Space Technology Opportunity in India

Written By: Jagriti Shahi

Introduction:

Entrepreneurship in space technology in India has been gaining momentum in recent years. The Indian government has been actively promoting the development of the space sector, and private companies are playing an increasingly important role.

As the nation liberalizes its space sector, a diverse array of players are contributing to the burgeoning space ecosystem. Entrepreneurs are venturing into satellite manufacturing, pushing the boundaries of launch services, delving into space exploration, and exploring innovative solutions for satellite-based communication. The landscape is further enriched by collaborative efforts between private entities, government agencies, and academic institutions, fostering a dynamic environment for research and development.

In this context, it's crucial to explore the challenges and opportunities that define the entrepreneurial spirit in India's space technology sector. Regulatory hurdles, infrastructure development, and the need for sustained investments are among the challenges that entrepreneurs face. However, with increasing investor interest, a robust policy framework, and a commitment to fostering innovation, India's entrepreneurial ventures in space technology are poised to shape the nation's narrative in the cosmic domain. This dynamic interplay of public and private entities is not only propelling India's space capabilities but is also contributing to the global discourse on the commercialization and exploration of space.

Here are some key aspects of entrepreneurship in space technology in India:

Government Initiatives:New Space Policy: The Indian government has introduced policies to encourage private sector participation in space activities. The New Space India Limited (NSIL) was established to promote, commercially exploit, and transfer technologies developed by the Indian Space Research Organisation (ISRO).Liberalization: The government has liberalized the space sector, allowing private companies to undertake a wide range of space-related activities, including satellite launches, space exploration, and satellite communication services. (ISRO) Initiatives: Antrix Corporation: Antrix is the commercial arm of ISRO, and it collaborates with private players for the commercialization of space-related products and services.: SEED is a program initiated by ISRO to promote startups in the space sector by providing them with opportunities for collaboration and technology transfer.: NSIL is a central public sector enterprise (CPSE) under the Department of Space. It plays a crucial role in commercializing space products, technical consultancy services, and transfer of technologies.: ISRO has been actively engaging with startups, providing them access to its facilities, expertise, and technology.: The Department of Space in India oversees the country's space program. It may introduce schemes and programs to support space technology startups and entrepreneurs. (AIM): AIM, a flagship initiative of the NITI Aayog, supports innovation and entrepreneurship in various sectors. It may have programs and funding opportunities that space technology startups can explore. (NIF): NIF supports grassroots innovations and may provide support to startups working on innovative space technologies.

Private Space Companies:Startups: Several startups in India are focusing on various aspects of space technology. Some are involved in satellite manufacturing, launch services, data analytics from space, and more.Launch Services: Companies like Agnikul Cosmos, Skyroot Aerospace, and Pixxel are working on developing small satellite launch vehicles to provide cost-effective and flexible launch options.

Space Exploration and Research: Interplanetary Missions: ISRO has been actively involved in space exploration, and private companies are expressing interest in participating in future interplanetary missions.Research and Development: Private entities are engaging in research and development activities, contributing to advancements in satellite technology, propulsion systems, and other space-related technologies.

Satellite Manufacturing:Private Satellite Manufacturers: Companies like Exseed Space and Bellatrix Aerospace are involved in the manufacturing of satellites, catering to various purposes such as communication, Earth observation, and scientific research.

Communication Services:Telecommunication Satellites: Private companies are exploring opportunities to provide satellite-based communication services. This includes both broadband internet services and other communication solutions.

Funding and Investments:Investor Interest: The space technology sector in India has attracted attention from investors. Funding rounds for space startups have been on the rise, indicating confidence in the potential growth of the industry.

Collaborations and Partnerships:

Industry-Academia Collaboration: Partnerships between private companies, government organizations, and academic institutions are fostering innovation and research in the space sector.

The Indian space technology ecosystem is evolving, and with continued government support, entrepreneurial ventures in space technology are expected to play a crucial role in shaping the future of the Indian space industry.

The number of space tech startups in India has witnessed explosive growth, increasing by almost five times in just five years. Investments in the sector have also seen a sharp rise, from $17 million in 2019 to an estimated $124.7 million in 2023.

Commercialization of Space Activities: With India's proven track record in satellite launches and space technology, there is a substantial potential for the commercialization of space activities. The burgeoning demand for satellite-based services, including communication, arth observation, and navigation, opens up opportunities for private entities to actively participate in the space industry. As the cost of space access continues to decrease, private companies can explore ventures such as satellite manufacturing, space tourism, and satellite-based applications, contributing to economic growth and job creation.

International Collaborations: Collaborations with other space-faring nations present a promising avenue for India to augment its space capabilities. Joint ventures, knowledge exchange, and technology transfer can accelerate innovation and enhance the efficiency of space missions. ISRO has already established itself as a reliable partner for international launches, and expanding collaborative efforts can lead to shared resources, reduced costs, and a more diversified approach to space exploration. As India continues to engage in global partnerships, it can leverage collective expertise for ambitious endeavors beyond Earth's orbit.

Innovation in Space Technology: Investments in research and development (R&D) can catapult India into the forefront of space innovation. Emphasis on cutting-edge technologies such as artificial intelligence, advanced materials, and propulsion systems can revolutionize space missions. The development of reusable launch vehicles, like the ongoing efforts in creating a Reusable Launch Vehicle (RLV), can significantly reduce launch costs, making space exploration more sustainable. Encouraging a culture of innovation, fostering collaboration between academia and industry, and providing incentives for R&D initiatives can fuel breakthroughs in space technology.

Space Applications for Sustainable Development: Leveraging space technology for sustainable development on Earth is an untapped frontier. Utilizing satellite data for precision agriculture, disaster management, environmental monitoring, and resource mapping can contribute to addressing pressing global challenges. By integrating space-based solutions into sectors such as agriculture, healthcare, and urban planning, India can harness the power of space technology for inclusive and sustainable development, bringing tangible benefits to its citizens and contributing to global initiatives.

Expansion of Interplanetary Exploration: Building on the success of Mars Orbiter Mission (Mangalyaan), India has the potential to expand its interplanetary exploration efforts. Initiatives for exploring other celestial bodies, such as Venus or asteroids, can contribute to humanity's understanding of the solar system and beyond. A strategic focus on ambitious interplanetary missions can position India as a key player in the broader scientific community and foster international collaboration in the exploration of the cosmos.

Trending Technologies in India's Space Industry:

Nanotechnology: The integration of nanotechnology in space technology has the potential to revolutionize spacecraft design, materials, and instrumentation. Nanosatellites, with their miniaturized components, are becoming increasingly popular for cost-effective and innovative space missions. India can leverage nanotechnology for lightweight yet robust spacecraft, enhancing mission efficiency and scientific capabilities.

Companies: Nano-Tech SpA, Kalva Nanotech

Artificial Intelligence (AI) and Machine Learning (ML): AI and ML are playing a pivotal role in data analysis, image processing, and autonomous decision-making in space missions. India can explore AI applications for real-time data interpretation, automated navigation, and predictive maintenance of spacecraft. Incorporating machine learning algorithms into Earth observation data analysis can significantly enhance the understanding of environmental changes.

Companies: Aadyah Aerospace, Blue Sky Analytics

Quantum Computing: Quantum computing holds the promise of solving complex computational problems beyond the capabilities of classical computers. In the space sector, quantum computing can be utilized for optimizing mission trajectories, simulating quantum systems, and enhancing the security of communication channels. India's focus on quantum computing research can contribute to advancements in space-related computations.

Companies: QpiAI, BosonQ

3D Printing/Additive Manufacturing: The adoption of 3D printing in space technology can revolutionize the manufacturing process, enabling the production of complex and lightweight structures. India can benefit from 3D printing for rapid prototyping, cost-effective manufacturing of satellite components, and even on-demand production during long-duration space missions.

Companies: Agnikul Cosmos, EOS India

Blockchain Technology: Blockchain technology offers secure and transparent data management, making it applicable to space-based applications such as satellite communication, data storage, and secure information sharing. By incorporating blockchain, India can enhance the security and integrity of space-related data and transactions.

Companies: SpaceTime Labs, Aryaka Networks

Solar Sail Technology: Solar sails, propelled by the pressure of sunlight, offer a sustainable and efficient means of propulsion for spacecraft. This technology can be harnessed for deep-space exploration, enabling missions to travel vast distances with minimal fuel requirements. India's exploration programs can benefit from research and development in solar sail technology for extended-duration missions.

Companies: Indian Institute of Space Science and Technology (IIST), IIT Bombay - Aerospace Engineering Department

Hyperspectral Imaging: Hyperspectral imaging involves capturing a wide range of wavelengths in the electromagnetic spectrum. This technology is instrumental in Earth observation, resource mapping, and environmental monitoring. India can explore the integration of hyperspectral imaging in its satellite payloads for enhanced remote sensing capabilities.

Companies: Pixxel, Paras Defence & Space Technologies Ltd

Internet of Things (IoT) for Space: The application of IoT in space technology involves connecting devices and sensors on satellites and spacecraft to gather and transmit data. This interconnected network can facilitate efficient communication, data collection, and collaborative decision-making during space missions. India can explore IoT applications for enhanced space situational awareness and mission coordination.

Companies: Agnikul Cosmos

As India looks to the future, embracing these trending technologies will be crucial for maintaining its competitive edge in space exploration and satellite technology. By actively incorporating these innovations into its space programs, India can not only enhance mission success but also contribute to the global advancement of space technology. Collaborations with research institutions, startups, and the private sector will play a vital role in driving these technological advancements in India's space industry.

Challenges and the Way Forward:

Despite its successes, India's space program faces challenges such as increased competition, budget constraints, and the need for continuous innovation. To overcome these challenges, sustained government support, collaboration with private entities, and a focus on skill development in the space sector are crucial.

Increased Global Competition: The space industry is becoming increasingly competitive with the emergence of new players and the commercialization of space activities. To stay ahead, India must continuously innovate, streamline its processes, and invest in cutting-edge technologies. Developing a robust ecosystem for space startups and fostering public-private partnerships can enhance India's competitiveness in the global space market.

Budget Constraints: Despite commendable achievements, budget constraints pose a challenge for sustaining and expanding India's space endeavors. A consistent and increased allocation of funds to ISRO, along with exploring innovative funding mechanisms, will be crucial. Engaging with the private sector for joint ventures and commercial space activities can help alleviate financial constraints and promote economic sustainability in the long run.

Human Resource Development: The growth of India's space program necessitates a skilled workforce capable of handling complex missions. Investing in education and training programs in collaboration with academic institutions can ensure a steady supply of skilled professionals in fields such as aerospace engineering, astrophysics, and data sciences. This will not only address the current workforce requirements but also fuel future innovations in space technology.

Technological Advancements: Rapid technological advancements globally require India to stay at the forefront of innovation. Embracing emerging technologies such as artificial intelligence, quantum computing, and advanced propulsion systems will be essential. Establishing research and development centers dedicated to space technology innovation can facilitate the integration of these advancements into future missions.

Space Debris Management: The increasing number of satellites and space missions contribute to the growing issue of space debris. India needs to actively participate in international efforts to address space debris management, adopting sustainable practices in satellite design and end-of-life disposal. Research into debris removal technologies and international collaboration on space traffic management will be pivotal in ensuring the long-term sustainability of space activities.

Climate Change Monitoring: With the rising global concerns about climate change, space technology plays a crucial role in monitoring environmental indicators. India can take a leadership role in developing satellite-based solutions for climate monitoring, disaster response, and sustainable resource management. This requires a dedicated focus on Earth observation satellites, advanced sensors, and data analytics.

Enhanced Space Diplomacy: Strengthening space diplomacy is essential for India to expand its global influence in the space arena. Engaging in collaborative space missions, sharing scientific knowledge, and participating in international forums will enhance India's standing as a responsible space-faring nation. Forming strategic partnerships with countries interested in space exploration can open up new avenues for cooperation and joint missions.

Conclusion:

India's journey in space technology has been nothing short of remarkable, with ISRO consistently pushing the boundaries of innovation. As the nation continues to invest in space exploration, the opportunities for growth, collaboration, and technological advancements are boundless. The future holds exciting possibilities for India's space technology sector, positioning the country as a key player in the global space community.

About Global Launch Base:

Global Launch Base helps international startups expand in India. Our services include market research, validation through surveys, developing a network, building partnerships, fundraising, and strategy revenue growth. Get in touch to learn more about us.

Contact Info:

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All About BTech

BTech is also known as Bachelor of Technology. This is an undergraduate course for a period of 4 years. This course provides both theoretical and practical knowledge. To get admission into the BTech course the candidates must have completed their class 12 examinations with science background with minimum required marks. To pursue BTech some of the most common entrance tests are JEE Mains and JEE Advanced. Other than these there are many other entrance tests such as MHT CET, KCET, COMEDK, UGET, etc. Some of the popular BTech jobs include software engineer, civil engineer, mechanical engineer, software developer, automobile engineer, etc. Other than these graduates will also get chances as lecturers, subject matter experts, managers, researchers, etc. Some of the top recruiters hiring BTech graduates are TCS, IBM Global Services, HCL, Accenture, Intel, Apple, Microsoft, etc.

BTech Course Highlights

BTech Course Level - Undergraduate

BTech Full Form- B Tech Full Form is Bachelor of Technology

Best Colleges for BTech Courses - Jadavpur University, IIT Bombay, Accurate Group of Institutions IIT Delhi, DTU, Jamia Millia Islamia,  NIT Trichy,  VIT Vellore, SRM Institute of Science and Technology, etc.

B Tech Course Duration- 4 years

B.Tech Course Examination Type- Semester-wise

BTech Course Job Scope- Chemical Engineer, Mechanical Engineer, Computer Science Engineer, Research Associate, Professor

BTech Courses Entrance Exams- JEE Main, JEE Advanced, WBJEE, KEAM, MHT CET, AP EAMCET, CUET, KCET, TS EAMCET, and VITEEE

B Tech Course Specializations- Mechanical Engineering, Civil Engineering, Computer Science Engineering, Biomedical Engineering, Marine Engineering, Electrical Engineering, Aeronautical Engineering, etc.

Average BTech Course Salary- INR 4 LPA - 8 LPA

B Tech Course Top Recruiters- Google, Apple, Hindustan Unilever Ltd, ISRO, BHEL, NTPC and many others

What is the full form of BTech?

The full form of BTech is Bachelor of Technology. This is an undergraduate degree for a period of 4 years. There are a number of BTech specialisations available for students such as Civil Engineering, Electrical Engineering, Biomedical, Aeronautical, etc. 

In order to take Admission in BTech Course the aspirants are required to appear for several entrance exams such as JEE Mains and JEE Advanced to take Admission into the top IITs, NITs, etc. 

The graduates of BTech get a chance to work in different sectors such as mechanical engineer, Software engineer, Electrical engineer, Software Developer, Automobile engineer, etc. 

Career Options After BTech

As a BTech graduate it is very important to make the right choice. After completing BTech the four year Course many candidates go for MBA or PGDM degree. Check below the career options after Pursuing BTech:

IT & Software Job Profiles

Data Analyst - INR 6.5 LPA

Web Developer - INR 4.5 LPA

Mobile App Developer - INR 4.5 LPA

Software Engineer - INR 7.7 LPA

Data Scientist - INR 14.7 LPA

Data Engineer - INR 10.7 LPA

Automotive BTech Jobs

Automotive Engineer - INR 5.6 LPA

Production Engineer - INR 3.6 LPA

Design Engineer - INR 5.5 LPA

Aerospace BTech Jobs

Aerospace Engineer - INR 15.3 LPA

Satellite Design Engineer - INR 4.7 LPA

Aerodynamics Engineer - INR 9.8 LPA

Electrical & Electronics Job Profiles

Electrical Engineer - INR 4.6 LPA

Power Systems Engineer - INR 6.5 LPA

Electronics Design Engineer - INR 7.6 LPA

Mechanical BTech Jobs

Manufacturing Engineer - INR 6 LPA

Mechanical Design Engineer - INR 8.7 LPA

HVAC Engineer - INR 11 LPA

Civil BTech Jobs

Structural Engineer - INR 7.3 LPA

Transportation Engineer - INR 7.5 LPA

Construction Manager - INR 5.6 LPA

Top Recruiters

BTech Industries

Core Engineering (Mechanical, Civil, Electrical, etc.)

L&T

Tata Motors

Mahindra & Mahindra

Bharat Heavy Electricals Limited (BHEL)

Steel Authority of India Limited (SAIL)

Aerospace

Hindustan Aeronautics Limited (HAL)

Indian Space Research Organization (ISRO)

Mahindra Defence

Airbus

Boeing

Automotive

Tata Motors

Mahindra & Mahindra

Maruti Suzuki

Hyundai

Electrical & Electronics

Power Grid Corporation of India Limited (PGCIL)

NTPC

Siemens

Samsung

Oil & Gas

Indian Oil Corporation Limited (IOCL)

Bharat Petroleum Corporation Limited (BPCL)

Telecommunications

Bharti Airtel

Reliance Jio

Vodafone Idea

Tata Communications

IT/Software

TCS

Infosys

Wipro

Accenture

Which Is The Best Institute To Study Aerospace Engineering In India?

Are you passionate about airplanes, spacecraft, and exploring the skies? If so, pursuing a career in aerospace engineering could be your ticket to an exciting and fulfilling future. But with so many options available, where should you study aerospace engineering in India? Let's take a closer look at some of the best institutes offering this coveted program.

1. Indian Institute of Technology (IIT)

Known for its rigorous academics and world-class faculty, the Indian Institutes of Technology (IITs) offer top-notch aerospace engineering programs.

IIT Bombay, IIT Madras, and IIT Kanpur are among the leading IITs known for their excellence in aerospace engineering education.

With state-of-the-art facilities, research opportunities, and industry collaborations, IITs provide a comprehensive learning experience for aspiring aerospace engineers.

2. Indian Institute of Space Science and Technology (IIST)

If your passion lies in space exploration and satellite technology, the Indian Institute of Space Science and Technology (IIST) is the place to be.

Located in Thiruvananthapuram, Kerala, IIST offers specialized programs in aerospace engineering with a focus on space science and technology.

With its close association with the Indian Space Research Organisation (ISRO), IIST provides unique opportunities for hands-on learning and research in space-related fields.

3. National Institute of Technology (NIT)

The National Institutes of Technology (NITs) are renowned for their engineering programs, including aerospace engineering.

NITs such as NIT Trichy, NIT Calicut, and NIT Rourkela offer comprehensive aerospace engineering curricula combined with excellent infrastructure and industry exposure.

Students graduating from NITs often find themselves well-prepared for careers in both the aeronautics and space sectors.

Choosing the right institute for your aerospace engineering education depends on various factors such as location, faculty expertise, infrastructure, and industry connections. Additionally, consider factors like campus culture, extracurricular activities, and opportunities for internships and research.

Remember, regardless of the institute you choose, your dedication, hard work, and passion for aerospace engineering will ultimately determine your success in the field. So, research your options, weigh your priorities, and embark on your journey to reach for the stars in the fascinating world of aerospace engineering!

Top IIT Institute in India

If we are talking about the top institute in India then definitely the first name that comes to mind is IIT. IIT is not just an institute rather than the dream of many students associated with it. IIT's most famous course is B.TECH. Currently 23 IITs in India.

What Is IIT?

Indian Institutes of Technology (IITs) are Technical Institutes owned by Central Government. IITs are running under the Ownership of the Ministry Of Education, Government Of India. IITs are the premier institutes in the field of Technology. They are ruled by the Institutes of Technology Act, 1961. Currently, the list of IITs in India is 23 IITs and The total number of seats for the undergraduate course in 23 IITs is 16,234.

Top IITs in India

IIT MADRAS

IIT Madras is one of the best IITs in India and it is located in Chennai, Tamil Nadu, India. Its ranking is continuously consistent. The Campus is located 10km from Chennai Airport and 12km from Chennai Railway Station. This Campus has 20 hostels of which 4 hostels are in construction mode.

Departments in IIT Madras:

Aerospace Engineering

Applied Mechanics

Biotechnology

Chemical Engineering

Humanities and Social Sciences

Mechanical Engineering

Management Studies

Metallurgical and Materials Engineering

Mathematics

Ocean Engineering

Physics

Chemistry

Civil Engineering

Computer Science and Engineering

Electrical Engineering

Engineering Design

IIT Madras offered UG, PG, and research Degrees 16 specializing in Engineering, Science, Humanities, and Management. Shaastra and Saarang are the festival of IIT Madras, Organized by students of IIT Madras.

IIT BOMBAY

"Knowledge is the Supreme Goal." is the motto of IIT Bombay.

IIT Bombay is a Technical and public research institute in India. It is located in Powai, Mumbai. It is recommended the establishment in the year 1946 but the first batch of 100 students was admitted in 1958. IIT Bombay is one of the best foremost engineering universities in Asia. There are 18 hostels.15 hostels for males and 3 hostels for females in this IIT.

Departments in IIT Bombay:

Aerospace Engineering

Biosciences and Bioengineering

Chemical Engineering

Chemistry

Civil Engineering

Computer Science & Engineering

Earth Sciences

Electrical Engineering

Energy Science and Engineering

Environmental Science and Engineering (ESED)

Humanities & Social Science

Mathematics

Mechanical Engineering

Metallurgical Engineering & Materials Science

Physics

IIT Bombay offered UG, PG, and research Degrees specializing in Engineering, Science, Humanities, Economics, English, Philosophy, Psychology, Sociology, and Management. Techfest and Mood Indigo are the festival of IIT Bombay, Organized by students of IIT Bombay. Techfest is Asia's largest Science and Technology Fest.

IIT KANPUR

The motto of this Institute is "From darkness, lead me to light."

Indian Institute of Technology, Kanpur is a public technical institute in India. It is located in Kanpur, Uttar Pradesh. This institute is established in the year of 1959. IIT KANPUR was declared to be an Institute of National Importance by the Government of India.

IIT Kanpur offers four-year B.Tech programs in Aerospace Engineering, Biological Sciences and Bio-engineering, Chemical Engineering, Civil Engineering, Computer Science and Engineering, Electrical Engineering, Materials Science and Engineering, and Mechanical Engineering. IIT Kanpur offered UG, PG, and research Degrees with 10 specializations in Engineering, Science, Humanities, Economics, English, Philosophy, Design, Sociology, and Management.

TechKriti and Antaragni are the festival of IIT KANPUR, Organized by students of IIT KANPUR.

IIT (BHU) Varanasi

IIT Varanasi's famous name is Kashi/Banaras Hindu University, Varanasi. It is founded in 1919 as Banaras Engineering College and in 1968 it became the Institute of Technology in the year 2012 it was designated an IIT Varanasi. This is located inside the Banaras Hindu University Campus. IIT Varanasi has 16 departments, 3 inter-disciplinary schools, and 1 humanity & Social science section.

Engineering Departments:

Architecture, Planning, and Design

Ceramic Engineering

Industrial Chemistry

Civil Engineering

Computer Engineering

Electrical Engineering

Electronics Engineering

Mechanical Engineering

Metallurgical Engineering

Mining Engineering

Pharmaceutical Engineering & Technology

Technex and Gymkhana are the festival of IIT Varanasi, Organized by students of IIT Varanasi.

IIT DELHI

IIT DELHI is a public technical institute in India. It is located in Hauz Khas in South Delhi, Delhi, India. It is established in the year 1961 and was formally inaugurated by Prof. Humayun Kabir. The institute was declared the Institutes of National Importance under the Institutes of Technology Amendment Act, 1963.

The IIT-D campus is divided into four zones:

Girnar boys hostel IIT Delhi

Student Residential Zone

Faculty and Staff Residential Zone

Student Recreational Area, Student Activity Center.

Academic zone.

Tryst and Rendezvous are the festival of IIT DELHI, Organized by students of IIT DELHI.

Admission Process in IITs?

Admission in IITs

Undergraduate Courses are done through the Joint Entrance Examination – Advanced (JEE-Advanced).

Postgraduate ( M, tech, MS) programs are through the Graduate Aptitude Test in Engineering (GATE).

For Postgraduate(MBA) accepted through the Common Admission Test (CAT).

For Postgraduate(M.Sc) accepted through the Joint Admission Test to MSc (JAM).

The overall blog is about IITs in India. I hope that this information is useful for you.

What are some good things you can say about K. Shivan?

Dr Kailasavadivoo Sivan born 14 April 1957) is an Indian space scientist and the chairperson of the Indian Space Research Organization.

He has previously served as the Director of the Vikram Sarabhai Space Center and the Liquid Propulsion Systems Centre

PERSONAL LIFE:

Born to a farmer in Tarakkanvillai village in Kanyakumari district Tamil Nadu His parents are Kailasa Vadivu and mother Chellam, Sivan studied in a local government school. Sivan, who is known for his contribution in the development of cryogenic engines, was earlier the Director of Vikram Sarabhai Space Centre.

EDUCATION LIFE:

In the 1980s, Sivan finally completed his bachelor's degree in aeronautical engineering from Madras Institute of Technology and later completed his masters in aerospace engineering from IISC, Bengaluru. He later completed his PhD from IIT Bombay in 2006 and also holds an honorary doctorate in science from Sathyabama University.

Sivan joined Isro in 1982. Sivan has been a part of many projects including the Polar Satellite Launch Vehicle (PSLV) project. His contributions to the project were significant as he helped in the planning, designing, integration and analysis of the mission.

ACHIEVEMENTS:

Shri Hari Om Ashram Prerit Dr Vikram Sarabhai Research award (1999)

ISRO merit award (2007)

Dr Biren Roy Space Science award (2011)

Distinguished Alumnus Award (2013) from Madras Institute of Technology Alumni Association, Chennai

Distinguished Alumnus Award (2018) from Indian Institute of Science, Bangalore

He was conferred Doctor of Science (Honoris Causa) from Sathyabama University, Chennai in April 2014.

Tamil Nadu government’s Dr. A.P.J. Abdul Kalam Award. (2019)

Apart from being the Isro chairman, Sivan was also appointed as the Secretary of Department of Space and Chair of the Space Commission.

During his tenure as Isro chairman, he oversaw two key missions-Chandrayaan-2 and the developmental flight of the Geosynchronous Satellite Launch Vehicle (GSLV-MK3).

PURE EV launches long-range high-performance Electric Two-Wheelers

An Indian Institute of Technology Hyderabad-incubated Startup has developed long-range, high-performance electric two-wheelers specifically designed for Indian Conditions and is commercially launching them across the country next month. PURE EV is the electric vehicle vertical of PuREnergy, a startup incubated by IIT Hyderabad which manufactures high performance Lithium batteries.

PUR EV is launching four models – ‘EGNITE,’ ‘ETRANCE,’ ‘EPLUTO,’ and ‘ETRON’. It aims to deploy over 10,000 electric vehicles on road in the new financial year (2019-20). It has established an 18,000-sqft state-of-the-art facility, co-located with IIT Hyderabad, for cutting-edge Research and Developing and for large scale production of electric vehicles and electric batteries.

 The startup will continue to collaborate with R&D laboratories of IIT Hyderabad, which will provide strong technological support. The company was founded in 2016 by Dr. Nishanth Dongari, Assistant Professor, Department of Mechanical and Aerospace Engineering, IIT Hyderabad, and is led by Mr. Rohit Vadera, an alumnus of IIT Bombay.

Dr. V.K. Saraswat, Member, NITI Aayog, and Prof U.B. Desai, Director, IIT Hyderabad, visited the manufacturing unit on Sunday (28th April 2019) and interacted with the founders. The vision of the company is to enable the current generation of electric two wheelers to be upgraded to match the performance parameters of the conventional ICE (internal combustion engine) vehicles in terms of reliability, power and economics.

The unique points of the vehicles developed by PURE EV include:

The batteries are designed to work under tough environmental conditions,

The batteries will have lesser weight for portability, and

They will deliver high discharge currents for fast pickup

 Speaking about the launch of the new products, Dr. Nishanth Dongari said, “We have developed strong capabilities in the lithium battery packs assembly, active balancing management systems and rigorous testing standards for deployment in our electric two-wheelers. We are also working in the Institute for further development of active thermal management systems, vehicle aerodynamics, and lighter weight faster chargers. This will enable us to launch high-speed electric vehicles in the future”.

 “The company has extended collaboration with other EV startups to develop and supply high voltage lithium batteries for three and four-wheeler applications. Dedicated research fellows are working on solving the problems associated with active cooling, in-depth electro-chemistry-thermal analysis and eventually making the entire battery unit compatible for high-speed EV applications,” added Dr. Nishanth Dongari.

PURE EV has deployed hundreds of test samples across pan-India over last one year to various distributors, corporate firms and professional test riders. It is also in the process of developing a strong network of channel partners across pan-India.

Highlighting the business plans of the firm, Mr. Rohit Vadera, Chief Executive Officer, PURE EV, said, “We have obtained ARAI (Automotive Research Association of India) approvals for electric bikes and two-wheelers. The company has invested a significant amount of resources for on road testing the products for their market readiness. Our electric vehicles offer significant cost savings over traditional ICE vehicles with running costs as low as 5 paise/KM. We are working actively for channel development and aim to deploy more than 10,000 units of our various models in the current financial year.”

The team has built expertise in the battery design by choosing ultra-performance cells and efficient battery management to enhance on road life and range of battery by up to 50 per cent. Various equipment including destructive testing, vibration testing and on-road simulation of EV are housed in the dedicated technology development centre set up by the company.  The extensive mechanical and electrical testing facilities have been used for continuous improvements of critical EV components and gain insights via life cycle analysis.

The post PURE EV launches long-range high-performance Electric Two-Wheelers appeared first on Techiexpert.com.

source https://www.techiexpert.com/pure-ev-launches-long-range-high-performance-electric-two-wheelers/

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