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Chemical
  • About
  • Vision & Mission
  • Syllabus
  • Resource and Facilities
  • Staff
  • Events
  • Project
  • Alumni
  • Academic Reports
  • Toppers

Dwarkadas. J. Sanghvi College of Engineering has started the course in CHEMICAL ENGINEERING , in 1994 with an intake of 60.

The department is having the state-of-the-art infrastructure, which includes fully airconditioned class rooms, laboratories, staff rooms and tutorial room. All the classrooms and laboratories are equipped with modern amenities such as OHP, multimedia projection, internet access during lectures. The college is also havingWireless Internet access for all the departments.

The department is having highly qualified, experienced and dedicated teaching and supporting staff having pursued their Masters and Doctorate degrees from topmost colleges of India including the IITs and ICT. Under the guidance of the management and principal the department is flourishing by leaps and bounds. It helped the department to attract not only meritorious students but also the rank holders in the first year admission done on the basis of their marks in HSC level and CET examination. The department is committed to excellence in teaching-learning process and pursuing research and development.

Vision

To achieve academic excellence and continue to develop a world class department capable of creating technically competent and socially responsible chemical engineering professionals for meeting the ever-changing aspirations of  industry and society at large.

 

Mission

To create a conducive academic ambience through competent and committed faculty along with world class infrastructural back up, wherein the learners can groom and transform themselves into talented engineering professionals with a flair for research and urge for knowledge enhancement.

To provide a platform to learners to interact with professional bodies, industries and other nodal agencies, so as to get aligned with the ongoing global technological trends and social aspirations.

To acquaint learners with green technology and support them develop sustainable designs and systems.

Impart training on soft skills and value education and achieve adequate personality traits.

 

 PEOs

To lay a strong foundation in basic sciences and engineering fundamentals, develop capability to solve complex engineering problems and motivate to pursue research and higher studies.

To train learners with engineering skills to comprehend, analyse and design systems to address real life problems.

To inculcate soft skills, professional ethics so that the learners develop capability to utilise engineering skills and knowledge with a broader social perspective.

To initiate industry institute collaboration and to evolve confidence and professional competency with multidisciplinary approach in learners to associate with the industries to meet global challenges.

Bring awareness about the need for practicing green technology for sustainable growth and development

 

Program Specific Outcomes

The graduates of this program will be able to apply chemical engineering principles to design and operate chemical and process plants in a safe, economically viable and environmentally benign manner.

They will be able to analyse open-ended problems and carry out necessary experimentation to collect, interpret and scale-up data for design of new processes and products.

They will be able to use modern tools such as mathematical softwares and process simulators, and where necessary develop custom applications to meet industrial and academic needs.

They will be able to communicate and interact effectively in their profession maintaining the highest professional and ethical standards.

They will be able to start and sustain new enterprises in chemical and allied fields.

The department is having fully air-conditioned and well equipped two class rooms, three laboratories, 1 Tutorial room and a Language Laboratory to run the undergraduate course.

Some of the important laboratories include:

  • Mass Transfer Operation1/ Chemical Reaction Engineering/Instrumentation and Process Control Lab
  • Solid Fluid Mechanical Operation/ Mass Transfer Operation2 Lab
  • Reaction Kinetics/Environmental Engineering/Advance Chemistry Lab

The laboratories are equipped to perform the experiments as per the syllabus of University of
Mumbai. The laboratories have both the basic and advanced equipments needed to understand the various aspects of Chemical Engineering. Because of the dedicated faculty members, well-planned academic activities and well-equipped laboratories, the students are having more exposure to the recent technologies.

Some of the important equipments/ trainer sets include:
ORIFICE METER

SHELL AND TUBE HEAT EXCHANGER

VENTURI METER

FINNEED TUBE HEAT EXCHANGER

ROTAMETER SET UP

SHELL AND TUBE HEAT EXCHANGER

BORNOULIE’S SET UP

INTER ACTING\NONINTERACTING\ SINGLE TANK

PIPE FITTING SET UP

MANOMETER (WATER)\ MERCURY)

CENTRIFUGAL PUMP

FLOW TRAINER

RECIPROCATING PUMP

LEVEL TRAINER

LAMINAR FLOW\ TARBULENT FLOW SET UP

COMBINED FLOW RACTOR

HOT PLATE 

CONTINUOUS STIRRED TANK REACTOR

ROUGH BALANCE

SOUND LEVEL METER

V  NOTCH SET UP

TUBIDITY METER

LAGGED PIPE

BOD INCUBITOR

NATURAL CONVECTION

SOXHELET EXTRACTION HEATING MANTLE

FORCED CONVECTION

AMTOSPHERIC DRYER

CONVECTION IN METAL ROD 

SPRAY COLUMN

PARALLEL\ COUNTER FLOW SET UP

PACKED COLUMN

STEAM DISTILLATION ASSEMBLY

STEAM BATH
SIMPLE DISTILLATION ASSEMBLY

SEDIMENTAITION SET UP

FROTH FLOATION SET UP

BALL MILL

SIEVE SHAKER

VACUUM FILTRATION SET UP

WEIHGTING BALANCE

FORCED CONVECTION DRYER

 

The computational facilities available with department include:

  • No. of Computers: - 20
  • All computers are in LAN connections with internet facility
  • 3 Laser Printers
  • 1 Scanner
  • 1 Laptop
  • Softwares
  1. Chemcad
  2. Scilab
  3. HTRI
  4. DWSIM
  5. Cape Open COCO


In addition to the well-planned academic activities related to the classroom and the laboratory instructions, the department also encourages the staff members and students to arrange seminars, paper presentation on various topics of academic interest, arrange industrial visits, technical exhibition, summer/winter schools etc.

  • RameshDr. V. RameshProfessor & HOD
  • Dr.(Mrs) Alpana MahapatraDr.(Mrs) Alpana
    Mahapatra
    Professor
  • Prof . Arvind PrasadProf . Arvind PrasadAssociate Professor
  • Dr. ( Mrs. ) Aparna N. TamaskarDr.(Mrs.) Aparna N.
    Tamaskar
    Associate Professor
  • Prof.( Mrs. ) Rashmi KumarProf.( Mrs. ) Rashmi
    Kumar
    Assistant Professor
  • Prof.( Mrs.) Rupali D. KarandeProf.( Mrs.) Rupali
    D. Karande
    Associate Professor
  • Prof . Vishal J. ShahProf . Vishal J. ShahAssistant Professor
  • Prof . Pradeep G. TalwelkarProf . Pradeep G.
    Talwelkar
    Assistant Professor
  • Prof( M s . ) Miloni KamdarProf( M s. )
    Miloni Kamdar
    Assistant Professor
  • Prof . ShashikantProf . Shashikant
    Sankhe
    Assistant Professor
  • Prof. Dalvi Sanjay DashrathProf. Dalvi Sanjay
    Dashrath
    Ass istant Professor
  • Dr. Ajitkumar S. GudekarDr. Ajitkumar S.
    Gudekar
    Assistant Professor
  • RameshDr. V. RameshProfessor & HOD
  • Dr.(Mrs) Alpana MahapatraDr.(Mrs) Alpana
    Mahapatra
    Professor
  • Prof . Arvind PrasadProf . Arvind PrasadAssociate Professor
  • Dr. ( Mrs. ) Aparna N. TamaskarDr.(Mrs.) Aparna N.
    Tamaskar
    Associate Professor
  • Prof.( Mrs. ) Rashmi KumarProf.( Mrs. ) Rashmi
    Kumar
    Assistant Professor
  • Prof.( Mrs.) Rupali D. KarandeProf.( Mrs.) Rupali
    D. Karande
    Associate Professor
  • Prof . Vishal J. ShahProf . Vishal J. ShahAssistant Professor
  • Prof . Pradeep G. TalwelkarProf . Pradeep G.
    Talwelkar
    Assistant Professor
  • Prof( M s . ) Miloni KamdarProf( M s. )
    Miloni Kamdar
    Assistant Professor
  • Prof . ShashikantProf . Shashikant
    Sankhe
    Assistant Professor
  • Prof. Dalvi Sanjay DashrathProf. Dalvi Sanjay
    Dashrath
    Ass istant Professor
  • Dr. Ajitkumar S. GudekarDr. Ajitkumar S.
    Gudekar
    Assistant Professor

Various seminars, workshops, conferences and industrial visit are organized by the department throughout the year where the experts from the industries and other organizations guide the young talent and faculty. The following are the details of the various training programs and Seminars/ workshops organized by the department.

  • Outstanding Young Chemical Engineer (OYCE) in April 2009 conducted by IIChE
  • Aroma Seminar on 6th of March 2010
  • Process Engineering Chronicle on 10th April 2010, 135 participants from within as well as from other colleges in Mumbai
  • Plant commissioning workshop for two days on 3rd and 4th September 2010 organised by Dr A. N. Tamaskar; 80 participants from within and other colleges.
  • Workshop on Chemical Computing in 2011 conducted by Prof Arvind Prasad and Dr V. Ramesh
  • Practical aspects of Process Engineering on 24th September 2011
  • N. R. Kamath Quiz (ChEQ 2011) on 22nd October 2011
  • Wave 2012 on 27th and 28th of September 2012, A National level seminar cum workshop
  • Industry Academia Interaction Seminar Cum Workshop on Desalination and Water Treatment Technologies on 17th April 2014 organised by Dr. Alpana Mahapatra.
  • Campus Connect with M/s. Aker Solutions on 24th July 2014 organised by Dr. V. Ramesh.
  • Industrial visit to Cipla, Patalganga on 19th September 2014 organised by Dr. Aparna Tamaskar.
  • Industrial visit to Amul on 16th September organised by Prof. Arvind Prasad. and Prof. Shashikant Sankhe.
  • Workshop on Practical Aspects of Chemical Engineering on 17th and 18th October 2014 organised by Dr. V. Ramesh., Prof. Sanjay Dalvi and Prof. Rupali Karande.
  • Lecture by Alumnus, Mr. Abhijit Talpade in ‘Life after DJ’ on 23rd April 2014 on: ‘Guidance for   preparation for exams like GATE’.
  • Outstanding Young Chemical Engineers (OYCE) was organised by Dr. Alpana Mahapatra in association with IICHE-MRC on 13th and 14th March 2015.
  • Interactive Session on Industrial Safety on 15th March 2015 organised by Dr. Aparna Tamaskar.
  • Seminar was held by HTRI professionals in March 2015 to demonstrate HTRI (Software for designing heat exchangers)
  • A lecture was organized (Mr. Rahul Shah, Hem corporation) on the topic of Entrepreneurship skills on 26.09.15.
  • Industrial visit to Reliance Industries Pvt Ltd on 16th October 2016 for improving Professional Skills in the industry.
  • Alumni Meet was arranged in the department on 22nd Oct, 2016.
  • Industrial visit to L&T, Mumbai on 10 March, 2017: Manufacturing methods in Chemical Process Equipment.
  • Workshop on Practical Aspects of Chemical Engineering on 17-18, March, 2017; organised by Dr. V. Ramesh., and other faculties from department.

2017

 

  1. Anaerobic digestion of biomass and biomass purification by removal of hydrogen sulfide.
  2. Biogas enrichment plant
  3. Bus Network optimisation
  4. Coconut coir dust as low cost adsorbent of cationic dyes
  5. Desalination by thermal and membrane processes
  6. Design and development of dynamic matrix control system
  7. Fabrication of a low cost effective microfluidic device
  8. Manufacturing of 4-(4-aminophenyl) Morpholin-3-one
  9. Manufacturing of 5-chlorothiophene 2-carboxylic acid
  10. Manufacturing of anthraquinone
  11. Manufacturing of benaldehyde
  12. Manufacturing of bipropion hydrochloride
  13. Manufacturing of caustic soda
  14. Manufacturing of fatty acids by continuous hydrolysis of fats
  15. Manufacturing of furfural
  16. Manufacturing of styrene
  17. Manufacturing of sunscreen lotion with phytoconstituents
  18. Polyvinyl chloride
  19. Recovery of methane as a fuel from biogas
  20. Removal of heavy metals from effluent using bio-remediation and phytoremediation
  21. Simulation and energy optimisation of aqua ammonia refrigeration system
  22. Simulation of methanol process from natural gas
  23. Simulation of nitric acid production by ammonia oxidation.
  24. Solar energy powered vapor absorption air conditioning system
  25. Storage of solar energy and use of photovoltaic cells
  26. Water processing

 

2016

  1. Aqua Ammonia refrigeration system
  2. Desalination
  3. Dynamic optimization of a semibatch reactor using evolutionary strategies
  4. Dynamic Simulation of a Chemical Process
  5. Environmental impact assessment of clean coal technology
  6. Heat transfer in forced convection
  7. Manufacture of Ammonia
  8. Manufacture of Ammonium Nitrate
  9. Manufacture of Aniline
  10. Manufacture of Ethylene oxide
  11. Manufacture of n-Butyl acetate
  12. Manufacture of ortho-chloro-nitro benzene
  13. Manufacture of Phenyl Ethyl Alcohol (PEA)
  14. Manufacture of Resorcinol
  15. Manufacture of sulphuric acid
  16. Manufacture of Urea by snamprogetion process
  17. Manufacturing process of Dithyoglycol
  18. Multi-objective optimization of a flowsheet
  19. Municipal solid waste management and treatment
  20. Preparation of Bio-Diesel from Spent oil
  21. Production of Biodiesel from Jatropa seeds
  22. Production of biogas
  23. Separation of fly ash
  24. Separation of metals from waste stream
  25. Simulation and energy optimization of Ammonia (Haber) process
  26. Simulation of crude distillation column using simulation software
  27. Study of heat transfer in a nuclear reactor
  28. Waste-water treatment and recycle

 

2015

 

  1. A study of fouling in heat exchangers
  2. Absorptive Separation of Metal Ions
  3. Anion Exchange Membranes
  4. Computer control of pressure control system
  5. Crude Oil Pilot plant
  6. Desulphitation of Pet coke
  7. HCL recovery from waste pickle liquor
  8. Heat Transfer in Augmented Tubes
  9. Manufacture of syngas for ammonia production
  10. Manufactures of Esters
  11. Manufacturing 3,5 dichloroaniline
  12. Manufacturing of 2, ammino, 4-chlorophenol
  13. Manufacturing of 2, phenyl acetophenol
  14. Manufacturing of Ammonium Bi-Carbonate
  15. Manufacturing of DMF
  16. Manufacturing of ethylene
  17. Manufacturing of phenol
  18. Manufacturing of Phenyl isocynate
  19. Manufacturing of Picric Acid
  20. Manufacturing of Polypropylene.
  21. Manufacturing of purified terephthalic acid
  22. Manufacturing of sodium boro hydride
  23. Manufacturing of sugar & Co-generation of power
  24. Methanol synthesis
  25. Model Predictive Control
  26. Modelling & Simulation of AAC process and equipment
  27. Process Control: Study of MPC
  28. Production of paper from bagasse
  29. Removal of Chromium from effluent of electroplating industry 

2014

  1. Crude Distillation Unit
  2. Crude oil from Tar sand
  3. Database modelling of HHV of biomass based on ultimate analysis.
  4. Direct coal liquefaction
  5. Essential Oils
  6. Ethanol from Rice Husk
  7. Exergy Analysis of Synthesis gas
  8. Manf. Ethyl Acetate
  9. Manf of Acrylonitrile
  10. Manufacture of Acetonitrile.
  11. Manufacturing of Cumene
  12. Manufacturing of ethanol
  13. Manufacturing of nitric acid
  14. Manufacturing of oxalic acid
  15. Mfg of acrylic acid
  16. Mfg of beta- Validrate
  17. Mfg. of Cyclohexane
  18. Mfg. of Ethylene glycol
  19. Mfg. of TiO2
  20. Minimization of heat losses in rotational moulding process
  21. Manufacture of Propylene glycol.
  22. Model Predictive control (Process Control)
  23. Modelling and Simulation of Batch Process System
  24. Modelling and Simulation of Fluidized bed Reactor
  25. Process Simulation of Manufacturing of Aspirin
  26. Recovery of precious metals from spent catalyst
  27. Removal of metallic impurities from water

2013

  1. Bioplastics
  2. Design of a Multichamber Distillation Column and Gas Cleaning For Plastic to Fuel
  3. Distillation Column Using Driving Force
  4. Dye Removal by Adsorption
  5. Fuel from Plastic
  6. Heat Exchanger with Control System
  7. Industrial Waste Water Treatment
  8. Malonic Acid
  9. Manufacture of 2-Anisidine (Ortho-Anisidine)
  10. Manufacture of 3-Methylpyridine
  11. Manufacture of Maleic Anhydride
  12. Manufacture of Mtbe
  13. Manufacture of Nitroglycerine
  14. Manufacturing Of Hydrogen - By Aqueous Phase Reforming Of Biomass
  15. Methanol by Natural Gas
  16. Monochloro Acetic Acid
  17. N-Methyl-2-Pyrrolidone
  18. Phosphorous Trichloride
  19. Production of Chlorosulphonic Acid
  20. Production of Rantinide
  21. Recovery of Silver from Waste
  22. Removal of Heavy Metals from Water
  23. Superhydrophobic Materials
  24. Waste Water Management & Treatment Using Soil Biotechnology
  25. Zirconium Oxide

2012

  1. Acetanilide
  2. Biogas
  3. Carbon Capture & Storage
  4. Chlorsulfonic Acid
  5. Coal Gasification Technologies
  6. Cpc Blue
  7. Dioctyl Pthalate
  8. Dynamic Optimization In Chemical Engineering
  9. Extraction Of Silica From Rice Husk Ash
  10. Glycerine
  11. Green Diesel
  12. Manufacturing Ethanol From Corn
  13. Multi Objective Optimization For Hen Synthesis
  14. Nevirapine
  15. Nonyl Phenol
  16. Phosphoric Acid
  17. P-Nitrophenol
  18. Polychloroprene
  19. Process  Optimization Of Evolution Strategies
  20. Processing Of Waste Tyres
  21. Recovery Of Titanium & Other Metals From Red Mud
  22. Recycle Of E-Waste
  23. Synthesis Of Butyl Acetate
  24. Urea

2011

  1. Butyl Acetate
  2. Optimal Control by Evolutionary Stategies
  3. Performance Optimization of a debutanizer column
  4. Distillation column control with optimal sensor location
  5. Synthesis of heat exchanger networks
  6. Hydrogen Peroxide
  7. Polyvinyl Chloride
  8. Acetic Acid
  9. Polyester
  10. Sodium Hydroxide
  11. Aniline
  12. Bromohexine Hydrochloride
  13. Piperazine
  14. Recovery of Copper and Nickel using LEM
  15. Diesel Hydro treatement
  16. Catalytic Recycling of to usable fuels
  17. Polypropylene
  18. Nitrogen
  19. Hydrocracking
  20. Nylon 66
  21. Methyl Acetate
  22. Remediation of Oil Spills
  23. Biodiesel
  24. Effect of crude quality on motor spirit production yields
  25. Developing column hydraulics and inter
  26. nal program using VBA

2010

  1. Hydrazine
  2. Acetic Acid
  3. Xylitol
  4. Effluent Treatment Plant
  5. Ammonium Bicarbonate
  6. Liquid Sulphur Dioxide
  7. Para Chloro Benzaldehyde
  8. Nitric acid
  9. 2-ethyl hexanol
  10. Adiponitrile
  11. Optimization in Column Sequencing
  12. Ethylene
  13. Di-Butyl Pthalate
  14. Vegetable Wax
  15. Ethylene Dichloride
  16. Desulphurization of Diesel
  17. Salicylic acid
  18. Caustic soda
  19. Nitrochlorobenzene
  20. Xylene
  21. Hydrogen
  22. Dynamic Simulation of Reactive
  23. Distillation
  24. Biodiesel
  25. Tramadol
  26. Sodium Nitrite & Nitrate

2009

  1. 1,3- Butadine
  2. Abs. Alcohol
  3. Acetene
  4. Acrylic Acid
  5. Air Separation by cryogenic distillation & PSA
  6. Alkylation flowsheet optimisation using
  7. differential evolution
  8. Anhydrous Hydrofluoric and Chemical
  9. Bio- Diesel
  10. Bisphenol A
  11. Carbon Monoxide
  12. Carbon Tetrachloride
  13. Cinnamaldehyde
  14. Diethyl Malonate
  15. Dynamics of Reactive distillation column
  16. Epichlorohydrin
  17. Erythromycin Stearate
  18. I-Butene
  19. Iso- Butyl Acetate
  20. Mannitol
  21. Methyl Ethyl Ketone
  22. Nitromethane
  23. Online Optimisation
  24. Optimisation of Ammonia Reactor
  25. Optimisation of Separation process for a
  26. Multicomponent Mixture
  27. Oxobiodegradable Plastics
  28. Para Anisaldehyde
  29. Para Cresol
  30. Paracetamol
  31. Phthalic Anhydride
  32. Pyridine
  33. Recovery of Cu and Ni from Electroplating industry
  34. effluent
  35. Saccharin
  36. Succinic Acid
  37. Thiophene
  38. Toluene
  39. Tri-Butyl Phosphate

2008

  1. 2 chloro ethanol
  2. Acetophenone
  3. Acrylonitrile
  4. Adipic Acid
  5. Ammonium Nitrate
  6. Boric Acid
  7. Benzyl Acetate
  8. Bio oil
  9. Curcumin
  10. Diethyl ether
  11. Desalination Of Sea
  12. Water
  13. Dextrose
  14. DMSO
  15. Ethyl Amine
  16. Ethyl Acetate
  17. Ethyl Tertiary Butyl Ether
  18. Ethyl benzene
  19. Ethylene Glycol
  20. Furfural
  21. Glycerine
  22. hexamethylene Diamine
  23. Hydrazine
  24. iso Octane
  25. lactic Acid
  26. Natural Gas liquids
  27. n-Butyl Acetate
  28. Nitric Acid
  29. Penicillin
  30. Pentanol
  31. P- nitrotoluene
  32. Research of CS137
  33. Sorbic Acid
  34. Sulfuric Acid
  35. Thionyl Chloride
  36. Thiourea

2007

  1. Acrilo Nitrile
  2. Acetaldehyde
  3. Adipic Acid
  4. Ammonium Sulphate
  5. anthra quinone
  6. Ascorbic Acid
  7. Benzaldehyde
  8. Benzene
  9. Carbon tetra chloride
  10. Cinnamaldehyde
  11. Dichloro Difluromethane
  12. Dimethyle aniline
  13. Dimethyle Ether
  14. Dimethyl Sulfate
  15. DMT
  16. Glyoxalic Acid
  17. Isobutyl benzene
  18. Isobutylene
  19. Linear Alkyl Benzyl sulfonate
  20. Maleic Anhydride
  21. Methanol
  22. Monochloro Benzene
  23. Methyl tertiary Butyl Ether
  24. Mono Sodium Glutamate
  25. Ortho Chloro Phenol
  26. Oxalic Acid
  27. Propylene
  28. Penta Erythritol
  29. Phenyl Ethyl Alcohol
  30. Potassium Sulfate
  31. Terephthalic Acid
  32. Trichloro Ethylene
  33. Trioxane
  34. Vinyl Chloride

2006

  1. 2- Amino 5-chlorobenzoic
  2. Acid
  3. 2-t-butyl phenol
  4. Acetonitrile
  5. Acetyl Chloride
  6. Calcium Phophate
  7. Chloro difluoromethane
  8. Chlorosulphonic Acid
  9. Cumen
  10. Diamyl phthalate
  11. Ethanol Amine
  12. Formic acid
  13. Glycine
  14. HFCS
  15. Hydrogen Peroxide
  16. Hydroquinone
  17. Maleic anhydride
  18. Malonic Acid
  19. Methane Sulphonyl Chloride
  20. Methyl Pyridine
  21. Nonyl Phenol
  22. Nylon 6
  23. OCPNA / PCONA
  24. o-nitrophenol
  25. Parathion
  26. Phenol formaldehyde Resin
  27. Phenyl Acetic Acid
  28. Phosphoric Acid
  29. para toluidine
  30. t-butanol
  31. Tetra hydrofuron
  32. Tri fluraline
  33. Vinyl acetate Monomer

2005

  1. Acetic Anhydride
  2. Acetyl Chloride
  3. Aniline
  4. Aspirin
  5. Benzoic acid
  6. Biodiesel
  7. Butenediol
  8. Butyl Alcohol
  9. Cement
  10. Cinnamic Acid
  11. Citric Acid
  12. Diacetone Alcohol
  13. Ethylene Glycol Monostearate
  14. Ethanol from Molasses
  15. Ethyl Cholride
  16. Ethylene Oxide
  17. Formaldehye
  18. Glyoxal Liquid 40%
  19. IPA
  20. Isoamyl Alcohol
  21. Methyl Chloride
  22. Methyl Cyclopropyl Ketone
  23. Monochlorobenzene
  24. Napthalene
  25. Nitrobenzene
  26. Nylon 66
  27. Oleic Acid
  28. Polypropylene
  29. Polyster
  30. Polystyrene
  31. SBR
  32. Soda ash
  33. Sodium Sulfate
  34. t-butyl cyclohexyl acetate
  35. Urea

2004

  1. 2-Amino Benzonitrile
  2. Acetic acid
  3. Adiponitrile
  4. Allyl Chloride
  5. Amyl Bromide
  6. Benzene Sulfonic Acid
  7. Benzophenone
  8. Caustic Soda
  9. Chlorobezaldehyde
  10. Chloroform
  11. Ethylene dichloride
  12. Hexafluoro Phosphoric Acid
  13. Metaphenoxy benzyl Alcohol
  14. Niacine
  15. Nitric Acid
  16. ONCB/ PNCB/ MNCB
  17. Paramethxyphenol Acetic
  18. Acid
  19. Pectin
  20. Phenol
  21. Salicylic Acid
  22. Styrene
  23. Sulphanic Acid
  24. Toluene
  25. Trimethoprine

DISTINGUISHED ALUMNI

 

1) Name of Alumnus: Nikunj Tanna

Current Job Title: Lead Sales Technical Support (Gas Processing Department)

Current Employer: UOP Malaysia Sdn. Bhd. – A Honeywell Company

 

Achievements in the field of Chemical Engineering:

 

Patents:

Nikunj Tanna, Xiaoming Wen; patent application filed on optimization of UOP’s Gas Processing & Treating technologies; Application No.: 62/334,958. Filed on May 11th, 2016.

Nikunj Tanna, United States Patent No.: US 9,334,455 B2, Date of Patent: May 10, 2016.

 

Technical Publications:

Nikunj P. Tanna; S. Mayadevi (2007); Analysis of a Membrane Reactor: Influence of Membrane Characteristics and Operating Conditions; International Journal of Chemical Reactor Engineering, Vol. 5, A5.

Tanna, N., P.; Mayadevi, S.; Performance Analysis of Membrane Reactor for Reversible Reactions; Indian Chemical Engineer, Vol. 47/No. 3; July – September 2005; Pp.195-198.

 

Academic Association:

Life Member of IIChE

Adjunct Lecturer at Universiti Teknologi PETRONAS, Malaysia; for Separation Processes

External Examiner at Universiti Teknologi PETRONAS, Malaysia; for Final Year Projects

 

 

2) Name of Alumnus: Mr. Amish Shah (Pass out year 1999)

Currently Sr Vice President at Reliance Industries Ltd. 

Post BE he has worked with Exxon Mobil group 

Has attended few executive leadership programs at University of North Carolina and Ashridge University UK. 

 

 

3) Name of Alumnus: Dhaval Trivedi

PG Course: Master in Engineering Management

School: Duke University

Duke Graduation Year: December 2014

DJSCE Graduation Year: May 2013

 

Current Position: 

Dhaval is part of TTS Analyst Program at Citi, which provides him accelerated integral rotations into Citi's core businesses. He was consistently rated top of the batch for 2 years upon his joining Citi in 2015. He currently works at the Citigroup Global Headquarters in New York City.

Citi Treasury and Trade Solutions (TTS) business enables client success by providing an integrated suite of Cash Management and Trade Finance services to 99 of the Fortune Global 100 companies, 700 public sector entities, over 400 of the top 500 banks, 200 of the top 350 asset managers, and the top 10 insurance companies.

TTS processes $600Bn in Trade flows every year, $3Trillion of client payments are executed daily through TTS and manages $380Bn of client liquidity.

Rank
RANK NAME OF THE STUDENT YEAR
Second Sachin Kamath MAY 2011
Seventh Ameya Thakurdesai MAY 2011
Second Framurz Patel MAY 2010
Fifteenth Rahul Shah MAY 2009