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Sipalin Nayak

Research & Application Center

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Sipalin Nayak

Center Coordinator

Project Manager, Centurion University, GT- Tech

Mukundjee Pandey

ASST. PROF. IN MECHANICAL DEPARTMENT

Specialist in CFD and FEA analysis with Simulia, X-Flow

Ravi Kumar

Project Executive

Dassault Certified in Mechanical Design, Sheetmetal Designer, Platform Manager, Business and Industry innovators

Rahul Singh

Project Executive

Proficient in CATIA AEC

Jagannath Reddy

Project Executive

Proficient in System Engineering and Dymola

Kalpesh Swain

Project Executive

Proficient in CATIA Mechanical Design and CATIA Composite

Pradeep Kumar

Project Executive

Proficient in CATIA and Delmia

Shubham Srivastav

Project Executive

Proficient in System Engineering and Dymola

N.Laxmidhar Reddy

Project Executive

Dassault Certified in Mechanical Design and Collaborative Business Innovator

Chandan Kumar Jena

Project Executive

Dassault Certified in Mechanical Design and Collaborative Business Innovator

Kula Bhusan Pradhan

LECTURER

Mechanical Engineering

Outcomes:

Digital Library for E-Automobile such as:
1. E-Rickshaw (With different Variants as per the Market Requirements)
2. ESCV (With Different Variants)
3. E-Bike
4. E-Cycle
End to end digital product development through the industry GATE process.
Students are ready to work with OEM- Automotive, Aero, Process Industry, Heavy Machinery & their Tier-1, Tier2.
One Physical Prototype of each variant of E-rickshaw and ESCV
Competency development through Dassault Certification.

Focus Areas:

Building a Physical Prototype

Revenue Generation

Building Competency

Design Patents

Completed Projects / Products / Assignments:

E-Rickshaw

Design & Development of Smart mobility - E-Rickshaw

End to end product designed digitally (used CATIA & DYMOLA) validated digitally (used SIMULIA) & finally launched digitally used (CATIA) using multi-disciplinary apps of 3D Experience Platform.
Design & development of Electric Rickshaw for 600kg passenger carrier (4+1 seater).
Low affordable mobility.

Product Specification

Overall dimension: 2800 *1000*1800 mm
Ground clearance: 250mm
Speed: 25 Kmph
Motor: BLDC Motor (48V, 7.5 KW) 900 rpm
Range: 40-60 km/charge
Battery Capacity: SLA /SMF lead-acid battery (4 nos, 12V, 200Ah)
Kerb weight: 321 Kg
Gross vehicle weight: 600 Kg
Seating capacity: 4+1

ESCV

Design & Development of 1.5 Ton Small Commercial Passenger Electric Vehicle

Design & development of Electric Vehicle for 1.5 Ton passenger carrier (7+1 seater) Small commercial vehicle (SCV)
Low cost and up to last-mile distribution with “GO GREEN the SAVE ENVIRONMENT” for rural and urban sectors
Use of digital multi-disciplinary technology using the 3D Experience Platform of Dassault Systemes.
Commercialize with start-ups, Intellectual Property, and/or generate employability.

Product Specification

Overall dimension: 3790 *1500*1845 mm
Wheelbase: 2100 mm
Ground clearance: 200mm
Speed: 40-50 KMPH
Motor: BLDC Motor (72V, 7.5 KW) 2000-6000 rpm
Range: 80-100 km/charge
Battery Capacity: SLA /SMF lead-acid battery (6 nos, 12V, 200Ah)
Kerb weight: 700 Kg
Gross vehicle weight: 1500 Kg
Turning radius: 4300 mm
Seating capacity: 7+1

3D Printer

Design & Development of Low Affordable Cost plastic 3D Printer Machine for domestic usages

Concept to commercialization – Mechanical & electrical system Design using CATIA, Simulate & manufactured using DELMIA of Plastic 3D Printer machine for home, schools, and universities.

Product Specification

Technology: Fused Deposition Modelling
Print Size: 210mm * 210mm * 210mm
Compatible Materials: PLA, ABS, HIPS Etc
Material Colors Available: More than 30 colors
Print Resolution: 0.1 mm/100 Microns
Hot-end Type: Single Extruder
Nozzle-Type: Brass
Nozzle Max. Temp.: 260°C
Working Ambient Temp.: 15-40°C
Connectivity: SD-Card/USB
Power: Input Voltage: 220 V, 50Hz Input/ Current: 5-6 Amp.
Max. Bed Temp.: 100°

E-Rickshaw (Goods Carriers)

Design & Development of E-Rickshaw Goods Carriers

End to end product designed digitally (used CATIA & DYMOLA) validated digitally (used SIMULIA) & finally launched digitally used (CATIA) using multi-disciplinary apps of 3D Experience Platform.
Design & development of Electric Rickshaw for 600kg passenger carrier (4+1 seater).
Low affordable mobility.

Product Specification

Overall dimension: 2800 *1000*1800 mm
Ground clearance: 250mm
Speed: 25 Kmph
Motor: BLDC Motor (48V, 7.5 KW) 900 rpm
Range: 40-60 km/charge
Battery Capacity: SLA /SMF lead-acid battery (4 nos, 12V, 200Ah)
Kerb weight: 321 Kg
Gross vehicle weight: 600 Kg

Product Specification

Overall dimension: 2800 *1000*1800 mm

Ground clearance: 250mm

Speed: 25 Kmph

Motor: BLDC Motor (48V, 7.5 KW) 900 rpm

Range: 40-60 km/charge

Battery Capacity: SLA /SMF lead-acid battery (4 nos, 12V, 200Ah)

Kerb weight: 321 Kg

Gross vehicle weight: 600 Kg

Seating capacity: 4+1

Design & Development of Smart mobility - E-Rickshaw

End to end product designed digitally (used CATIA & DYMOLA) validated digitally (used SIMULIA) & finally launched digitally used (CATIA) using multi-disciplinary apps of 3D Experience Platform.
Design & development of Electric Rickshaw for 600kg passenger carrier (4+1 seater).
Low affordable mobility.

Product Specification

Overall dimension: 3790 *1500*1845 mm

Wheelbase: 2100 mm

Ground clearance: 200mm

Speed: 40-50 KMPH

Motor: BLDC Motor (72V, 7.5 KW) 2000-6000 rpm

Range: 80-100 km/charge

Battery Capacity: SLA /SMF lead-acid battery (6 nos, 12V, 200Ah)

Kerb weight: 700 Kg

Gross vehicle weight: 1500 Kg

Turning radius: 4300 mm

Seating capacity: 7+1

Design & Development of 1.5 Ton Small Commercial Passenger Electric Vehicle

Design & development of Electric Vehicle for 1.5 Ton passenger carrier (7+1 seater) Small commercial vehicle (SCV)
Low cost and up to last-mile distribution with “GO GREEN the SAVE ENVIRONMENT” for rural and urban sectors
Use of digital multi-disciplinary technology using the 3D Experience Platform of Dassault Systemes.
Commercialize with start-ups, Intellectual Property, and/or generate employability.

Product Specification

Technology: Fused Deposition Modelling

Print Size: 210mm * 210mm * 210mm

Compatible Materials: PLA, ABS, HIPS Etc

Material Colors Available: More than 30 colors

Print Resolution: 0.1 mm/100 Microns

Hot-end Type: Single Extruder

Nozzle-Type: Brass

Nozzle Max. Temp.: 260°C

Working Ambient Temp.: 15-40°C

Connectivity: SD-Card/USB

Power: Input Voltage: 220 V, 50Hz Input/ Current: 5-6 Amp.

Max. Bed Temp.: 100°

Design & development of Low Affordable Cost plastic 3D Printer Machine for domestic usages

Concept to commercialization – Mechanical & electrical system Design using CATIA, Simulate & manufactured using DELMIA of Plastic 3D Printer machine for home, schools, and universities.

Ongoing Projects / Products / Assignments:

E-Rickshaw Goods Carrier Variant

GATE-0 (Customer or user Requirements)

GATE-1 (Parameter optimization in Dymola)

GATE-2 (Developing the CAD Model of E-rickshaw Goods Variant )

GATE-3 (Digital testing with simulia)

GATE-4 (Regulatory Certification)

E-Rickshaw Goods Carrier Variant

as per the GA Requirements

GATE-0 (Customer or user Requirements)

GATE-1 (Parameter optimization in Dymola)

GATE-2 (Developing the CAD Model of E-rickshaw Goods Variant )

GATE-3 (Digital testing with simulia)

GATE-4 (Regulatory Certification)

E-Rickshaw Goods Carrier

GATE-0 (Customer or user Requirements)

GATE-1 (Parameter optimization in Dymola)

GATE-2 (Developing the CAD Model of E-rickshaw Goods Variant )

GATE-3 (Digital testing with simulia)

GATE-4 (Regulatory Certification)

1.5 ton to 3-ton ESCV for Goods

and Passenger carriers

GATE-0 (Customer or user Requirements)

GATE-1 (Parameter optimization in Dymola)

GATE-2 (Developing the CAD Model of ESCV Goods & Passenger Variant )

GATE-3 (Digital testing with simulia)

GATE-4 (Regulatory Certification)

Eu-Rickshaw for Passenger

GATE-0 (Customer or user Requirements)

GATE-1 (Parameter optimization in Dymola)

GATE-2 (Developing the CAD Model of EU-Rickshaw Variant )

GATE-3 (Digital testing with simulia)

GATE-4 (Regulatory Certification)

E-Bike

GATE-0 (Customer or user Requirements)

GATE-1 (Parameter optimization in Dymola)

GATE-2 (Developing the CAD Model of E-Bike )

GATE-3 (Digital testing with simulia)

GATE-4 (Regulatory Certification)

E-cycle

GATE-0 (Customer or user Requirements)

GATE-1 (Parameter optimization in Dymola)

GATE-2 (Developing the CAD Model of E-Cycle Variant )

GATE-3 (Digital testing with simulia)

GATE-4 (Regulatory Certification)

Center Patents/ Design Patents/ Copyrights:

Under Progress.....

Design & Development of 1.5 Ton Small Commercial Passenger Electric Vehicle

Product Technical Specification:

Overall dimension: 3790 *1500*1845 mm

Wheelbase: 2100 mm

Ground clearance: 200mm

Speed: 40-50 KMPH

Motor: BLDC Motor (72V, 7.5 KW) 2000-6000 rpm

Range: 80-100 km/charge

Battery Capacity: SLA /SMF lead-acid battery (6 nos, 12V, 200Ah)

Kerb weight: 700 Kg

Gross vehicle weight: 1500 Kg

Turning radius: 4300 mm

Seating capacity: 7+1

Design & Development of Electric Bike

Product Technical Specification:

Overall dimension: 2,035 mm x 780 mm x 1,112 mm

Wheelbase: 1320 mm

Ground clearance:170mm

Speed: 80-100 KMPH

Motor: BLDC motor,3KW, Cast aluminum rotor

Range: 100-120 km/charge

Battery- 72V, 40Amp/h Li-ion

Kerb weight:200kg,

Gross Weight: 450kg,

Seat height: 780mm,

Seating capacity- 1+1

Publications:

S. Nayak, In silico analysis of mechanical properties of poly vinyl alcohol and Poly ethyl Urethane composite (Indian Journal of Natural Sciences, Ref. No 340).
S. Nayak, In silico Analysis of Thermal and Dielectric Properties of Polyacrylic Acid and Polyacrylochloride Composite (Indian Journal of Natural Sciences, Ref. No 375).
Truptimayee Behera, S. Nayak, Nibedita Nayak, In silico Analysis of Polyvinyl Alcohol and Polyacrylonitrile Compatibility in a Blend (Indian Journal of Natural Sciences, Ref. No 431).
Truptimayee Behera, S. Nayak, Nibedita Nayak, In silico Analysis of Gas Permeability Properties of Polyvinyl Alcohol and Polyacrylonitrile Composite(Indian Journal of Natural Sciences, Ref. No 432).
T Jaganatha Patro, S. Nayak, Nibedita Nayak, In silico Analysis of Mechanical Properties of Polyvinyl Alcohol and Polyacrylonitrile Composite(Indian Journal of Natural Sciences, Ref. No 433).
T Jaganatha Patro, S. Nayak, Nibedita Nayak, In silico Analysis of Thermal and Dielectric Properties of Polyvinyl Alcohol and Polyacrylonitrile Composite(Indian Journal of Natural Sciences, Ref. No 434).
S. Nayak and D.Bhattacharyay, In silico Analysis of Mechanical Properties of Polyacrylic acid and Polyacrylochloride Composite (Indian Journal of Natural Sciences, Ref.No 597).
S. Nayak and D.Bhattacharyay, In silico Analysis of Polyacrylic acid and Polybutylene isophthalate Compatibility in a Blend(Indian Journal of Natural Sciences, Ref.No 598).
S. Nayak and D.Bhattacharyay, In silico Analysis of Polyacrylic acid and Poly12a D glucose Compatibility in a Blend(Indian Journal of Natural Sciences, Ref.No 599).
S. Nayak and D.Bhattacharyay, In silico Analysis of Polyacrylic acid and Polyacrylochloride Compatibility in a Blend(Indian Journal of Natural Sciences, Ref.No 600).
S. Nayak and D.Bhattacharyay, In silico Analysis of Polyacrylic acid and Polyacrylonitrile Compatibility in a Blend(Indian Journal of Natural Sciences, Ref.No 601).
S. Nayak and D.Bhattacharyay, In silico Analysis of Polyacrylic acid and Polymethylacrylate Compatibility in a Blend(Indian Journal of Natural Sciences, Ref.No 602).