its оutput is undеrstandablе fоr еvеryоnе. This is an оnlinе mоbilе appliсatiоn.

New M.Tech. Thesis Submitted from civil

WASTEWATER TREATMENT WITH VERTICAL SUBSURFACE FLOW CONSTRUCTED  WETLAND by Sukhwinderpal Singh 

Abstract

Water is a vital natural resource and covers about one-third of surface of the earth. This is essential for multiple purposes. Its uses include drinking and other domestic uses, industrial cooling, power generation, agriculture (irrigation), transportation and waste disposal. After such anthropogenic activities, haphazard disposal of wastewater is deteriorating water bodies and the surrounding environment in the progressing world. In the modern times, there are several systems to treat municipal wastewater and one of them is Constructed wetland system. Constructed wetland system imparts natural and economical treatment to the wastewater and has been proven sustainable and effective alternative to the conventional treatment systems. In this study, performance of fabricated model of Vertical Subsurface Flow Constructed Wetland (VSFCW) on which effluent characteristics of Kitchen wastewater and Domestic wastewater like BOD, COD, TSS, Nitrates, Ammoniacal Nitrogen and TKN were studied at two different detention periods i.e. 24 hours and 3 days. The vegetation cover provided to the wetland system was Phragmites australis. Experiment was carried out from month of March to June in the temperature ranging between 30˚C-46˚C. 30% and 61.4% loss of influent through evapotranspiration was observed at 24 hours and 3 days HRT respectively and hence it is an efficient system to minimize highly polluted wastewaters. Kitchen wastewater, when treated at 24 hours HRT shows average percentage removal of 91.71% in BOD, 82.13% in COD, 93.63% in TSS, 57.48% in Nitrates, 57.30% in Ammoniacal nitrogen and 67.73% in TKN and when treated at 3 days HRT shows average percentage removal of 94.14% in BOD, 87.09% in COD, 97.26% in TSS, 86.81% in Nitrates, 83.60% in Ammoniacal nitrogen and 82.54% in TKN. Domestic wastewater, when treated at 24 hours HRT shows average percentage removal of 86.90% in BOD, 54.75% in COD, 84.66% in TSS, 65.35% in Nitrates, 65.81% in Ammoniacal nitrogen and 70.22% in TKN and when treated at 3 days HRT shows average percentage removal of 89.66% in BOD, 72.97% in COD, 93.82% in TSS, 88.95% in Nitrates, 82.59% in Ammoniacal nitrogen and 79.94% in TKN. Kitchen wastewater showed better results than Domestic wastewater. It was found that higher the organic strength of the wastewater better is the removal efficiency of the VSFCW.

New M.Tech. Thesis Submitted from civil

PARAMETRIC STUDY OF HOWE ROOF TRUSS by Brahamjeet Singh 

Abstract

In design of steel trusses different types of geometries (Howe truss, Pratt truss, Fink truss are etc.) and sections (Angle section, Tube section, rectangular hollow section etc.) are widely used. The purpose of this job is to study the effect of different spacing, span, and pitches, in order to find out the most economical truss by comparing the use of hollow sections and angle sections. The need of this study arises where sometimes it is difficult or taking too much time to choose an effective and economical truss span spacing and pitch during design and construction period. The design was done with the help of Staad pro- V8i software using Limit State Design Method. In present work, “HOWE ROOF TRUSS” of span varying as 10m, 20m, 30m, and 40m has been analyzed for different spacing such as 3m, 4m, 6m and 8m also at the different pitches 1/4, 1/5, 1/6, 1,7 to get the desired economical truss design. In investigating the effectiveness of various truss geometries, a total of 64 truss combinations were analyzed and designed by providing the hollow square sections and angle sections. The analysis of all sets of trusses enables comparisons to be made among the various spans, spacing and pitches. The loads (dead load, live load and wind load) at each panel and node are calculated manually as per Indian Standard Codes IS 800:2007, and IS 875(Part 3)-1987 and then the loads are entered into STAAD PRO-v8i software for analysis and designing of members. Loads are applied on the nodes (member joints considered as pinned joints) of truss the STAAD PRO-v8i output method is used for determining the member forces. After that the load combinations and design were applied according to the design method (Limit State Design Method). In designing of Howe roof truss both the angle sections and square hollow sections were provided to compare the weight of truss. In this Study the truss with a least value of weight is considered as most economical truss. At the end it was concluded that with the increase in spacing of truss the self-weight of truss was also enhanced. In most of the cases the pitch 1/5 and 1/ 6 was concluded as the most economical. Most of the times the trusses provided with angle sections were assumed to be more economical. On the other hand for 30m span with pitch 1/6 the hollow sections gave the economical design of truss. Also in case of 40m span and 1/7 pitch the hollow sections are seems to be more cost effective.

New M.Tech. Thesis Submitted from Electronics

TRAFFIC SPLITTING IN HYBRID VIRTUAL-MIMO SYSTEMS by Pawanjot Kaur

Abstract

Wireless sensor networks (WSNs) have become an inextricable part of contemporary era. At the same time, MIMO technology has also been regarded as beneficial due to various advantages offered by it. Ergo, with the collaboration of these two concepts, virtual-MIMO came into existence. This collaboration overcame the major problem of WSNs, energy limitation. V-MIMO has been proved highly effective to increase the network lifetime along with the given constraints of BER, transmission energy and received energy. After several years of its efficient use, hybrid virtual- MIMO system has been developed which utilizes V-MISO and V-SIMO along with V-MIMO, according to the requirement. HV-MIMO provides flexibility to the user as compared to V-MIMO where user is bounded to use only MIMO topology in every hop which sometimes increases the complexity of system. Also, in less dense networks, it is difficult for source node to determine multiple neighbouring nodes. However, HV-MIMO is efficient in all kind of networks because in this system V-MISO and V-SIMO topologies can also be used. This thesis deals with the improvement in HV-MIMO system with the help of traffic splitting which helps to lower the complexity of the system. Delay and throughput are two main parameters which get affected by splitting of traffic. A significant reduction of 50.4% in delay is achieved as compared to V-MIMO system. Similarly, throughput is increased by 15.4 % as compared to conventional V-MIMO systems. Thus, the proposed work would be highly useful for real time applications which need quick transmission and

retrieval of data such as health monitoring and camera surveillance systems.

New M.Tech. Thesis Submitted from Electrical

DESIGN AND FEASIBILITY OF MICRO HYBRID BIOMASS PLANT USING MAGNETO HYDRODYNAMIC GENERATOR AND THERMOELECTRIC GENERATOR by Mandeep Kaur 

Abstract

Due to modernization, the power demand is increasing day by day resulting in a wide gap between supply and power demands. Efforts may be oriented towards the search of new sources of energy and has led to the growth of other non conventional methods using renewable sources. As a result, rush to

biomass systems have been promoted around the globe at a very large scale as biomass is used as a raw material either in primary or secondary processing units. Nevertheless, plants using biomass as raw material are promoting problems like carbon dioxide emissions and methane gas emission which are threat to earth’s ozone layer. High ash content and heat release to environment are the harmful effects of biomass plant. In order to get optimal generation conditions, cogeneration of biomass plant is done so as to provide clean energy to environment. For this reason, biomass cogeneration is done using MHD generator, thermoelectric generator so as to increase the reliability and efficiency of the system. Normally the efficiency of boiler is 25-35% but by using the cogeneration, efficiency has increased to 65-85% because flue gases obtained from burning of raw material are cycled again to boiler after passing through MHD and TEG generator. As a result the boiler will need less energy to increase its internal temperature thereby increasing the efficiency of boiler. The flue gases obtained after burning the fuel in boiler is fed to TEG, from where they move to MHD generator. The seeding material is added as the flue gases enter the MHD generator so as to increase the electrical conductivity of the gas. Now, again the flue gases are fed to boiler and consequently the cycle is completed. The output from TEG is utilized by the cogeneration plant itself, so as to fulfill power requirements of the plant such as in cooling systems; fans etc. leading to less power consumption. The other two outputs i.e. from turbine and MHD generator are fed to the grid so as to meet the power demands.

New M.Tech. Thesis Submitted from Electrical

CONDITION MONITORING OF POWER TRANSFORMERS: A CASE STUDY OF VARIOUS SUBSTATIONS IN THE STATE OF PUNJAB by Inderpreet Kaur

Abstract

Power transformers have limited life. They are essential components of substations. Transformers do not have any moving parts except cooling fans or tap changers. Whatever outages are there, they are not because of wear out. Reason behind them is deterioration of insulation caused due to electrical, thermal, mechanical stresses .These stresses and presence of oxygen, moisture deteriorates insulation over a period of time .If these failures can be minimised, huge revenues can be saved. For that purpose, various factors responsible for ageing have been studied. Ageing is a chemical reaction due to thermal, electrical and mechanical stresses. These chemical reactions lead to products which help in determining the health of transformer. For example cellulose deterioration reduces degree of polymerization which is related to thermal ageing. There are certain other products like carbon dioxide, water, 2furfuraldehyde, 2acetylfuran, furfurylalcohol, 5hydroxymethyl2furfuraldehyde. Hence, extent of insulation damage can be predicted from these products. These degradation products affect physical properties of oil and paper. Over the years a number of techniques have been developed to find the remnant life of transformer. Laboratories have been using DGA and furan to find out condition and age of transformer. In the present study, all physical properties which are likely to be affected by degradation like breakdown voltage, tensile strength, viscosity, tensile strength, flash point, pour point, tan delta, degree of polymerization have been studied of the transformer oil samples of different substations in Punjab. Different gases like CO2, CO, Ethane, Ethylene, etc are formed and furan derivatives dissolved in oil. Their analysis by comparing them with past data has been very informative for calculating the age. DGA has been carried out on aged samples to find the incipient faults.DGA has turned out as life saving techniques for condition monitoring of transformers. Furan analysis has been very useful in projecting the age of transformer. Cellulosic paper degrades and form furan compounds. Cellulose consists of long chain of molecules. Due to paper degradation, they become susceptible to damages. Scientists have given different formulas for finding out age. In this work, CHENDONG’S formula have been used as it has been find out to be most accurate.

New M.Tech. Thesis Submitted from civil

C.B.R. IMPROVEMENT OF CLAYEY SOIL MIXED WITH LIME AND BAGASSE ASH by Sonam Kaur 

Abstract

Clayey soil consists Illite mineral, which expands or shrinks when it comes in contact with moisture. Many cracks appear on the structure, which is founded on this type of soil. The clayey soil possesses low strength and excessive volume change. Civil Engineers face lot of problems in the field during and after construction of structure on clayey soil. Therefore, such soils needs to be stabilized before any construction on this type of soil. Various admixtures like lime fly ash, bagasse ash and cement commonly are being used for stabilization of clayey soil. In this work, strength of soil is improved by adding bagasse ash and lime. Effect of different mix proportions of lime and bagasse ash on compaction characteristics and strength properties as CBR of soil is observed in this study. The soil was stabilised with 3%, 5%, 7%, 9% of lime and 10%, 15%, 20%, 25% of bagasse ash. All stabilised sample was soaked for four days and then cured for 3 days. It observed that MDD decreased by 11% with increase of 7% lime and 20% BA. However, OMC increased from 16% to 19% and CBR increased from 2.5% to 14% with a combination of 7% lime and 20% BA. The CBR start decreasing with further increase of lime and bagasse. It is concluded that a optimum combination lime and bagasse ash can improve the strength (CBR) of clayey soil with medium plasticity. In the present study the flexible pavement was designed as per IRC 37: 2012, and observed that about 17% of total thickness of flexible pavement may be reduced if the clayey soil is stabilized with lime and bagasse ash. More over waste material like bagasse ash may be utilised in pavement effectively without detoriation of environment.

New M.Tech. Thesis Submitted from Env. civil

COMPARATIVE ANALYSIS OF HEAVY METALS IN VEGETABLES OF LUDHIANA, PUNJAB by Usha Kumari 

Abstract

Vegetables (Spinach, Cauliflower and Fenugreek) from the production and market sites of Ludhiana, India were analyzed for heavy metals (Cadmium, Chromium, Copper, Nickel, Lead & Zinc) concentrations by using Atomic Absorption Spectrophotometer (AAS). Samples of Irrigation water and soil were also analyzed. Results from the study shown significant variation in concentration of metals among three different analyzed vegetables. Concentrations of heavy metals in vegetables, irrigation water and soil from site-1 showed higher levels of pollution than site-2. Heavy metals contamination in vegetables of production site-1 exceeded vegetables of production site-2 by 36%. Order of metals concentration in vegetables from production site-1 as- Pb > Zn > Ni > Cr > Cd > Cu & from production site-2 as- Zn > Pb > Ni > Cr > Cu > Cd. Concentrations of Cd, Cr and Pb in vegetables of production sites were several times greater than the joint WHO/FAO standard limits. Range for concentration of noxious metals- Cd, Cr and Pb in vegetable samples of production site-1 as Cd (0.05-13.15mg/kg), Cr (0.5-13.95mg/kg) and Pb (25.50-48.50mg/kg) and for production site-2 Cd (0-4.90mg/kg), Cr (0-27.70mg/kg) and Pb (6.20-46.35mg/kg). The average concentration of other metals Cu, Zn and Ni for both sites was within in limit except Zn mean concentration (64.40 mg/kg) in spinach for site-2 had exceeded limits. Study reveals that the pollution of ground water which is used for irrigation at both sites ascribed from the polluted nala (located alongside of both sampling fields), atmospheric deposition & agricultural activities. Study moreover shown that; there was a significant variation in heavy metals concentration of market sites vegetables to that of production sites. Study revealed that vegetables marketing methods plays a substantial role in elevated level for heavy metal pollution which can posture a danger to vegetables quality with impacts for consumer’s health from locally cultivated crops. Results determine that all vegetables of both production sites have different-2 percentage increase for heavy metals accumulation at market site which might be because of atmospheric deposition. The percentage increase in amount of metals in vegetables of market sites changed with vegetable types and climatic condition. Variations in concentrations of metals in vegetables studied for market sites might be because of dissimilar absorption rate of vegetable species for contaminants settled down from air. Daily heavy metals ingestion through vegetables intake shows higher contribution to diet. The contributions of market site-1 and market site-2 vegetables to dietary ingestion of Cadmium, Chromium, Copper, Nickel, Lead and Zinc for market site-1 was 19 %, 58 %, 0.12 %, 7%, 43% and 0.23% respectively and for market site-2 was 10 %, 59 %, 0.06%, 2%, 25% and 0.16% respectively to Provisional Tolerable Daily Intake (PTDI). Both production sites vegetables have high content of poisonous metals. Thus intake of studied vegetables along with higher contents of toxic heavy metals might be the source of high quantity of metal accumulation to body resulting health hazard. Therefore study suggested that regular monitoring of vegetables cultivated in studied locations is compulsory in turns to decrease human health

risk.

New M.Tech. Thesis Submitted from Env. civil

Biodiesel Production Using Waste Cooking Oil: A Waste to Energy Conversion (W.T.E.) Strategy by Sonal Tripathi

Abstract

Energy is the most crucial element that is required for the life to exist on the planet earth. The contribution of the energy for the mankind to flourish is indispensable. With the widespread advent of urbanization and globalization the world’s population has risen at a very distressing rate. Such change has led to the obvious ramification which is the tremendous increase in energy demand to carry out various life processes. A gigantic part of this ever increasing demand is served by the energy derived from the fossil reserves. This source contributes a gargantuan sum to cater the energy needs of the mankind. However, these reserves are depleting at a very rapid pace since the exploitation of such resources have escalated drastically. It is thus estimated that a stage would arrive in the near future that will result in the rapid downfall of the availability of these reserves due to the complete exhaustion. The outbreak of the energy thirst has emphasized upon the need for an alternative option for the energy source that is technologically feasible and environmentally viable. The use of indigenous components such as biomass has paved the way for the development of biofuels. According to India’s Biofuel policy, biodiesel can be used in order to augment the fuels utilized basically for transportation. This can envisage the energy security of India by inculcating the usage of biodiesel as a fuel source. Biodiesel production can provide certain opportunities such as employment to the rural population, declination in the import and export costs and a reasonable option during energy crisis. Vegetable oils are commonly used to produce biodiesel. Utilizing such sources can have a devastating effect on the food v/s fuel security. As a mitigation measure to such impediment we can utilize the waste to produce biodiesel which is considered as the Waste-To-Energy Conversion Strategy. The waste can be the oil that is disposed after being utilized for cooking purpose that is dumped and therefore created nuisance to the environment. As a whole, utilizing used cooking oil as a raw material for producing biodiesel can be considered as a justifiable option for the curtailment of the problems arising due to the improper waste management of such oils.

New M.Tech. Thesis Submitted from civil

LOAD CARRYING CAPACITY OF PILED –RAFT SYSTEM USING NUMERICAL APPROACH by Himani Chawla 

Abstract

The foundation system is an important component from the civil engineering point of view in general and it is the duty of geotechnical expert to take care of the safety and stability of foundation of civil engineering projects. The pile raft foundation system is a composite foundation which contributes the involvement of piles, raft, and soil to transfer heavy loads of the superstructure to the ground. The utilization of piled-raft system is an efficient way of reducing both total and differential settlements, enhancing the bearing capacity of a foundation. The analytical work includes the numerical analysis of pile raft foundation under the effect of variable ground water table by generating a numerical model in FEM based PLAXIS 3D software. As piled-raft foundation system is the main concern of its effectiveness because it is the most refered foundation system especialy for the high rise buidings . The relevence of the system comes when one system works efficiently under the adverse subsoil condition at the cheaper cost than the other foundation system. Adverse subsoil conditions comes when the foundation system was encountered with ground water table.The bearing capacity of the saturated soil reduces to about 50% of its orignal bearing capacity in its dry state.The large reduction in the bearing capacity is the serious concern for the geotechnical engineers. So here comes the need to analyse the effect of ground water table on the foundation system.In this study an effort has been made to analyze the experimental results of piled raft using PLAXIS 3D software.With the experimental investigation it is very difficult to study the effect of ground water table variation on the load carrying capacity of the piled raft but using the FEM based PLAXIS 3D this problem can be addressed easily. The study highlights that there is significant reduction in the ultimate load (decreases from 7731.29kN to 5659.68kN when there is rise in ground water table from great depth to ground surface

New M.Tech. Thesis Submitted from civil

STRENGTH IMPROVEMENT OF CLAYEY SOIL BY USING LIME AND WASTE PAPER SLUDGE ASH by Avtarpreet Singh

Abstract

In this report an experimental study has been done on the clay soil stabilized using lime and waste paper sludge ash. Waste paper sludge ash is finally waste product resulting from the combustion of waste paper sludge in paper recycling industries. WPSA classified as class-c fly ash because it containing more than 20% lime (Cao) and having cementitous properties and pozzolanic properties that resulting in the self-cementing characteristics. In this class-c fly ash (WPSA) is self-cementing activators such as, lime and cement. First objective of study is to determine the optimum oncentration

percentage of lime as additives based on the compressive strength. Second objective is to determine the strength development of clay soil stabilized at the optimum percentage of lime at 0 days, 7 of curing periods. Third objective is to determine optimum concentration percentage of WPSA in the lime, soil and WPSA mix sample at the percentage of 0 days, 7 days. This study involved the testing of unconfined compressive strength test to determine the optimum percentage of lime and strength development clay soil stabilized at the optimum percentage of lime. The second test is tri-axial test to

determine the shear strength value for clay- lime and WPSA stabilized with optimum percentage of WPSA. Result shows that the optimum concentration of lime to stabilize the clay soil is about 8% at the maximum compressive strength of 601.43kN/m2. Addition of 6% WPSA has increased the value of shear strength compared to the control from 0 days to 7 days of curing periods respectively. This studyshows that the clay soil can stabilized using lime and WPSA effective to enhance clay soil strength for long period of time.

New M.Tech. Thesis Submitted from civil

STRENGTH IMPROVEMENT OF CLAYEY SOIL BY USING FLY ASH AND MARBLE DUST by Amandeep Verma

Abstract

Strength improvement of soil means that to improve the properties of soil by different methods. Some

waste materials are used to improve the soil such materials are fly ash, marble dust. Fly ash is the ash

produced by burning of pulverized coal in thermal power plans. Marble industries are producing larger amount of marble dust. The rapid growth of marble dust creates a big problem on environment as acts as a pollutant and affect the ecological system. Hence both material are cheap by cost. The object to carry out this study was to evaluate the effect of materials i.e marble dust and fly ash when mixed with clay soil. The physical and chemical properties of soil was improved by addition of such those materials. Whereas some expecting properties are index properties, compaction characteristics and strength properties. The marble dust is added in range of 5–20 % in corporation with fly ash 10-30%. Laboratory studies were performed to identification the Atterberg limits, proctor density, Unconfined compression strength, triaxial test. It was found that addition of 20% fly ash in soil shows maximum strength value increases 114.42% Unconfined compression strength(UCS). Further addition of fly ash has negative effects on these properties. Triaxial test is performed to calculate shear strength parameters of mixed soil i.e soil, fly ash and marble dust. It was found that cohesion character (‘c’) goes on decreasing and angle of internal friction (φ) goes on increasing by addition of marble dust in soil and optimized fly ash. Test results shows marble dust and fly ash improves strength characteristics of soil along with those use of materials is economical and also solves the problem of environment

New M.Tech. Thesis Submitted from civil

PRETREATMENT OF TEXTILE INDUSTRY WASTEWATER USING NATURAL  OAGULANTS by Mandeep Kaur 

Abstract

The textile industry consumes large quantities of water and produces large volumes of wastewater with high color, turbidity, BOD, COD, suspended solids, sulfide, chlorides and heavy metals. Untreated effluents when discharged directly into the open lands or into water bodies can cause irreversible harm to the environment. Coagulation is the most important physical and chemical treatment used in industrial wastewater treatment to diminish the various wastewater parameters. Now a day, more interest has been given on the pretreatment of wastewater coming from industries with natural coagulants because natural coagulants are relatively cost-effective as compared to chemical coagulants. As moringa oleifera and cactus are easily available, they are used as natural coagulant in this research to reduce color, turbidity, nitrates, chlorides, fluorides in dyeing wastewater. Sharman spinning mills is a textile industry which was selected for work and is situated in Ludhiana. The wastewater generated during dyeing process was collected from textile industry. The coagulation of wastewater was done with jar test apparatus was carried out using natural coagulants. Optimum dosage and optimum pH were determined after intensive lab scale testing. The pH value of 10.5 was found to be more efficient for removal of chlorides, nitrates, fluorides for both coagulants, whereas in case of turbidity and color efficient pH was found to be 3.5, but pH 10.5 was considered to be optimum pH because there was significant removal of wastewater parameter characteristics. Similarly the optimum dosage of cactus and moringa oleifera for efficient removal of all parameters was found to be 0.6gm/500ml at pH 10.5.

New M.Tech. Thesis Submitted from Power

TECHNICAL PARAMETER ESTIMATION AND COST ANALYSIS OF A MODELED SOLAR POWER PLANT (CASE STUDY) by Ramanpreet Kaur 

Abstract

The world energy consumption is the main matter for the social and political aspects. The power generation using conventional sources like coal, oil, and gas is mostly preferred for large capacity plants over the years. These sources cause emissions and due to the depleting of fossil fuels, the need is to focus on the renewable energy sources. The second main reason behind using renewable energy sources is fuel cost. Global warming is caused by human activities. Every country’s government takes efforts to reduce emission. The rising prices are also causing instability. Therefore, it is beneficial to use PV solar system to meet the power demand. Availability of renewable sources at large distance locations recommends grid integration for easy and reliably transmits power. For designing of a uitable solar PV plant it is necessary to estimate techno, economical parameters of the plant. In this thesis work, technical parameters of a PV solar plant are estimated and cost of plant is analysis to check the feasibility of the plant. Modeling of PV solar array has been carried out and implemented in MATLAB. The simulation results have been provided and output of the system is studied. Hence the payback period is calculated.

New M.Tech. Thesis Submitted from civil

STRENGTH IMPROVEMENT OF CLAYEY SOIL WITH CEMENT KILN DUST AND JUTE FIBER by Jugraj Singh

Abstract

Soil plays very important role for obtaining the good civil engineering structure such as roads, buildings etc. because the whole structure depends upon the subgrade of soil. But mostly the problem arises due to poor soil that does not have good engineering properties. So to overcome this problems soil stabilization plays a vital role and it has become necessary before the constructions at the site. The research is done to study the impact of Jute fiber and Cement kiln Dust on soil stabilization. The soil samples were made with Jute fiber and Cement Kiln Dust at different proportions and tests were conducted. The result shows that there was improvement in engineering properties of soil. There was increase in the maximum dry density of soil as the percentages of Cement Kiln Dust were increased. With increase in proportions of CKD in the soil there was decrease in the value of optimum moisture content. The research shows decrease in the maximum dry density as the percentage of Jute fiber was increased and increase in optimum moisture content as the percentage of Jute fiber was increased. In this research different proportions of Cement Kiln Dust (5%, 10%, 15%, 20% and 25%) and Jute fiber (0.25%, 0.50%, 0.75% and 1%) were mixed in the soil and the optimum quantity was obtained after performing series of soaked California Bearing Ratio tests. The optimum quantity of Cement Kiln Dust and Jute fiber was 20% and 0.75% that was obtained in this research. After this the samples were prepared with mixture of soil, Jute fiber and Cement Kiln Dust at optimum quantity. UCS tests, CBR (soaked) tests and Compaction tests were conducted on the samples. The samples were cured for 7 days and 14 days in UCS tests. The results shows that there was increase in CBR value and maximum CBR was obtained at the 79.25 Soil + 20% Cement Kiln Dust + 0.75% Jute fiber content. The UCS value also increases with the same proportion after the curing of 7 and 14 days.

B.Tech and PG students are informed that some books are due from them which were issued in last semester. List of due books has been sent to respective HODs to advised students to return due books. These students are informed that their examination roll numbers will be given to them in Nov.2016. Students are again advised to return these books. Notice of due books is on Library Notice Board - LIBRARIAN

New M.Tech. Thesis Submitted from civil

Effect of Material Composition on Strength Characteristics of Fly ash Bricks by Harsimranjit Singh 

Abstarct

Bricks are one of the oldest material used in construction industry. Commonly used bricks are made up of clay with certain admixtures. Due to rapid increase in population and to meet its needs, new houses and multi-storey building are constructed in large numbers, which requires large number of bricks for its construction. Thus due to overuse of clay bricks a new material is required to be used for construction of bricks. Fly ash is one of the industrial waste, produced from thermal power plants and which is dumped in open environment and causes environment pollution. As it contains silica which reacts with lime and strengthen the brick, therefore it can be used for construction of bricks. In the present study fly ash bricks were made by using fly ash, sand, lime and Plaster of Paris (POP) in different mix proportions. The brick specimens of size 230 x 110 x 70 mm were manufactured and various quality parameters like compressive strength at an age of 7 and 28 days, water absorption and dry density were tested. The economical mix design of the fly ash bricks for maximum compressive strength and its rate analysis was also done. The results show that strength decreases with increase in fly ash content and increases with increase in sand and lime content in fly ash bricks. Water absorption value increases with increase in fly ash content and decreases with increase sand and lime content in fly ash bricks. Dry density decreases with increase in fly ash content and increases with increase in sand and lime content in fly ash bricks. The maximum compressive strength was obtained for mix percentage of fly ash-38%, sand-33%, lime-24% and POP-5%. Thus it is imperative that fly ash be used purposefully and fly ash bricks provide a good solution.

New M.Tech. Thesis Submitted from Industrial

APPLICATION OF VALUE ENGINEERING: A CASE STUDY OF FLOOR CRANE by Gurcharan Singh Gill 

Abstract

Value engineering is a systematic method to improve the "value" of goods or products and services by using an examination of function. Company is engaged with the various types of the different cranes. Case study has been carried out in industrial elevators manufacturing company and main purpose reduce the cost of floor crane with the help of value engineering and applied the VEJP (Value Engineering Job Plan), the design of floor crane change with the help of ANSYS (American Simulation Software). The objective of this study to conduct cost reduction in floor crane with the application of value engineering. The company engaged with various types of manufacturing facilities such as design department, fabrication shop, sheet metal shop, paint shop and final inspection. Case study of „floor crane‟ was selected due to their initial high cost of material along with their sub-parts. The value engineering along with ANSYS are used to examine the problem and reducing cost. Two designs were proposed to replace the previous model of floor crane , the results showed decreased cost 11.97% in first case and decrease the cost 12.53% in second case.

New M.Tech. Thesis Submitted from Producation

TO STUDY THE MECHANICAL PROPERTIES OF ALUMINUM MATRIX COMPOSITE REINFORCED WITH RICE HUSK ASH USING STIR CASTING PROCESS by Amar Singh 

Abstract

Aluminum composite are a new generation of metal matrix composites that have the potentials of satisfying the recent demands of advanced engineering applications. In the current work, a new composite material was fabricated with the reinforcement of rice husk ash (RHA) percentage (2%, 4%, 6%, 8% and 10%) by weight in the aluminum by using stir casting method. Investigation of mechanical properties like tensile strength, impact strength and hardness was done. The fabricated composites showed improvement of 43.9% in tensile strength, 61.5% impact strength, and 16.1% in hardness over the pure aluminum. Also, an attempt has been made to study the machining feasibility of fabricated composites with electrical discharge machining (EDM) using copper electrode. The input parameters are current, voltage and performance parameters are material removal rate (MRR) and surface roughness (SR). The material removal rate of fabricated composites (pure aluminum to Al+10%RHA) increases linearly at current (8amp) and voltage (50v). The value of surface roughness of pure aluminum is better than fabricated composites.

New M.Tech. Thesis Submitted from Industrial

ASSESSMENT OF LEAN TOOLS IMPLEMENTATION IN AUTO PARTS INDUSTRIES (MSMEs) LUDHIANA by Manmohan Singh Ubhi 

Abstract

Lean Manufacturing plays an important role in achieving the productivity targets of industries. The impact of lean manufacturing is lower in India as compared to the developed countries. This study is an assessment of Lean Manufacturing tools and techniques in Auto parts industries. The main objective to conduct this study is to find the level of degree used in lean tools and techniques ,benefits and the barriers when implementing lean tools in auto parts industry .Survey has been done in 80 Auto parts industries Ludhiana. ANOVA and post hoc test had used to analyze the data. After doing analysis it has been found that medium scale industries use greater amount of lean tools as compared to the small and micro scale industries. Most important lean tool used in micro, small and medium was visual factory, PDCA and smart goals respectively. Barriers and benefits were also found for all type of industries. Major barriers founded in micro, small and medium industries were lack of communication, attitude of shop floor management and degree of investment respectively. Main benefits preferred by micro, small and medium scale industries were lead time reduction, reduction in cost and reduction in scrap respectively.

New M.Tech. Thesis Submitted from Computer Science

DETECTION AND SMOOTHENING OF SPECTRAL DISCONTINUITIES IN CONCATENATED SYNTHESIZED SPEECH WAVEFORM by Birpal Kaur

Abstract

In today’s fast developing world the demand exist for applications of computer where the humans can

communicate with computers through speech. Infect instead of giving text commands to computers, humans want to control them through their own voice and also want computers to respond back through voice replies. The foremost purpose of speech synthesis systems lays in production of the synthesized speech from the input text for visually impaired persons, for learning and mastering new languages, various announcements at airports etc. One of the best artificial speech synthesis methods is the concatenative synthesis due to its quality of sound. But it contains some mismatches of spectral nature at the boundaries of joins. The positions where the joins among two speech units are not matched in terms of various spectral parameters like pitch, energy, frequency etc., then the spectral mismatches are observed there. These kinds of mismatches are more audible when the databases are generally small. As in small databases, the number of choices of units present for concatenation is few which lead to mismatches among the various parameters of speech of two joining units. For detecting and removing these kinds of mismatches this thesis work has been carried out. So in order to evade the dilemma of spectral mismatches at various boundaries of concatenation, many algorithms have been purposed for processing the signal and make it smoother. Firstly the mismatches are detected with the help of proposed algorithms and then three algorithms based on various techniques are applied on the synthesized concatenative speech. The results show that after applying these algorithms the final output speech produced is smoother than the original.

New M.Tech. Thesis Submitted from Computer Science

A RULE BASED PUNJABI DIALECT CONVERSION SYSTEM by Anterpreet Kaur 

Abstract

At a recent time, informal form of language is surged dramatically on internet resources as web becomes a media for people to share their ideas and thoughts via personal blogs and social articles. In case of Punjabi language, there is deficiency of processing tools for Dialectal Punjabi as compared to Standard Punjabi language processing tools. Our work is the pioneer work which depicts the conversion of three dialects of Punjabi and illustrates the need and complications for Punjabi dialect language. In this thesis work, dialect conversion system has been developed for processing Punjabi dialects namely Majhi, Malwai and Doabi. A rule-based approach is used by proposed system to convert the Standard Punjabi input text into its equivalent Malwai dialect, Majhi dialect and Doabi dialects. To identify Standard Punjabi words in given input text, various methods are used and then selected identified words are converted using rule-based component which has two parts: bilingual dictionary and morphological transfer rules. The proposed conversion system has nine bilingual dictionaries that contains 5,558 words related to Standard Punjabi, Majhi dialect, Malwai dialect and Doabi dialect. These dictionaries are used only for word-to-word mapping but only direct mapping of source text into its equivalent target text is not adequate, so morphological conversion rules for conversion to Majhi, Malwai and Doabi dialects have been developed in thesis that replace specific portion of input word. The transfer rules are implemented on source sentences and then words are replaced as stated by rules. The results of proposed dialect conversion system depict the remarkable accuracy. The accuracy of Standard Punjabi to Majhi dialect, Standard Punjabi to Malwai dialect and Doabi dialect conversion is found to be 96.58%, 96.48% and 97.54% respectively.

New M.Tech. Thesis Submitted from Computer Science

AUTOMATIC CLASSIFICATION OF PUNJABI DOCUMENTS USING VECTOR SPACE MODEL by Harsimran Pal Kaur 

Abstract

Now-a-days, a gigantic amount of useful data is generated on web. The information may be in the form of journals, e-documents and web pages. Today, the vast amount of documents are created in every field and to manage and handle these documents, the classification is necessary task. Automatic classification is the process in which the class labels are assigned automatically to the material which is under processing. Automatic classification of documents is an approach that assigns predefined category labels to input text documents. Punjabi is Indo - Aryan regional language spoken by 102 million people. For regional languages there are limited classifiers are available with limited resources. Punjabi Document Classification System receives the unlabelled Punjabi document and assigns it a predefined class label. Automatic Classification of Punjabi Documents using Vector Space Model is performed by converting the documents into set of vectors after preprocessing of documents. Then the document vectors are used to compute cosine similarity. Cosine Similarity is the measure, which defines the class label of input document. The proposed system has been compared with the existing systems which gives 64% and 71% accuracy by using Naive Bayes and Centroid based techniques respectively and both existing systems developed by using Hybrid and Ontology based techniques gives 85% accuracy. Theseexisting systems use 180 documents of different categories for testing and training purposes. The proposed system has been validated by using 517 documents which contains thousands of words and gives 86.84% accuracy.

New M.Tech. Thesis Submitted from Computer Science

AN OPINION MINING APPROACH TO INVESTIGATE CROWDSOURCED WEB DATA by Ramandeep Sharma 

Abstract

The rapid proliferation of Web 2.0 has made it possible for people to express their opinions over the Internet. Users express their views, thoughts or feelings on Social media or on review sites about products or movies in a very convenient way. Sentiment classification plays a vital role in the area of data mining. It defines the attitude, emotions or thoughts expressed by the users about the particular topic or subject. This research uses the movie reviews to classifying the sentiments posted by the users about the movies over the internet. The classifier is trained with movie review dataset and classify the reviews into positive and negative. In this research, Na¨ıve Bayes is hybridized with Particle Swarm Optimization to improve its accuracy. The accuracy improves from 75.58% (using Naive Bayes) to 78.60% (using NB-PSO) by using unigrams as feature and Term Frequency-Inverse Document Frequency as a feature weighting scheme. The various contemporary techniques are also

compared with the proposed technique.

New M.Tech. Thesis Submitted from Production

EXPERIMENTAL INVESTIGATION OF MACHINING PARAMETERS FOR NEAR DRY EDM USING OXYGEN BLENDED NITROGEN GAS WITH MINERAL OIL OF AISI H13 STEEL by Gundeep Singh 

Abstract

The correct selection of manufacturing conditions is one of the most important aspects to take into consideration in the majority of manufacturing processes particularly, in processes related to Near dry

Electrical Discharge Machining (EDM). It is a 'green' environment friendly EDM technique and was identified as stable machining process at low discharge energy finish machining. In addition, good machined surface integrity without debris reattachment that occurred in EDM was attained since the gas enhances the debris flushing. AISI H13 Hot die steel that is normally supplied in a solidified and tempered condition. Great machinability, better polishability, it has a scoring range of utilization in moulds, outlines for weight bites the dust, hydro framing apparatuses, these steel are arranged as hard to machine materials, gangs more noteworthy quality and strength are normally known not significant

difficulties amid traditional and non-ordinary machining. The Near dry electric release machining procedure is discovering the impact of machining parameter, for example, release current, Pressure and flow rate of gasses of AISI H13 instrument steel material. Utilizing oxygen blended nitrogen with refined soya bean oil as with inward flushing. A very much outlined trial plan was utilized to lessen the aggregate number of tests. Parts of the analysis were led with the L9 orthogonal exhibit in view of the Taguchi strategy. Moreover, the signal-to-noise ratios associated with the observed values in the experiments were determined by which factor is most affected by the Responses of Material Removal Rate (MRR), Tool Wear Rate (TWR) and Surface Roughness (SR). Finding the outcomes for MRR, TWR and SR, discharge current was most influencing factor and then pressure of gases and the last was flow rate of gases.

New M.Tech. Thesis Submitted from Production

PARAMETRIC OPTIMIZATION OF VIBRATION ASSISTED MAGNETIC ABRASIVE FINISHING PROCESS by Manjinder Singh

Abstract

Today’s market requires products or processes having higher efficiency, better quality, low cost along

with environment friendly. Finishing processes are divided into category’s viz. conventional and nonconventional processes. Magnetic Abrasive Finishing is one of the advance fine finishing processes that fall under the category of non-conventional machining processes. In the present research work, MAF process has been combined with mechanical vibrations to study the effect of vibrations on the surface finishing capabilities of the process. It is also known as Vibration Assisted Magnetic Abrasive Finishing (VAMAF). The varying value of acceleration combined with other effective parameters (rotational speed, time and abrasive size) was used to investigate the effect. Design of Experiment approach “Response Surface Methodology” was used to conduct and analyze the experiments for finishing aluminum flat plate with silicon abrasives, the optimized parameter values are rotational speed 650rpm, acceleration 11.84 m/s2, time 40 minutes, mesh number 200 and percentage improvement in surface roughness 56.85%.

New M.Tech. Thesis Submitted from Industrial

IMPLEMENTING LEAN IN AUTO PARTS MANUFACTURING INDUSTRY: A CASE STUDY by Goldy Choudhary 

Abstract

Lean is a technique that is used to accelerate rate of production and minimize the cost of any process by eliminating the waste in either manufacturing or service. The waste may be non-value added cost or unwanted waiting time with in the process caused by defects, over production, and other processes. The non-value added activity in the process is a serious issue in medium scale industries. The nonvalue added events are inversely connected to the output of a company. Many companies are focusing on the elimination of non-value added activities. In present work, a case study has been undertaken for measuring the non-value added events typically study as non-value and suggesting right solution to decrease the impression of these events on product. The organization is engaged in production of various types of automobile sheet metal components. In this case study, “Plate RR up cross” selected due to its problem of long production lead time. The lean manufacturing tools such as VSM, Sequence method are proposed for productivity improvement. It has been observed that production lead time was reduced by 24.76% in this case study.

New M.Tech. Thesis Submitted from Civil-Geo

Utilization of Reclaimed Concrete Aggregates in Granular Sub Base and Stone column by Shahbaz Singh 

Abstract

For the first time, construction and demolition waste rules, 2016 has been notified by the Union Government and rules states that at present India produces nearly 530 million tons of construction and demolition (C&D) waste annually. This construction and demolition waste is a resource not a waste. Forty percent out of C&D waste is waste concrete, so in this study an attempt has been made to utilizethis so that it does not put any adverse effect on our environment. Also continous land mining for aggregates creates huge pollution and effects our environment very much. So there has to be an alternative souce for aggregate production. Reclaimed concrete aggregates (RCA) is used an alternate in other fields but till date a very little use of these aggregates is reported in geotechnical engineering. In Swachh Bharat Mission (2014) it is stated that RCA can be utilized in plain cement concrete (PCC) and in reinforced cement concrete (RCC), no where it is written it can be used in geotechnical engineering. Literature review shows that only thirty percent of RCA can be used in PCC or RCC , so still the problem of remaining seventy percent remains which will put adverse effects on environment. This is high time to use RCA in geotechnical enginering.In this study an atempt has been made to utilize RCA in granular sub base and in stone column. This thesis work is divided into three phases, in first phase various laboratory tests have been performed on natural aggregates and RCA to check its use in geotechnical engineering, in second phase natural GSB with different percentages of RCA i.e, 0%, 20%, 40%, 60%, 80% and 100% is been prepared and laboratory tests have been done to check their compatibility according to Indian standards. And in third phase RCA has been used in stone column in which Plaxis software package is used to analyse, wheather RCA can be used in stone column. Results has been found satisfactory in all the three cases.

New M.Tech. Thesis Submitted from Civil-Geo

IMPROVEMENT IN CBR AND UCS VALUE OF CLAYEY SOIL USING RICE HUSK ASH AND GEO-GRID by Joginder Singh 

Abstract

Soil stabilization is widely used now days due to decrease in sites and increasing construction structures and to counter the swell-shrink characteristics of the clayey soil. The performance of pavement is very dependent upon the characteristics of the soil sub-grade, which provides base for whole pavement structure. Also, million tons of waste is produced from agricultural fields and industries making environment polluted. Accumulation of waste is a serious threat to our environment. Various problems are faced by engineers in their disposal. Therefore, practice of using waste materials is commonly opted. The main objective of this research is focused at improving the CBR and UCS values of clayey soil with addition of RHA as stabilizer along with geo-grid as reinforcement in layers. The soil used for the research purpose was collected from village Lohat Badhi, near Ludhiana. Samples were prepared by mixing with the different proportions of RHA as 5%, 10%, 15% and 20%. The effect of RHA on Atterberg’s limits (LL, PL and PI), Compaction parameters, CBR and UCS values was observed. It was observed that Atterberg’s limit and value of Maximum Dry Density show reduction in their values as compared with that of unmolded clayey soil with increase in RHA content while OMC showed some increase in its value. Maximum value of CBR was observed at 15% RHA with value of 5.83 (unsoaked) and 4.01 (soaked) and UCS value of 190.12kN/m2. Further soil was stabilized with single layer of geo-grid with plan dimensions of CBR mould was placed at distance of 25mm, 50mm, 75mm and 100mm. With each arrangement of geo-grid, the CBR values are calculated and compared with the results of CBR values obtained earlier without geo-grids. It was concluded that maximum CBR value attained when single geo-grid was placed at distance of 25mm from top of CBR mould. Further for two layered geo-grid reinforcement, maximum CBR value was attained with two layer geogrid at 50mm and 100mm. CBR increased with increase in number of layers increasing to 14.96 (unsoaked) and 11.67 (soaked) with four layer reinforcement. Hence, use of Rice Husk Ash along with geo-grid reinforcement proved to be effective method for stabilizing soil.

New M.Tech. Thesis Submitted from Civil-Geo

SETTLEMENT BEHAVIOUR OF PILED-RAFT FOUNDATION WITH NON-UNIFORM PILES IN SAND by Opinder Singh Ghuman 

Abstarct

In civil engineering, foundation system is one of the most important aspect of the structure. Structures

are said to be safe and efficient which are having proper design of foundation system. Foundation system design also lead to the overall economy of the project. In foundations, piles and rafts are used individually in many respects. By combining the two systems, necessary values for design, required safety and more economical solutions are find by the foundation engineers. The piled raft foundation systemis a composite foundation systemwhich involves piles,raft and soil to transmit loads of superstructure to the ground. In the design of piled rafts, the load sharing between the piles and raft is taken. The PRF is an effective way of minimizing both total and differential settlements, improving the bearing capacity of a shallow foundation, and effectively reducing the internal stress levels and bending moments within a pile.By utilizing these type of foundations that share the contributions of both raft and piles in tall and heavy buildings, or otherwise when extraordinary loadings such as earthquake, wind and wave loads exist or more. When the condition of soft and loose subsoil is seen, piled raft foundations seem to be a quite reasonable implementation. In the present study, Plaxis 3d software is used for finding behaviour of piled raft foundation by varying pile parameters such as length and diameter. The material used is sand and concrete piles. To check the settlement behaviour of pile raft foundation on sand, different types of loads are appliedon the raft. It is observed from the software observations that the bearing capacity of the piled raft foundation is increased by using the piles of greater length and diameter installed at the periphery under the centre point load, piles of greater length and diameter installed under the eccentric point loading condition.

New M.Tech. Thesis Submitted from Civil-Geo

Effect of RBI Grade 81 and Fly ash on CBR value of clayey and expansive soil by Virajan Verma

Abstract

In a developing country like India, roads are being constructed at a very fast rate. Traffic is increasing day by day and therefore we require a pavement that can safely take the loads and transfer them to the sub grade soil. Sometimes the soil does-not have enough strength and stability to carry the loads coming from the pavement. In such a case either we can replace the soil or we can stabilize it. Stabilization provides an economical solution. In the present study soil is stabilized by using RBI Grade 81 and fly ash. More precisely, a comparison is done on the effect of RBI Grade 81 and fly ash on the CBR value of clayey soil and Expansive soil. The different percentages of RBI used were 1%, 3% and 5%, whereas fly ash was used at 10%, 20% and 30% respectively. The clayey soil used was not expansive in nature and therefore 15% bentonite powder was added to it to make it expansive. The various tests performed in the laboratory were standard proctor test and CBR test. OMC increased and MDD decreased using both RBI and fly ash on both soils. With the addition of 1%, 3% and 5% RBI, the OMC was found to be 16.5, 17 and 18% respectively. The OMC of virgin soil came out to be 16%. The MDD of virgin soil was 1.61g/cc. The MDD was found to be 1.6, 1.59 and 1.58g/cc respectively upon adding 1%, 3% and 5% RBI. The soaked CBR value of virgin soil was 1.75%. This value increased to 3.75, 6.86 and 9.63% respectively with the addition of 1%, 3% and 5% RBI. The optimum combination was found to be 75:20:5 (Soil: Fly ash: RBI) for both the soils. It was also seen that the percentage increase in CBR value for clayey soil was more as compared to expansive soil in all cases.

New M.Tech. Thesis Submitted from Power

STABILITY IMPROVEMENT IN MICRO GRID USING THERMAL STORAGE

SYSTEM by Simrandeep Kaur 

Abstact

In power grids, storage systems are very helpful because they store excess energy when the energy production is at peak and the need is low. When the production is low and doesn’t fulfill the need of the users, the stored energy is put into use. The proposed method suggests a micro grid comprises conventional generator, inexhaustible, storage system and loads to examine the control of energy flow

and stabilize damping effects by using thermal storage. Thermal storage has many advantages like it is eco friendly, longer life strength and high absorbing power. In this methodology, heat pump and resistive type thermal storage are suggested, but work is done by using heat pump type thermal storage. An effective design is established for the thermal storage and by using linear techniques, the stability of the grid is examined. The results are proved in simulation using MATLAB/SIMULINK Software and the stability of the micro grid is enhanced by using an optimal controller i.e. PID controller.

New M.Tech. Thesis Submitted from VLSI

FPGA BASED BLOOD PRESSURE MONITORING SYSTEM by Fariha Naaz

Abstract

As Blood pressure is known to be the major indicator of a person’s health, thus there is an emerging demand for easy to use Continous Non invasive Blood Pressure monitoring (CNBP) systems. This paper describes the development of a System-on-a-chip (SOC) based wearable system for the measurement of Blood Pressure that will act as Continuous Noninvasive Blood Pressure (CNBP) system enabling the doctor to clearly analyze a patient’s blood pressure changes throughout the day. It

will replace bulky BP monitoring machine by merely a cuff as the developed SoC based system can be sewed up in the cuff itself, while the readings will appear on patient’s SMART phone. It will revolutionize the way BP was measured. The complete system will always ON, always working, so it

helps for Continuous BP monitoring where in a timer will be set in the Android Application for the BP measurement interval , these readings will be recorded in a table and can be analysed graphically for further decision making at the doctor’s end and also it will provide numerous possibilities for health benefits. A fully functional FPGA implemenntation for developing an SOC for Blood Pressure

monitoring has been succesfully implemented on Spartan3E kit using Xilinx ISE 12.4 with only 150 slices and 280 4-input LUTSs . SOC implementation will guarantee size minimization and also low power consumption suitable for battery operated device. The proposed design when compared with other commercial available digital BP Monitoring device, gave satisfactory readings. The future of Blood pressure measurement would just like operating a mobile Application

New M.Tech. Thesis Submitted from Power

SUPERCAPACITOR PERFORMANCE EVALUATION by Sonam Khurana 

Abstract

Supercapacitor (SC) also popularly known as Ultracapacitor (UC) or Electric Double Layer Capacitor

(ELDC) is becoming one of the most attractive Energy Storage Device. Supercapacitors have capacity to store large amount of power as compared to traditional capacitors. It has high power density and large life cycle due to these properties it can be employed in many applications. In traditional capacitors capacitance value is in microfarads, picofarads and nanofarads. To get higher values of capacitance of the order of hundreds of farads supercapacitors have been employed. Supercapacitors have high porous electrodes and employs different kinds of materials for electrodes. Mainly carbon based electrodes have been used for electrodes as carbon has highly porous structure. In this activated carbon based electrode has been used for improving specific capacitance which has specific surface area approximately 1000-3000 m2/g and it provides encouraging results with higher specific capacitance when specific area of the electrodes has been increased. When distance between the electrodes is varied from 2nm to 10nm value of specific capacitance also changes. Barium titanate has been used as dielectric material whose dielectric constant is different for different temperatures and its specific capacitance value comes to be maximum at 25°C. Life expectancy of supercapacitor has been evaluated and comes out to be long and gives hundreds of cycles of life. Lifetime of supercapacitor gets double when ambient temperature of supercapacitor is decreased by 10°C. At 25°C expected lifetime of supercapacitor is 32000 hours and at 65°C expected lifetime is 2000 hours. Effect on Voltage and charge of supercapacitor has been evaluated when distance between the electrodes is increased.

New M.Tech. Thesis Submitted from Power

Stability Testing of Biogas Plant in Electric Power System by Gurpreet Kaur 

Abstract

This thesis is the study of Stability Testing of Biogas Plant in Electric Power System. A short description on Biogas Plant is given in introductory part. Furthermore, generator and regulator Modelling with its surrounding load modelled as well in software package Power World Simulator. Therefore, this simulation shows that the system is stable under short period of disturbances. In order to meet the sustained load demands, different renewable energy sources need to be integrated. Many of renewable energy resources produces less amount of energy than classical plant and in this case new stability problem arises when these plants integrate into power system in case of disturbances. As electric power system is highly non-linear so that its dynamic stability is tested under transient conditions. Per capita energy consumption is an index of development of any nation and with the use of renewable energy sources we can increase the per capita energy consumption in India and also Energy,Economy and Environment are the three inter related areas directly responsible for development of any country and therefore our main emphasis is on conservation of energy by the use of renewable energy sources. Finally the possibility of island mode with its surrounding load is tested in case of blackouts in this thesis. This island mode is reasonable and possible in longer blackouts.

New M.Tech. Thesis Submitted from Power

MODELING AND SIMULATION OF TCSC IN POWER SYSTEM LOAD FLOW ANALYSIS

by Amanpeet Kaur 

Absract

With the current trend towards restructuring and deregulation in the power industry, burden over the power systems has been raised owing to the open access policies. Under the open access regime, all the buyers wish to avail the power from cheaper generation sources without even compromising with the operational as well as thermal stability constraints of the transmission corridors. This trend in the electricity market, has lead to overloaded (network congestion), inefficient, insecure and unreliable operation of the power system network. Owing to certain restrictions including environmental factors, right-of-way, cost involved, limited conventional sources of energy etc, the process of extending the transmission utilities cannot be done at large scale. Fortunately, the introduction of revolutionary Flexible AC Transmission Systems (FACTS) devices in the power industry has generated a solution to the undesirable operating conditions of the power system. These devices facilitate the economic, reliable, flexible and secure operation of network by controlling certain variables that regulate power flowing into the network. As the load demand varies, the demand for the reactive power is also varied. If this demand is not met, it yields unacceptable voltage profile at the buses and ultimately leads to voltage instability which in turn effects not only the operation of various electrical equipments but also results in transmission losses. In this research work, Thyristor Controlled Series Compensator (TCSC) has been modeled in the Newton Raphson load flow algorithm and simulations have been carried out to provide integrated solution for the voltage profile improvement, reduction of real and reactive power losses as well as the control over the active power flowing in the lines by modification of effective reactance of the line by TCSC. The simulation results have been carried out on the IEEE-14 bus system in the MATLAB environment. The optimal results for improved voltage profile when TCSC connected in line 4-5, reduced losses (real and reactive power losses) with TCSC connected in line 1-5 and real power flow regulation in the transmission line 1-2 when TCSC connected in line 1-2 and 1-5 have been achieved. It has been concluded that the integrated solution is obtained for voltage profile improvement, loss reduction and regulation of power flow on installing TCSC in line 1-5.

New M.Tech. Thesis Submitted from Power

A LOAD FLOW BASED APPROACH FOR REACTIVE POWER PROCUREMENT IN DEREGULATED POWER SYSTEM by Deepika Jindal

Abstract

With the advancement of technology, the demand of electrical energy has increased many folds. There are many problems in transmission of power from one point to another point such as voltage dip, power losses, line failure due to over loading, contractual path flow, transmission congestion, stability issues among others. These issues can be handled properly with the support of ancillary services. So, for the reliable, safe and required degree of quality transmission, the ancillary services are required to be procured from various resources. The major ancillary services are reactive power regulation, frequency regulation, reserves, black start, backup supply, system control, dynamic scheduling, real power transmission losses. All these ancillary services are used in deregulated power system. These services provide the support in transmission of power in interconnected grids. In deregulated power system, the generation, transmission and distribution are controlled by different companies, where as in vertically integrated structures, all the three functions were handled by a single company. Main concern of this research work is with the reactive power regulation. In this research work, an optimization problem has been formulated for reactive power procurement from generation companies. The objective of this optimization problem is to minimize the real power transmission losses subject to the real and reactive power operational constraints. The proposed problem is solved by the application of Newton Raphson load flow (NRLF). In the proposed methodology, NRLF is performed under the base case and in case voltage profile of system buses is violated, further load flows are carried out with the objective of minimization of transmission losses. The proposed methodology has been tested on IEEE 30-bus system in MATLAB environment without/with the procurement of reactive power from single bus or from multiple buses. Results show the improvement in voltage profile by procuring the reactive power from the specified buses.

New M.Tech. Thesis Submitted from Production

OPTIMIZATION OF PROCESS PARAMETERS ON AISI H13 STEEL WITH CRYOGENIC COOLED COPPER ELECTRODE IN EDM by  Gurdeep Singh 

Abstract

Electric discharge machining (EDM) is widely used process in manufacturing high-precision components from extremely hard and exotic metal. Cryogenic is a process that uses cryogenic temperatures to modify materials to enhance their performance, not much work has been reported in the investigation of effect of Cryogenic Treated electrode while used as a tool in EDM. AISI H13 chromium hot-work steel is widely used in hot and cold work tooling applications. Due to its excellent combination of high toughness and fatigue resistance, H13 is used more than any other tool steel in tooling applications. Investigations were conducted on the machining of AISI H13 tool steel via Cryogenic Cooled copper electrode in electrical discharge machining (CCEDM). The Minitab software was used for experimental results to optimized parameters of process on the basis of orthogonal array of Taguchi L9. The analysis indicated that parameters at which maximum material removal rate(MRR) (23.738mm3/min) obtained was 20A discharge current and 45V gap voltage, minimum tool wear rate(TWR) (0.0199gm/min) was obtained at 10A current and 65V voltage and minimum surface roughness(SR) (5.982μm) was obtained at 10A current and 200μs.

New M.Tech. Thesis Submitted from Civil

IMPROVEMENT IN STRENGTH OF SILTY SOIL BY MIXING POLYPROPYLENE FIBER AND STONE DUST by Jagjeevan Singh

Abstract

Soil is the unconsolidated part of earth crust or rock and which is produced by physical or chemical disintegration of the various rocks. Construction of geotechnical structures on weak soil is highly risky because such soil is more susceptible to differential settlements due to their poor strength and high compressibility. Accumulation of solid waste is another serious problem faced by the world for which huge area of land is required for its disposal. Among the recent development, introduction of reinforcement in different form and use of the solid waste is being tried to improve the overall soil behavior. The objective of this study is to increase strength of silty soil using polypropylene fiber and Stone Dust. Different proportions of stone dust used were as 10, 20, 30 and 40% and polypropylene fiber were as 0.5, 1 and 1.5% to dry weight of soil.In this study, series of laboratory tests such as compaction test, California bearing ratio test and direct shear test were performed. From the compaction test it was observed that MDD increases and OMC decreases with increase in stone dust. Soaked CBR value of virgin soil was 2.92% and maximum percentage increase in CBR value was observed at 30% stone dust i.e. 6.08%. The stone dust was optimized at 30% and was used for further work. Further with increase in fiber content by keeping stone dust optimum MDD decreases and there was no significant change in OMC. On addition of Polypropylene fiber CBR value increased and maximum value was observed at 1% i.e. 8.02%. In direct shear test, cohesion value and angle of shearing resistance for virgin soil was 0.27 kg/cm2 and 210 respectively. With addition of stone dust cohesion value decreases and angle of internal friction increases. Further with addition of PP fiber cohesion value and angle of internal friction both increases. From the above results it was concluded that use of stone dust along with polypropylene fiber reinforcement proved to be effective method for stabilizing soil. The best proportion obtained was 69% Soil + 30% Stone Dust + 1% Polypropylene fiber.

New M.Tech. Thesis Submitted from Electronics

DESIGN AND ANALYSIS OF FRACTAL ANTENNA WITH FRACTAL SHAPED DEFECTED GROUND STRUCTURE  by Navneet Kaur 

Abstract

With the rapid growth of wireless commercial applications such as WLAN, Wimax, mobile data the need for multiband and wideband antennas increase rapidly. Various design approaches were given by different researchers. Microstrip antennas came into existence, but they have narrow bandwidth. Fractal antennas overcome this problem by their properties of self-similarity and space filling. Fractal antennas show multiband and wideband behavior. Defected Ground Structure (DGS) is an etched structure in the ground plane of the antenna which perturbs the current distribution and various other characteristics of the antenna. In present work, fractal shape is used in the ground plane of the fractal antenna to get better performance. This antenna is designed for two substrate materials- RT Duroid and FR4. A Koch shaped fractal square is used on the radiating patch of the antenna. A new fractal shape is used in the ground plane of the antenna. This antenna shows multiband and wideband behavior with improved values of return loss, gain and efficiency. For the analysis and verification of the antenna, various simulations are performed for the proposed antenna with conventional ground plane. So, the proposed antenna shows better results with fractal DGS as compared to the conventional ground plane. The proposed antenna is fabricated with FR4 substrate. Then, the antenna is tested with Vector Network Analyzer (VNA).

New M.Tech. Thesis Submitted from Electronics

DESIGN AND ANALYSIS OF FRACTAL ANTENNA FOR MIMO APPLICATION  

by Nitika Sharma 

Abstract

With the advancement in the wireless technologies, the antenna designers have been challenged to come up with compact, high-performing, easy-to-fabricate antennas with a high radiation efficiency to keep up with the increasing demands. In presented work, a new multiband fractal antenna for MIMO applications is proposed. To design a MIMO fractal antenna, initially we designed a hybrid fractal antenna. Using a combination of Koch and Minkowski curves placed on the boundary of the rectangular patch. The proposed antenna is designed on a RT- duriod and FR4 substrate having thicknesses of 3.175 mm and 1.47 mm, respectively. Antenna is resonant at three resonance frequencies. The element antenna is also verified experimentally for both the substrate, the simulated and experimental results showed a satisfying agreement. The simulation of 2×2 MIMO antenna is done in IE3D software in which elements are placed at different separation distances like 8 mm, 10 mm, 15 mm, 18 mm etc and their characteristic parameters are analyzed for distinct distances. After studying their performance for different distances, the antenna is fabricated for 18 mm separation distance. Diversity performance of the antenna in terms of envelope correlation coefficient (ECC) is calculated with the help of MATLAB program. The value for both substrates is less than 0.0007, which is greater than threshold value 0.5. The MIMO antenna is fabricated on the FR4 substrate. The fabricated prototype is verified experimentally with the help of vector network analyzer. Measurement results are similar to simulation results.     

New M.Tech. Thesis Submitted from Production

TO STUDY THE EFFECT OF SILICA BASED YTTRIUM CERIUM HYBRID SOL-GEL COATING ON HOT CORROSION OF  BOILER STEEL, MS 210 

by Tajinder Singh

Abstract

Hot corrosion is major problem in industrial machinery. It results in major losses in power generation sector. One of the prominent sector is Boiler tubes in fire tube boilers. Various salts like Sodium Sulphate, Sodium chloride and Vanadium Pentoxide contribute to hot corrosion in boiler tubes. To eradicate these problems various types of coatings are being studied and being introduced. Sol-gel technique is relatively new method of coating preparation and with time have proved to be a lot cheaper and reliable when compared to other coating techniques. Instead of using single element of coating, now combination of two or more is being introduced to overcome the limitations of a single element coating. Rare earth elements had also shown good corrosion resistance and they can also be incorporated in combination with other elements. In present research, hybrid sol-gel coating of silica based yttrium cerium was prepared and tested on mild steel MS 210 as mild steel is widely used as boiler tubes material. Bare and coated samples were subjected to cyclic oxidation with molten salt environment. SEM-EDS and X-Ray mapping were done on these specimens. These tests revealed that sol-gel coating is efficient in providing protective coat on specimen under hot corrosion conditions. 

New M.Tech. Thesis Submitted from Production

CHARACTERIZATION OF MAGNETIC ABRASIVES PREPARED BY SINTERING PROCESS by Mukesh Kumar 

Abstract

Magnetic abrasives play essential role in Magnetic abrasive Finishing (MAF) process. At present magnetic abrasives are prepared by various methods. Most of the studies have been reported where simple mixing of ferromagnetic and abrasive particles is done. The improved method suggested was sintering. But in the existing studied the detail of sintering has not been mentioned. In the present work the parametric studies have been undertaken to find the suitable combination of input process parameters of sintering so that good quality magnetic abrasive can be produced. Three major parameters sintering time (min), compacting pressure (N/mm2), Abrasive concentration (%age) has been chosen. By adopting DOE technique Response Surface Methodology (RSM) a set of experiments have been conducted. The experimental data was analyzed by software and effect of input parameters on two output parameters PISF (Percentage Improvement in Surface Finish), MS (Magnetic Strength) has been studied. Empirical relation between input and output parameters has also been suggested. For brass specimen the results obtained 68.8 % PISF at sintering time 24 min, compacting pressure 8.3 N/mm2 and abrasive concentration 18 % aluminum oxide with 82 % iron powder. Similarly 99.99 % magnetic strength obtained at sintering time 51 min, compacting pressure 8.3 N/mm2 and 18 % abrasive concentration with 82 % iron powder.  

New M.Tech. Thesis Submitted from Production

EFFECT OF HYBRIDIZATION ON MECHANICAL PROPERTIES OF NATURAL FIBER REINFORCED POLYMER COMPOSITES by Jagmeet Singh 

Abstract

In the last few decoys, synthetic textiles such as plastics have been employed as an alternate to iron/steel for manufacturing automotive components. Synthetic textiles are used for fabricating almost every item from the products of household to complex structures machine components and many more. Due to less weight, high strength and low water absorption properties, synthetic plastics find an extensive application in field of engineering. Actually, different synthetic fibers like nylon, glass, polyester, and carbon are mainly utilized as reinforcement in plastics composites. At present, because of deficiency and high cost of petroleum and it's by products, there is a need to look for its substitute, which is only natural and bio-degradable. The role of composite materials in field of engineering is gradually increasing. The composite consists of mainly two phases, i.e. matrix and fiber. The aim of this study is to evaluate mechanical properties such as tensile, flexural and impact strength of hybrid sisal/jute reinforced epoxy composites. The composite samples are prepared by hand layup and compression molding technique. The hybrid composites of sisal/jute are fabricated with various weight ratios (100/0, 70/30, 50/50, 30/70 and 0/100) at 20% and 30% overall fiber fraction. The results showed that the hybrid fiber composites performed better than non-hybrid fiber reinforced epoxy composites. Structural analysis was carried out to check fracture behavior and fiber pullout of the samples using scanning electron microscope. Keywords: Hybrid, Mechanical Properties and Compression Molding.