Atmiya University

About Department

Vision & Mission

Objectives

  • To intensify interdisciplinary knowledge blending technical and pure science.
  • To strengthen students communication and presentation skills.
  • To promote entrepreneurship
  • To enhance and promote research facilities benefitting to students research training and creativity
  • To provide access and expose students to research laboratories and industries in india.
  • To reach, enlighten, explore varied educational expertise and fostering skills and global competence.
  • To get benefited by profound expertise in the region by networking with neighbouring institutes.

Graduate Attributes

  • He/she will have value based knowledge with integration of process safety considerations with environmental concerns.
  • Chemical engineering knowledge: apply knowledge of Heat transfer, Mass transfer, Unit process and operations for the solution of industrial engineering problems.
  • Design and development of synthesis: Design novel routes of specialty chemicals and organic compounds using green chemistry approach for the sustainable environment.
  • Modern technique practice: select and utilize appropriate analytical, chemical and physical techniques, resources and instruments to identify and characterize unknown chemical substances.
  • Life-long learner.

Program Educational Outcomes

Our programme will produce Graduates who will attain following PEOs after few years of graduation

  • PEO1: Breadth and depth of domain knowledge: To develop strong fundamental knowledge of chemical engineering and chemistry as per current needs.
  • PEO2: Practice, Operation and usage of modern tools and technology: To be familiar with usage, practice and operation of modern tools and technology.
  • PEO3: Research, numeracy and scholarship: To categorize literature review and apply knowledge to plan new research methodologies in the field of chemistry and chemical engineering.
  • PEO4: Professional capacity and passion of learning: To enhance professional capacity and love learning skills.
  • PEO5: Global, moral and aesthetic sustainability: To be enrich with moral and aesthetic values for global sustainability.

Program Outcomes

After completion of the programme the Graduate will be able to:

  • PO 1: Develop fluency for the basics of chemical engineering including unit operation, mechanical operation, fluid mechanics and heat transfer operations.
  • PO 2: Interpret the fundamental concepts chemistry including polymer, petroleum, dyes, pharmaceuticals, organic, analytical and medicinal chemistry
  • PO 3: Know and follow the proper procedures and regulations for safe handling and use of chemicals
  • PO 4: Demonstrate the ability to apply the fundamental chemistry knowledge at an advanced level
  • PO 5: Able to use modern instrumentation and classical techniques, to design experiments, and to properly record the results of their experiment in chemistry domain
  • PO 6: Ability to use the techniques, skills, and modern engineering tools necessary for engineering practice
  • PO 7:Interpret chemical information from peer-reviewed publications
  • PO 8: Develop students as an effective researcher at 360°
  • PO 9: Recognition of the need for and an ability to engage in life-long learning
  • PO 10: Communicate chemistry topics effectively, both verbally and in writing
  • PO 11: Understand the ethical, historic, philosophical and environmental dimensions of problems and issues facing chemists
  • PO 12:Broad education necessary to understand the impact of chemistry and chemical engineering solutions in a global, economic, environmental and societal context

Program Specific Outcomes

PSO-Side Heading PSO

no.

PSO Detail
Fundamental Knowledge PSO1 Develop skills of chemical engineering including unit operation, unit processes, reactor designing, process calculation, process control and mathematical modelling.
PSO2 Interpret the fundamental concepts of chemistry including organic, physical, inorganic, analytical, polymer, petroleum, dyes, pharmaceuticals, medicinal and material science.
Technical Skill PSO3 Know and follow the standard operating procedures and safety regulations for effective handling and use of chemicals.
PSO4 Demonstrate the ability to apply the chemistry knowledge at an advanced level.
Research Skill PSO5 Able to use modern instrumentation and classical techniques, to design experiments and to properly record the results of their experiment in chemistry and chemical engineering domain.
PSO6 Ability to use the techniques, skills and modern engineering tools necessary for engineering practice.
Critical Thinking PSO7 Interpret chemical information from peer-reviewed publications.
Effective Communication PSO8 Communicate chemistry and chemical engineering topics effectively, both verbally and in writing.
Self directed and life−long learning PSO9 Recognition of the need for and an ability to engage in life-long learning
Ethics PSO10 Understand the ethical, historic, philosophical and environmental dimensions of problems for global solutions in an economic, environmental and societal context.

Faculty profile

Er. Ravi S. Tank



Head
M.Sc. (Environment), M.Sc. (IT) B.E. Chemical
Exp:22 Years


Dr. Viral H. Kariya



Assi. Prof.
Ph. D. M.Sc. (Pharm. Chemistry), B.Ed.
Exp:19 Years


Dr. Govind V. Vagadiya



Assi. Prof.
Ph.D. M.Sc. (I.C) B.Ed
Exp:10 years


Er. Dhaval A. Tank



Assi. Prof.
M.Tech (Chemical Engineering), B.E (Bio-Technology)
Exp:11 Year


Dr. Prashant S. Gajera



Assi. Prof.
Ph.D.(Chemistry) M.Sc. (IC), B.Ed.(M&S)
Exp:8 Years


Scope

  • Pharmaceutical Industries
  • Petroleum Refineries
  • Petrochemical Industries
  • Cement Industries
  • Paint Industries
  • Polymer Industries
  • Textile Industries
  • Ceramic Industries
  • Pulp and Paper Industries
  • Dyes and Dyeing Industries
  • Electroplating Industries
  • Water treatment Plants
  • Academics etc.

Research and Publication

Name of Faculty/Student Title of Research Paper Link of the published paper
Er. Ravi S. Tank Implementation Of Green Technology: Some Selected Industrial Case Studies https://www.researchgate.net/publication/276145836_Implementation_of_Green_Technology_Some_Selected_Industrial_Case_Studies
Energy From Industrial Waste As A Substituent For Fuel & Utilization Of Pollutant CO2Produced For Algae Formation https://www.researchgate.net/publication/276145781_Energy_from_Industrial_Waste_as_a_Substitute_for_Fuel_Utilization_of_Pollutant_CO_2_Produced_for_Algae_Formation
Economical Extraction Of Whey Protein From Milk https://www.ijser.org/onlineResearchPaperViewer.aspx?Economical-Extraction-of-Globulin-protein-And-milk-sugar-From-Whey.pdf
Treatment And Characterization Of Wastewater From Various Dyeing Industries Using Different Adsorbents http://www.tjprc.org/view_paper.php?id=1877
Implementation Of Green Technology: Some Selected Industrial Case Studies https://www.researchgate.net/publication/281832093_Implementation_of_Cleaner_Production_in_Laminating_Industries
Mr. Viral H. Karia Preparation Of Ionic Liquids And Synthesis Of DHPM Using Ionic Liquids http://www.isca.in/rjcs/Archives/v7/i2/10.ISCA-RJCS-2017-005.php
Water Droplet Study On Rough Artificial And Natural Surface  
Dr. Pankajkumar M. Akbari ”Synthesis And Biological Screening Of 2-Amino-6-Aryl- 4-{[(3′-Difluoromethoxy)-5′-(3″-Methyl)-4″-(2‴,2‴,2‴- Trifluoroethoxy)Pyridin-2″-Yl]Methoxyphenyl}- Nicotinonitriles.” https://www.wjpr.net/index.php/dashboard/abstract_id/8757
”Synthesis And Biological Screening Of N-(4-(6-Amino-5-Cyano-4-Aryl-Pyridin-2-Yl)Phenyl)Cyclopropane Carboxamide” https://www.ijraset.com/fileserve.php?FID=16173
“Synthesis And Biological Evaluation Of N-(4-(5-Aryl-4,5-Dihydro-1h-Pyrazol-3-Yl)Phenyl)Cyclopropane Carboxamide” https://www.ijraset.com/fileserve.php?FID=16330
“Treatment And Characterization Of Wastewater From Various Dyeing Industries Using Different Adsorbents” https://www.researchgate.net/publi
cation/273636430
Dr. Govind V. Vagadiya Synthesis, Characterization And Biological Activity Studies Of Substituted 2-Amino-3-Ethoxycarbonyl-5-Oxo-4-(Substituted Phenyl) -4H, 5H–Pyrano-[3, 2-C]-Chromene www.joac.info/ContentPaper/2015/1-5.pdf
Synthesis And Antimicrobial Activity Of 2-{[(4’-Arylidine-5’oxo-2’ Phenyl) Imidazolyl]-1’-Yl}-3-Keto-1,5-Dimethyl-2-Phenyl Pyrazole www.joac.info/ContentPaper/2019/1-15-8-1-52-12.pdf
Synthesis And Antimicrobial Activity Of 2-{[(4′-Arylidine-5′-Oxo-2′-Phenyl)Imidazolyl]-1′-Yl}-3-(4-Hydroxyphenyl) Propanoic Acids http://www.joac.info/ContentPaper/2019/28-8-2-44-18.pdf
Synthesis, Characterisation And Biological Activity Studies Of Substituted 6H-12H-Benzopyrano [4, 3-B] Quinolin-6-One https://scholar.google.co.in/scholar?oi=bibs&cluster=6629849029533082665&btnI=1&hl=en
Mr. Anand V. Khistariya Dynamic Behaviors Of Water Droplet Impacting Antiwetting Plant Leaves http://www.isca.in/rjcs/Archives/v9/i2/3.ISCA-RJCS-2018-074.pdf
Synthesis And Characterization Of Novel Trisubstituted N-(2-Methoxy-4 Nitrophenyl)-1-Phenyl-5-Aryl-1H-Pyrazol-3-Amine Derivatives. http://chemistry-journal.org/dnload/Mahesh-M-Savant-Ravi-S-Tank-Anand-V-Khistariya-and-Faldu-Darshak/CHEMISTRY-JOURNAL-CHJV06I10P0893.pdf
Synthesis Of Carboxamide And Sulfonamide Bearing Novel Pyrazolopyridones. http://www.isca.in/rjcs/Archives/v7/i3/3.ISCA-RJCS-2017-008.pdf
Dr. Mehul L. Savaliya Eco-Friendly Process For Preparation Of Biodiesel From WFO Over MTSA-Si Catalyst: An Innovative Approach For The Utilization Of Side Product https://www.sciencedirect.com/science/article/pii/S1226086X18301576
A Simple And Sustainable Process For The Preparation Of Fuel Grade Esters Using PE-Si Composite: A Reusable Catalytic System https://www.sciencedirect.com/science/article/pii/S0960148117301593
A Simpler And Highly Efficient Protocol For The Preparation Of Biodiesel From Soap Stock Oil Using A BBSA Catalyst https://pubs.rsc.org/en/content/articlelanding/2015/ra/c5ra13422f#!divAbstract
Current Trends In Separation And Purification Of Fatty Acid Methyl Ester https://www.tandfonline.com/doi/abs/10.1080/15422119.2013.872126
Cutting Cost Technology For The Preparation Of Biodiesel Using Environmentally Benign And Cheaper Catalyst https://link.springer.com/article/10.1007/s10562-016-1861-z
Cellulose Sulfuric Acid Catalyzed Esterification Of Biodiesel Derived Raw Glycerol To Medium Chain Triglyceride: The Dual Advantage https://link.springer.com/article/10.1007/s10562-014-1275-8
A Notice On Newly Synthesized Silica-Induced Boron Trisulfonic Acid Catalyst Towards Biodiesel Synthesis From Refined Soybean Oil https://link.springer.com/article/10.1007/s11164-014-1885-1
A Concise Review On Acid, Alkali And Enzyme Catalyzed Transesterification Of Fatty Acid Esters Of Glycerol (FAEG) To Fatty Acid Methyl Ester (FAME) Fuel http://www.chemijournal.com/vol1Issue3/13.html
An Experimental Investigation Into Methyl Laureate Production Via Direct Esterification Of Solid Fatty Acid By Using Amylum Sulfuric Acid: An Efficient, Biodegradable, And Recyclable Solid Acid Catalyst https://link.springer.com/article/10.1007/s11164-014-1548-2
A Study Of Dairy Effluent Of Various Products On The Basis Of Chemical Oxygen Demand Value And A Comparative Study Between Common ETP With Respect To Other Plants And Possible Load Reduction Method http://www.irphouse.com/ijca/ijcav4n3_08.pdf
Measurement And Evaluation Of Total Dissolved Solid (Tds) From Dairy Etp And It’s Comparison With Other Plants And Possible Load Reduction Method https://www.tsijournals.com/articles/measurement-and-evaluation-of-total-dissolved-solid-tds-from-dairy-etp-and-its-comparison-with-other-plants-and-possible.pdf
A Study Of Dairy Effluent On The Basis Of Do Value And A Comparative Analysis Of Cetp With Respect To Other Plants And Possible Load Reduction Methods https://dokumen.tips/amp/documents/a-study-of-dairy-effluent-on-the-basis-of-do-value-and-a-study-of-dairy-effluent.html
A Study Of Dairy Effluent Of Various Products On The Basis Of Oil And Grease Value And A Comparative Study Between Common Etp With Respect To Other Plants And Possible Load Reduction Method https://www.tsijournals.com/articles/a-study-of-dairy-effluent-of-various-products-on-the-basis-of-oil-and-grease-value-and-a-comparative-study-between-commo.pdf
A Study Of Dairy Effluent Of Various Products On The Basis Of Bod Value And A Comparative Study Between Common Etp With Respect To Other Plants And Possible Load Reduction Method http://www.irphouse.com/ijca/ijcav4n3_08.pdf
Chemical Transformation Of Triglycerides Of Fatty Acid Of Pongamia Pinnata Seed To Fatty Acid Methyl Esters By Microwave Irradiation https://www.semanticscholar.org/paper/Chemical-Transformation-of-Triglycerides-of-Fatty-Savaliya-Dholakiya/00ec4aacffb7676327511e3362d3496c12fc80e7

Event

Sr. No. Event Name Event Date Photo Gallery
1 Industrial Visit – Zydus Life Sciences, Ankleshwar 2022-12-07 View
2 Industrial Visit – Lupin Ltd., Ankleshwar 2022-12-07 View
3 Teachers Day Celebration 2022-09-05 View
4 Student Induction Program 2022-07-30 View
5 Alumni Talk 2022-07-25 View
6 Science Popularization Activity 2022-07-07 View
7 Amul Dairy Visit 2022-04-01 View
8 Industrial Instrumentation Training Program 2022-03-15 View
9 IGNITE 2022-03-15 View
10 A One Day National Level Poster Presentation Competition & Exhibition 2022-03-04 View
11 IGNITE 2022-03-02 View
12 Tata Chemicals 2022-02-27 View
13 Sugam Polytech Pvt. Ltd 2022-02-27 View
14 Students Participated in Certificate Course on Cleaner Production Assessor 2022-02-25 View
15 Vasant Panchami-ShikshapatriJayanti-2022 Essay Competition 2022-02-05 View
16 Atmiya University - 2nd Convocation 2022-01-11 View
17 Expert talk on Multicomponent Distillation – FUG Method 2022-01-07 View
18 Dhanurmas Celebration at Haridarshanam 2022-01-05 View
19 Motivational Speaker - Dr. Kaushik Oza 2021-12-30 View
20 IGNITE 2021-12-28 View
21 Blood Donation Camp 2021-12-27 View
22 Awareness talk - Indian Armed Forces Flag Day 2021-12-15 View
23 M.Sc Sem-III Tour to Mono Steel India Pvt. Ltd. Dhamdaka 2021-10-13 View
24 TY B.Sc Industrial Tour to Bhadreshwar OPG Power Plant 2021-10-13 View
25 Student Induction Program 2021-07-28 View
26 Atmiya Sports Event 2019-01-11 View
27 A2TMC-2018 2018-12-23 View
28 Understanding the importance of APIs in the pharmaceutical value chain and industrial Hazards at Zydus Life sciences Ltd., Ankleshwar View

Department Infrastructure

Placement

SR. NO. STUDENT NAME NAME OF COMPANY Year
1 Mayani Jaydeep Prayosha Healthcare Pvt. Ltd. 2020
2 Rajodiya Mehul Fishfa Biogenics Pvt. Ltd. 2020
3 Pagdar Navnit Ctx Life Sciences Pvt. Ltd 2020
4 Patel Maulik Lupin Ltd. 2020
5 Khanpara Nikhil Lupin Ltd. 2020
6 Parekh Akil Lupin Ltd. 2020
7 Bhut Dhruvit Lupin Ltd. 2020
8 Sudani Kevin Lupin Ltd. 2020
9 Kachchhi Mohit Lupin Ltd. 2020
10 Rakholiya Nikunj Lupin Ltd. 2020
11 Jasani Akash Lupin Ltd. 2021
12 Solanki Yagnik Lupin Ltd. 2021
13 Aghera Rajan Tata Rallis 2021
14 Joshi Parth Tata Rallis 2021
15 Jay Dangi PASAND Speciality Chemical 2022
16 Gajera Nikhil Indian Farmers Fertiliser Co-operative limited 2022
17 Vasjaliya Denish O2h 2022
18 Dobariya Femil Reliance industries limited 2022
19 Dobariya Nikunj Zydus Lifesciences Limited 2022
20 Gadara Rutvik Reliance industries limited 2022
21 Garala Jay Jayant Agro-Organics Limited 2022
22 Hathaliya Shyam Reliance industries limited 2022
23 Savaliya Chintan PI Industries Ltd. 2022
24 Khimnani Jaimish PI Industries Ltd. 2022
25 Kathrotiya Jemish Rallis India Limited 2022
26 Kundaliya Sagar Anlon Healthcare Pvt. Ltd. 2022
27 Mehta Hardik PI Industries Ltd. 2022
28 Pindoriya Parth Agrocel Industries Pvt. Ltd. 2022
29 Santoki Jeet Zemon 2022
30 Raiyani Yugraj PI Industries Ltd. 2022
31 Baldha Dixit Lupin Ltd., Ankleshwar 2023
32 Changela Pranav Lupin Ltd., Ankleshwar 2023
33 Jesadia Keval Lupin Ltd., Ankleshwar 2023
34 Patel Brijesh Lupin Ltd., Ankleshwar 2023

Achievements

SR. NO. STUDENT NAME ACHIEVEMENT DATE & DETAILS
1 Dadhaniya Bhavikkumar Hareshbhai,
Dalsaniya Udaykumar Chandulal,
Hirani Sandip Dilipbhai
1st Rank Participated in “Abhivyakti” in ATMIYA ABHIGYAN-2020, one day National level symposium held at Atmiya University on 28th February, 2020
2 Mehta Mohit Sureshbhai 2nd Rank Participated in “Prashnottari” in ATMIYA ABHIGYAN-2020, one day National level symposium held at Atmiya University on 28th February, 2020
3 Jadeja Luckyrajsinh Ghanshyamsinh ‘A’ Grade Passed the Certificate ‘C’ in National Cadet Corps with ‘A’ Grade Examination held in 2021 under the authority of Ministry of Defence, Government of India.
4 Kavar Anand 1st Rank Participated in “Manthan – Ideathon” in 17th ISTE State Annual Students Convention 2021 held at Atmiya University on 28th February, 2022
5 Hadvani Parth 1st Rank Participated in “Manthan – Ideathon” in 17th ISTE State Annual Students Convention 2021 held at Atmiya University on 28th February, 2022
6 Vasjaliya Denish Topper of the STEREOCHEMISTRY Course on NPTEL 2022