99 Sentences With "biochemical engineering"

How to use biochemical engineering in a sentence? Find typical usage patterns (collocations)/phrases/context for "biochemical engineering" and check conjugation/comparative form for "biochemical engineering". Mastering all the usages of "biochemical engineering" from sentence examples published by news publications.

Casten holds a bachelor's degree in molecular biology and biochemistry and master's degrees in engineering management and biochemical engineering.
The bacterial levels are "astronomically high," said Shaikh Ziauddin Ahammad, a professor of biochemical engineering at the Indian Institute of Technology.
Kutcher was studying biochemical engineering at the University of Iowa when he was scouted as a model, which ultimately let to his break in the acting world.
The night of the crash, around 250 people gathered around black table clothes at Western University to honor four graduate students who were to complete degrees in areas like chemistry and biochemical engineering.
Previously, Lowry was cofounder of Method (a $100 million+ cleaning product company), and Renninger was the founder and ex-CTO of Amyris (a biotech-based renewable product company) with a Ph.D. in biochemical engineering.
Here are the members of the new technology advisory board: Channing Robertson, engineering professor emeritus, Stanford University Howie Rosen, CEO, pharmaceutical company AcelRx Harvey Blanch, biochemical engineering professor at the University of California, Berkeley John Moalli, acting head of product at Theranos and a principal at the consulting group Exponent Allen Northrup, a founder of the molecular diagnostics company Cepheid Clint Ostrander, former president of Kozio and management consultant and investor at Rosewood Advisors Norbert Pelc, chair, bioengineering department, Stanford University Mark Prausnitz, chemical and biomolecular engineering professor, Georgia Tech Robertson and Rosen will be co-leading the board.
46 of the Springer book series Advances in Biochemical Engineering/Biotechnology was dedicated to Karl Schügerl's 65-th birthday.A. Fiechter. Foreword: To Professor Dr. Karl Schügerl on his 65th Birthday. Modern Biochemical Engineering.
Plakiotakis was born in Athens and studied biochemical engineering at the University of Wales. He then completed a Master's degree in biochemical engineering at the University of London before completing another master's degree in business administration at City University London.
The emergence of Biochemical engineering is of recent origin. Processing of biological materials using biological agents such as cells, enzymes or antibodies are the major pillars of biochemical engineering. Applications of biochemical engineering cover major fields of civilization such as agriculture, food and healthcare, resource recovery and fine chemicals. Until now, the industries associated with biotechnology have lagged behind other industries in implementing control over the process and optimization strategies.
He worked at the Sir John Cass College (now the London Guildhall University). Dunnill spent his entire academic career at UCL, first as a lecturer in physical methods at the Department of Biology of UCL, and the position of Professor of Biochemical Engineering before his death. He was lecturer (1969), reader (1979), and professor (1984) in biochemical engineering at UCL. Dunnill was a founder of the Advanced Centre for Biochemical Engineering at UCL.
The study of cell cultures is widely used in biochemical engineering and biotechnology due to its many applications in developing natural fuels, improving the efficiency in producing drugs and pharmaceutical processes, and also creating cures for disease. Other medical applications of biochemical engineering within biotechnology are genetics testing and pharmacogenomics.
Effect of settling time on aerobic granulation in sequencing batch reactor. Biochemical Engineering Journal, Vol. 21, No. 1, pp.
Asenjo studied for his first degree in chemical engineering at the University of Chile, graduating in 1974. He then moved to the University of Leeds, UK to complete an MSc, followed by a PhD at University College London supervised by Peter Dunnill and M. D. Lilly. He moved back to Chile for one year before being appointed Assistant Professor in biochemical engineering at Columbia University, New York where he remained until 1986. In 1987 he moved to the University of Reading to become a Reader in biochemical engineering and the director of the biochemical engineering laboratory.
Advances in Biochemical Engineering/Biotechnology, vol. 46, 1992, pp. vii-ix Schügerl was awarded the DECHEMA Medal in 1997.List of DECHEMA Medal recipients , DECHEMA.
Technical programs were added in the 1960s and have become the main part of the school's work, Veracruz Institute of Technology is famous due to its bachelor of engineering in biochemical engineering, masters and PhD about food science and biochemical engineering. Private universities include Cristóbal Colón University, mainly dedicated to architecture and administration . UNIMEX was founded in 1991 and focuses on marketing, graphic design and law.
Then in 1995 he returned to Chile and established the Centre for Biochemical Engineering and Biotechnology at the University of Chile which he continues to direct.
32(4): p. 30-36Stewart, T.L. and D.S. Kim, Modeling of biomass-plug development and propagation in porous media. Biochemical Engineering Journal, 2004. 17(2): p.
Andrew James deMello (born 1970 in Kingsbury, United Kingdom) is a British chemist and Professor of Biochemical Engineering at ETH Zürich (Swiss Federal Institute of Technology).
Simultaneously he earned his Ph.D. in biochemical engineering/biotechnology from MIT, where he was named a Hugh Hampton Young Fellow. Laurencin and his wife have three children.
Peter Dunnill, OBE, FREng (20 May 1938 – 10 August 2009), was a British pioneer in biochemical engineering and professor at the University College London (UCL), University of London.
Dordick was born on January 15, 1959 in Philadelphia, Pennsylvania. He received his B.A. degree in Biochemistry and Chemistry from Brandeis University and his Ph.D. from the Massachusetts Institute of Technology in Biochemical Engineering. In 1987, Dr. Dordick joined the Department of Chemical and Biochemical Engineering at the University of Iowa. He was promoted to associate professor in 1991, to full professor in 1994, and served as department chair from 1995–1998.
Up to this point, biochemical engineering hadn't developed as a field yet. It wasn't until 1928 when Alexander Fleming discovered penicillin that the field of biochemical engineering was established. After this discovery, samples were gathered from around the world in order to continue research into the characteristics of microbes from places such as soils, gardens, forests, rivers, and streams. Today, biochemical engineers can be found working in a variety of industries, from food to pharmaceuticals.
The Brown University School of Engineering offers Ph.D. programs in biomedical engineering, chemical and biochemical engineering, electrical sciences and computer engineering, fluids and thermal sciences, materials science, and mechanics of solids.
359(2): p. 95-101Stewart, T.L. and D.S. Kim, Modeling of biomass-plug development and propagation in porous media. Biochemical Engineering Journal, 2004. 17(2): p. 107-119Desouky, S.M., et al.
Professor John Mullin was appointed to the Ramsay Memorial Chair and headship of the Department of Chemical Engineering from 1985 to 1990. The Advanced Centre for Biochemical Engineering was opened in 1991. The first Department of Biochemical Engineering was opened at UCL in 1998, with Professor Peter Dunnill as its Chairman. In November 2000 agreement was made between UCL and BT Group for the opening of UCL@Adastral Park at the Adastral Park technology park in Martlesham, Suffolk.
Biotechnology and biochemical engineering are closely related to each other as biochemical engineering can be considered a sub-branch of biotechnology. One of the primary focuses of biotechnology is in the medical field, where biochemical engineers work to design pharmaceuticals, artificial organs, biomedical devices, chemical sensors, and drug delivery systems. Biochemical engineers use their knowledge of chemical processes in biological systems in order to create tangible products that improve people's health. Specific areas of studies include metabolic, enzyme, and tissue engineering.
Devane was educated at University College Dublin where he read for a BEng in biochemical engineering. He also holds a master's degree in International Policy and Practice from the George Washington University's Elliott School of International Affairs.
He received his graduate and undergraduate degrees in Biochemical Engineering from the Indian Institute of Technology Delhi, where he was given the Director's Gold Medal. He received his MBA from Harvard Business School, where he was a Baker Scholar.
Methanogenic bacteria, as outlined earlier, operate in a strictly defined pH range.Biomethanation in advances in biochemical engineering and biotechnology, books.google.com. Retrieved 24.10.07. Therefore, the biological reactions of the different species in a single-stage reactor can be in direct competition with each other.
In 2011, he was appointed to the Chair of Biochemical Engineering within the Department of Chemistry and Applied Biosciences at ETH Zürich, and served as the Chair of the Institute for Chemical and Bioengineering from 2014 to 2016 and 2018 to 2020.
It was later published in Industrial and Engineering Chemistry. Gaden spent a year as a researcher at Pfizer, Inc. before he was invited to return to Columbia University to establish its first biochemical engineering program. He twice chaired the school's Department of Chemical Engineering and Applied Chemistry.
In biochemical engineering, sparging can remove low-boiling liquids from a solution. The low-boiling components evaporate more rapidly, so the gas bubbles remove more of them from the bulk solution containing higher-boiling components. It is an alternative to distillation, and it does not require heat.
McCarthy and O'Callaghan cited her success as an influence in encouraging them to compete and helping them to achieve their win. Judge went on to attain a bachelor's degree in Chemical Engineering at University College Dublin and a master's degree in biochemical engineering at University College London.
Microbial production of Succinic acid can be performed with wild bacteria like Actinobacillus succinogenes,van Heerden, C.D.; Nicol, W. (2013). "Continuous succinic acid fermentation by Actinobacillus succinogenes". Biochemical Engineering Journal, 73. See at publisher Mannheimia succiniciproducens and Anaerobiospirillum succiniciproducens or genetically modified Escherichia coli, Corynebacterium glutamicum and Saccharomyces cerevisia.
De Mejia earned a Bachelor of Science degree in biochemical engineering from the National Polytechnic Institute in Mexico. She went on to receive a master's degree in food science and technology from the University of California, Davis and a Ph.D. in plant biotechnology from the National Polytechnic Institute.
Nielsen has an MSc degree in Chemical Engineering and a PhD degree (1989) in Biochemical Engineering from the Danish Technical University (DTU). He took his dr.techn. degree also from DTU. Following his PhD degree he established his independent research group at DTU and was appointed full Professor there in 1998.
Yap earned her PhD in chemical engineering at the University of Toronto in 1979; she had previously received a basic degree in applied chemistry from University of Singapore, now known as the National University of Singapore (NUS), and a master's degree in biochemical engineering at University College London in 1973.
IMT University has 102 laboratories with modern equipment installed in 9,500 m2 of construction area. It includes laboratories of: Engine Tests, Mechanical Tests, Metrology, Microwaves, Basic Sanitation, Metallography, Machine Construction, Soil Mechanics, Food processing pilot plant, Biology and Microbiology, Biotech and Biochemical Engineering, Control and Automation, Image Processing, Electrical Machines and Thermal Science.
Juan A. Asenjo de Leuze de LancizolleProfessor Juan A. Asenjo (born October 7, 1949) is a Chilean chemical engineer who specialises in biotechnology. He currently serves as the director of the Centre for Biochemical Engineering and Biotechnology at the University of Chile and is the President of the Chilean Academy of Science.
The LCN's work requires it to draw on the combined skills of multiple departments, including medicine, chemistry, physics, electrical and electronic engineering, biochemical engineering, materials and earth sciences, and two leading business centres. The LCN's stated vision is to become Europe's premier research centre in nanotechnology applied to health care, information technology and the environment.
Jonathan S. Dordick (born January 15, 1959) is the Howard P. Isermann Professor of Biochemical Engineering at Rensselaer Polytechnic Institute. In 2008 he became director of the Center for Biotechnology and Interdisciplinary Studies. In 2013 Dr. Dordick stepped down from his role as head of the CBIS and became the Vice President for Research at RPI.
The Brown University School of Engineering offers Sc.M. programs in biomedical engineering, chemical and biochemical engineering, electrical sciences and computer engineering, fluids and thermal sciences, materials science, and mechanics of solids. An integrated five-year Sc.B./Sc.M. degree is also available. The Program in Innovation Management and Entrepreneurship (PRIME) is also a one-year master's degree in technology entrepreneurship.
This was followed by undergraduate study in biochemical engineering at the Guaymas campus and a masters in the same field at the Monterrey campus . He continued his education studying a masters and doctorate in chemical and biochemical engineering at Rutgers University in the research group of Professor Fernando Muzzio, and post- doctoral work at Bristol Myers Squibb in the United States under the supervision of Dr. San Kiang. Since then, Alvarez has primarily been a researcher, known for being the director (2004-2010) of the Centro de Biotecnología FEMSA (FEMSA Center for Biotechnology), a biotechnology research facility in the city of Monterrey, which he founded. The center mainly develops food and pharmaceutical products (and processes) using a wide tool box that includes genetic engineering strategies, bioprocess engineering, and more classical biochemistry concepts.
James Edward Bailey (1944 – 9 May 2001), generally known as Jay Bailey, was an American pioneer of biochemical engineering, particularly metabolic engineering. He was said to be "the most influential biochemical engineer of modern times".Gregory Stephanopoulos (2001) Metabolic Engineering vol 3, 393–394 "In Memoriam, Jay Bailey 1944-2001" In a special issue of a journal dedicated to his work, the editor said "Jay was one of biochemical engineering’s most creative thinkers and spirited advocates, a true innovator who played an enormous role in establishing biochemical engineering as the dynamic discipline it is today".D. S. Clarke (2002) Biotechnology and Bioengineering vol 79, no 5, page 483 "In Appreciation:James E. Bailey, 1944–2001" His numerous contributions in biotechnology and metabolic engineering have led to multiple awards including the First Merck Award in Metabolic Engineering.
Carles Solà was born in Xàtiva, Valencia Province on 1 January 1945. He awarded a PhD degree in Chemistry at the UV, he has carried out research in Biochemical Engineering with 130 publications, having tutored 22 doctoral theses and directed various research projects. He was Rector of the UAB (1994-2002). He was a lecturer in Chemical Engineering at the UAB.
Annual Review of Biomedical Engineering is an academic journal published by Annual Reviews. In publication since 1999, this journal covers the significant developments in the broad field of biomedical engineering. Topics include biomechanics, biomaterials, computational genomics and proteomics, tissue engineering, biomonitoring, health care engineering, drug delivery bioelectrical engineering, biochemical engineering, and biomedical imaging topics. It is edited by Martin L. Yarmush (Rutgers University).
Harry Shoulberg attended City College of New York where he studied biochemical engineering for three years before switching to fine arts in his last year. He continued his art education at the John Reed School, 1934–1935; the American Artists School, 1935–1937; and then privately at the studios of artists Sol Wilson, 1894–1974, and Carl Holty, 1900-1973.
Narain studied at The Doon School, a sixty-year-old school located in Dehradun, that trained many political and corporate leaders of India. He did his BTech and MTech in Biochemical Engineering and Biotechnology from Indian Institute of Technology, Delhi (1997). After working in US and in Europe with global consulting companies, Narain got an MBA from the Graduate School of Business at Stanford University, California.
Research by Monsan and his collaborators has focused on biocatalysis, biochemical engineering and enzyme engineering, published in over 230 articles. His fundamental includes investigation of structure-activity relationships of enzymes, (particularly glycoside hydrolases and lipases), and enzyme discovery by functional metagenomics. His more applied research involves biocatalysis in non-conventional (anhydrous) media for the synthesis of chemicals (e.g., chiral resolution to obtain enantiopure compounds), protein engineering (e.g.
Founded in 1999, University School of Biotechnology (USBT) was established by Government of Delhi as one of 12 University Schools of Studies under the Guru Gobind Singh Indraprastha University. The school has recently transferred to Dwarka Campus of the University. The University School of Biotechnology ranked third all over India after National Dairy Research Institute of Karnal and Department of Biochemical Engineering & Biotechnology, IIT Delhi.
Shahrar Ali has degrees in biochemical engineering (BEng) and philosophy (BA, MPhil, PhD) from the University of London. His 1997 MPhil thesis was on "Practical reason with reference to the Human conception", and his 2004 PhD thesis (UCL) was entitled "Making as if to stand behind one's words: a theory of intentional deception and lying". His research interests are in moral and applied philosophy.
Research forms one of the main thrust of Dayananda Sagar College of Engineering. It has a biochemical engineering laboratory with activities funded by the All India Council Technical Education, Karnataka State Council for Science and Technology, and the National Aviation Fuel Board. It has tie-ups with German Research Center and research centers in Europe. Research projects from have been granted to departments in the school.
A tank containing 25% sodium bisulfite at a water treatment plant in Sunnyvale, California. Sodium bisulfite is a common industrial reducing agent, as it readily reacts with dissolved oxygen: :2 NaHSO3 \+ O2 → 2 NaHSO4 It is usually added to large piping systems to prevent oxidative corrosion. In biochemical engineering applications, it is helpful to maintain anaerobic conditions within a reactor. It is used for preserving food and beverages.
He served also as Chief Scientist and Consultant in Biochemical Engineering to Harvard University Health Services, 1984–98. He was a Visiting Lecturer in Chemistry at Harvard University from 1952 to 1958, a consultant at the Peter Bent Brigham Hospital of Boston from 1960 to 1972, a consultant of the Children's Hospital in Boston from 1969 to 1972, and consultant of the Beth Israel Hospital in Boston from 1969 to 1985.
Akerkar was born to a German-American mother and an Indian father in Mumbai. Akerkar went to the all-boys boarding school The Doon School in Dehradun. He went on to study Biology and Chemical Engineering at Franklin & Marshall College, followed by a master's in Biochemical Engineering at Columbia University. Throughout college in the United States, Akerkar worked in American kitchens in various capacities: dishwasher, server and chef.
Heinemann received his degree (Dipl.-Ing.) in environmental engineering from the University of Stuttgart. In 2003, he obtained a Ph.D. in biochemical engineering (summa cum laude) from the RWTH Aachen University, after which he joined the Bioprocess lab of ETH Zurich as a postdoc. In 2006, he joined the Institute of Molecular Systems Biology of ETH Zurich as a group leader in the research unit of Uwe Sauer.
Burning of the single use components of bioreactors creates a detour through biochemical engineering during their life cycle that does not have a big influence. The making of conventional culture vessels form stainless steel or glass requires more energy than making plastic bags. Using conventional bioreactors the culture vessel need to be cleaned and sterilized after each fermentation. Cleaning requires large amounts of water, in addition to acids, alkali and detergents.
The Alexander Charles Spencer Engineering Building, known as Spencer Engineering Building (SEB) is the main building of engineering faculty in University of Western Ontario. The Dean's office, Mechanical and Materials Engineering Department and Civil and Environmental Engineering Departments are in this building. The Electrical and Computer Engineering Department as well as the Chemical and Biochemical Engineering Department reside in the Thompson Engineering Building, which was opened in 2004.
The academic campus shares a border with the Chandra Shekhar Azad University of Agriculture and Technology's premises. It comprises:- The main building which was inaugurated in 1921. It houses the administrative offices, and departments of Chemical Engineering, Chemical Technology (four out of five branches), Biochemical Engineering, Physics, Chemistry, Mathematics, and Humanities. Five buildings which house the departments of Computer Science & IT, Mechanical Engineering, Electrical & Electronics Engineering, Civil Engineering, and Leather Technology.
Practitioners, NOUBAR B. AFEYAN, Ph.D., Senior Lecturer , MIT Entrepreneurship Center Noubar B. Afeyan, Ph.D., had been the founder, chairman, and CEO of PerSeptive, and after the acquisition he became a senior vice president and chief business officer of Perkin-Elmer. He had earlier founded and co-built several successful life science and technology startup companies through the 1990s, after earning his Ph.D. in biochemical engineering from the Massachusetts Institute of Technology in 1987.
The subjects covered in the book include: physical properties of chemicals and other materials; mathematics; thermodynamics; heat transfer; mass transfer; fluid dynamics; chemical reactors and chemical reaction kinetics; transport and storage of fluid; heat transfer equipment; psychrometry and evaporative cooling; distillation; gas absorption; liquid- liquid extraction; adsorption and ion exchange; gas–solid, liquid–solid and solid–solid operations; biochemical engineering; waste management, materials of construction, process economics and cost estimation; process safety and many others.
Wei-Shou Hu is a Taiwanese-American chemical engineer. He earned his B.S. in Agricultural Chemistry from National Taiwan University in 1974 and his Ph.D. in Biochemical Engineering from the Massachusetts Institute of Technology under the guidance of Arnold Demain in 1983. He has been a Professor with the University of Minnesota since 1983. Dr. Hu has long impacted the field of cell culture bioprocessing since its infancy by steadfastly introducing quantitative and systematic analysis into this field.
In 1992, two years after its establishment, the center's first director, Bill Characklis, died. Montana State University signaled its commitment to the center by hiring J.W. (Bill) Costerton, a professor of microbiology from the University of Calgary, as Executive Director and James Bryers, a professor of biochemical engineering from Duke University, as Director of Research for the center. In 1993 the center's name was changed to Center for Biofilm Engineering (CBE).Center for Biofilm Engineering News, 1993 April;1(1):1-3.
Dunnill was elected to the Biotechnology and Biological Sciences Research Council (BBSRC) in 1994. Dunnill was made a Fellow of UCL in 1981. He was also a Fellow of the Royal Society of Chemistry (elected in 1979), Fellow of the Institution of Chemical Engineers (elected in 1981), and Fellow of the Royal Academy of Engineering. Dunnill was awarded the Donald medal by the Institution of Chemical Engineers in 1995, and was appointed OBE for his services to biochemical engineering in 1999.
He studied biochemical engineering at Monterrey Tech, graduating in 1971. Living in England for five years and with a scholarship from the Mexican government, he earned his doctorate in food science from the University of Nottingham. He returned to Mexico after getting his doctorate, first teaching classes in wine, cheese and beer production at Guaymas campus of Monterrey Tech. He also worked for a time with various installations as technical director with Tropicana, focusing on the canning of fruit products.
Howard Allaker Chase ScD, FREng is a British academic and chemical engineer. He is Head of the School of Technology and Professor of Biochemical Engineering#‘CHASE, Prof. Howard Allaker’, Who's Who 2012, A & C Black, 2012; online edn, Oxford University Press, Dec 2011 ; online edn, Nov 2011 at the University of Cambridge. From 1998 to 2006 he was Head of the Department of Chemical Engineering at the University of Cambridge. Chase has been a Fellow of the Royal Academy of Engineering since 2005.
Using Bacteria such as Acidithiobacillus ferrooxidans to leach copper from mine tailings has improved recovery rates and reduced operating costs. Moreover, it permits extraction from low grade ores - an important consideration in the face of the depletion of high grade ores.Kundu et al. 2014 "Biochemical Engineering Parameters for Hydrometallurgical Processes: Steps towards a Deeper Understanding" Some examples of past projects in biotechnology include a biologically assisted in situ mining program, biodegradation methods, passive bioremediation of acid rock drainage, and bioleaching of ores and concentrates.
Bioreactor Biochemical engineering, also known as bioprocess engineering, is a field of study with roots stemming from chemical engineering and biological engineering. It mainly deals with the design, construction, and advancement of unit processes that involve biological organisms or organic molecules and has various applications in areas of interest such as biofuels, food, pharmaceuticals, biotechnology, and water treatment processes. The role of a biochemical engineer is to take findings developed by biologists and chemists in a laboratory and translate that to a large-scale manufacturing process.
Monsan was educated at INSA Toulouse and the University of Toulouse where he graduated with an engineer degree (Ingénieur diplômé) in Biological Chemistry in 1969. He was then awarded his Doctor-Engineer Degree in 1971 and his PhD degree in 1977 from INSA Toulouse for research on enzyme immobilization. He served as lecturer in the Department of Biochemical Engineering at INSA Toulouse from 1969 and was later promoted to Assistant Professor (1973) and then Professor (1981). In 1984, Monsan took a leave from Academia and co- founded BioEurope, a startup company specialized in industrial biocatalysis.
More than 200 experts in a wide variety of research fields including biochemical engineering and molecular biology are employed or participated in ABC. He is a recipient of various awards for significant contribution to the research innovations in environmental or microalgal biotechnology from the South Korean government or many academic societies. In addition, Dr. Yang showed various activities across many fields of academia, civil society, and government. Dr. Yang had served as the President of Korean Society of Biotechnology and Bioengineering, and the editor-in-chief for the Korean Journal of Soil and Groundwater.
He also served as professor in the Graduate Program of the Department of Genetics at George Washington University and formerly as adjunct professor in the Department of Chemical and Biochemical Engineering at the University of Maryland. He served on the editorial boards of several scientific journals, and was a member of the Scientific Steering Committee for Blood Products at Walter Reed Army Institute of Research and chairman for the Panel on Biotechnology of the National Research Council. Drohan died of lung cancer at his home in Germantown, Maryland after a four-year illness.
ITTG is considered one of the top two houses of study of the state of Chiapas, along with the University of Science and Arts of Chiapas. Their motto is Science and Technology with a Human Sense and its director is José Manuel Rosado Pérez, Ph.D. It has two extensions: one in the neighboring town of Chiapa de Corzo and the other in the city of Bochil. ITTG has a Graduate Center for Studies in Mechatronics Master of Science, Master of Science in Biochemical Engineering and a Doctorate of Science in Biotechnology.
Born in Southampton, Wilson spent her early years in Japan and Hong Kong before moving to the UK in 2002 to take an honours degree in Biochemistry and Genetics at the University of Nottingham. She was educated at Island School in Hong Kong. After graduating she spent 6 months in Kilifi, Kenya working on research into malaria under the KEMRI- Wellcome Trust Research Programme. In 2007, she completed a master's degree in Biochemical Engineering at UCL before enrolling in Imperial College London to sit for a post-graduate degree in medicine.
Along with other novel concepts, such as process systems engineering (PSE), a "second paradigm" was defined. Transport phenomena gave an analytical approach to chemical engineering while PSE focused on its synthetic elements, such as control system and process design. Developments in chemical engineering before and after World War II were mainly incited by the petrochemical industry; however, advances in other fields were made as well. Advancements in biochemical engineering in the 1940s, for example, found application in the pharmaceutical industry, and allowed for the mass production of various antibiotics, including penicillin and streptomycin.
Biotechnology and Bioengineering is a peer-reviewed scientific journal covering biochemical engineering science that was established in 1959. In 2009, the BioMedical & Life Sciences Division of the Special Libraries Association listed Biotechnology and Bioengineering as one of the 100 most influential journals in biology and medicine of the past century."Top 100 Journals in Biology and Medicine ". 2009.Stankus, T. "The DBIO 100: The BioMedical & Life Sciences Division Honors SLA’s Centennial with Recognition of 100 Journals that Have Led the Way In Biology & Medicine Over the Last Century ". 2009.
He was a Golden Gloves boxer, developing skills that he would use in Vietnam. Daly rejected his image as a kid from the Chicago slums, though he admitted that the time after his father's death was difficult. He attended the University of Illinois, where he majored in biochemical engineering before he was drafted in 1941 to serve in World War II. Daly said it was a good thing that he never finished his degree because,"I was the world's worst chemical engineer". Daly achieved the rank of sergeant and served in the Pacific.
Bones are made of cells called osteoclasts and osteoblasts. Two different kinds of bone resorption are possible: direct resorption, which starts from the lining cells of the alveolar bone, and indirect or retrograde resorption, which takes place when the periodontal ligament has been subjected to an excessive amount and duration of compressive stress.Robling, Alexander G., Alesha B Castillo, and Charles H. Turner, "Biochemical and Molecular Regulation of Bone Remodeling", Annual Review of Biochemical Engineering, (April 3, 2006) pp 1–12 Another important factor associated with tooth movement is bone deposition. Bone deposition occurs in the distracted periodontal ligament.
In Netherlands, the Bachelor of Engineering was also introduced as part of implementation of the Bologna Process, the same as in Germany. The degree is only offered by Dutch Hogeschool-institutions and is equivalent to the Dutch engineer's degree "ingenieur" (ing.). A Dutch BEng involves a study of four years and is only awarded in the field of aeronautical engineering, mechanical engineering, software engineering, industrial engineering or electrical engineering. Completion of a Dutch engineer's study in the field biochemical engineering, biomedical engineering, chemical engineering, environmental engineering, material engineering is however awarded with a Bachelor of Applied Science degree.
In July 2005 Dynamotive signed an agreement to initiate research on the gasification of BioOil at the University of Western Ontario, Department of Chemical and Biochemical Engineering. The research project involves the development of a process for gasification of BioOil by catalytic steam reforming to produce syngas and/or hydrogen. Syngas can be further converted into synthetic diesel, a renewable, greenhouse gas neutral fuel that can replace hydrocarbon diesel. With the escalating cost of fossil fuels and the dependence on crude oil as the primary source of energy for automobiles, it has become increasingly important to develop synthetic fuels.
The London Centre for Nanotechnology (LCN) is a multidisciplinary research centre in physical and biomedical nanotechnology based at UCL's campus in Bloomsbury. It brings together three institutions that are world leaders in nanotechnology, University College London, Imperial College London and King's College London. The LCN's work requires it to draw on the combined skills of multiple departments, including medicine, chemistry, physics, electrical and electronic engineering, biochemical engineering, materials and earth sciences, and two leading business centres. The LCN's stated vision is to become Europe's premier research centre in nanotechnology applied to health care, information technology and the environment.
The Department of Chemical and Biochemical Engineering is a newly established department, that was instituted in 2015 with the efforts of Dr. Sujoy Kumar Samanta, faculty of IIT Patna. It is located in the Block-6 of the campus. The department accepted the first batch of undergraduate students in 2016 and presently has 9 faculty members. The Block-6 houses state-of-the-art research facilities for its young and dynamic faculty members in various research fields ranging from Clean fuel production, CO2 capture and storage, Pinch analysis, Microwave-assisted heating, Process modelling and simulation to Bio-resource engineering and Wastewater treatment.
Takahashi was born in Honolulu, Hawaii on September 6, 1940, the son of Doris and Stanley Takahashi. He attended public schools in Honolulu and in 1962 obtained a B.S. degree in chemical engineering from Stanford University. He went on to work for the sugar industry in Hawaii until 1968, when he was sent by the industry for graduate work in sugar engineering at Louisiana State University, where in 1971 he obtained a PhD in biochemical engineering, with a dissertation entitle “Tunable Laser Irradiation of Escherichia coli.”H. T. Patrick Takahashi, David Greenberg, George Dimopoullos and Louis Rusoff, Applied Microbiology, 63 (January 1975).
During his senior year, he broke into his high school at midnight with his cousin in an attempt to steal money; he was arrested leaving the scene. Kutcher was convicted of third-degree burglary and sentenced to three years of probation and 180 hours of community service. Kutcher stated that although the experience "straightened him out", he lost his girlfriend and anticipated college scholarships, and was ostracized at school and in his community. Kutcher enrolled at the University of Iowa in August 1996, where his planned major was biochemical engineering, motivated by the desire to cure his brother's heart ailment.
Durai Sundar is an Indian computational biologist, bioinformatician and the current Head of the Department of Biochemical Engineering and Biotechnology at the Indian Institute of Technology, Delhi. He is known for his studies in the fields of genome editing tool designing, biological studies of natural drugs and metabolic engineering as well as for his participation in the Indo- Japanese collaborative research initiatives on anti-cancer drug development and is a life member of the National Academy of Sciences, India. The Department of Biotechnology of the Government of India awarded him the National Bioscience Award for Career Development, one of the highest Indian science awards, for his contributions to biosciences, in 2012.
Downstream processing is usually considered a specialized field in biochemical engineering, itself a specialization within chemical engineering, though many of the key technologies were developed by chemists and biologists for laboratory-scale separation of biological products. Downstream processing and analytical bioseparation both refer to the separation or purification of biological products, but at different scales of operation and for different purposes. Downstream processing implies manufacture of a purified product fit for a specific use, generally in marketable quantities, while analytical bioseparation refers to purification for the sole purpose of measuring a component or components of a mixture, and may deal with sample sizes as small as a single cell.
Georgopoulos has been a faculty member at Rutgers University since 1989. He has held teaching positions in the department of environmental sciences, the department of chemical and biochemical engineering, and the department of environmental and occupational health. He is also a member of the Environmental and Occupational Health Sciences Institute in Piscataway, New Jersey, and has served as director of the institute's occupational chemodynamics laboratory and its ozone research center. He has also served as director for the Informatics and Computational Toxicology Core of the NIEHS Center for Environmental Exposures and Disease at EOHSI, and is an associate member of the Rutgers Cancer Institute.
Octavio Paredes López (born 1946 in Mocorito, Sinaloa), is a Mexican biochemical engineer and food scientist. He is a past president of the Mexican Academy of Sciences, a founding member of the International Academy of Food Science and Technology, and a member of the Governing Board of the National Autonomous University of Mexico. He received the National Prize for Arts and Sciences in 1991 and the Third World Network of Scientific Organizations Award in 1998. Paredes López obtained bachelor's and master's degrees in biochemical engineering at the National Polytechnic Institute in Mexico City, and later earned a master's degree in food science at Czechoslovak Academy of Sciences in Prague.
There he served as CSO from 1984 to 1989, CEO from 1989 to 1993 and CSO again from 1993 to 1999 after the acquisition of the company by the Solabia Group. In 1993, Monsan returned to INSA Toulouse to lead a research group focusing on the discovery, characterisation and molecular engineering of enzymes, including glucansucrases and lipases. He was also appointed Professor at Ecole des Mines-ParisTech in 1993. From 1999 to 2003 he served as head of Department of Biochemical Engineering at INSA Toulouse. In 2012, he founded the pre- industrial demonstrator “Toulouse White Biotechnology” (TWB) with a €20M grant within the framework of the Investing for the Future national program (also called the grand emprunt).
After being a post-doc at Swedish University of Agricultural Sciences and being a researcher till 1999 he joined the University of Iowa, Carver College of Medicine as an Assistant professor on Jan 2000. Although a primary faculty member of the biochemistry department, he had adjunct affiliations in chemical, biochemical engineering, physiology and biophysics department as well. He was also the director of protein crystallography facility. He eventually became the Assistant Dean for Scientific Affairs and director of core research facilities at the Carver College of Medicine, University of Iowa until he accepted a position as Senior Professor and Dean of inStem, the Institute for Stem Cell Science and Regenerative Medicine in Bangalore, India.
In 1961, Myron Tribus became dean of the School, placing a heavy emphasis on the practical, problem-solving aspects of engineering as well as the traditional, theoretical base of the discipline. Tribus developed an integrated curriculum and introduced design courses to the school to provide Thayer students with real-life experience in creative applications of engineering. Under Tribus, the Thayer School offered its first doctorates in engineering. From the 1970s to the first decade of the 21st century, the Thayer School saw expansion into new fields such as nanotechnology and biochemical engineering, as well as collaboration with such nearby institutions as Dartmouth Medical School, the Dartmouth-Hitchcock Medical Center, and the Cold Regions Research and Engineering Laboratory.
The method is used in a variety of industrial and laboratory processes,Pearce, Ray "Process improvement through thermal profiling: the goal of thermal profiling is to always increase quality and reduce waste. Three case histories--covering powder coating, baking and solder reflow applications " Process Heating, 01-JAN-05 including electronic component assembly, optoelectronics, "High performance thermal profiling of photonic integrated circuits" optics, biochemical engineering,K. Gill, M. Appleton and G. J. Lye "Thermal profiling for parallel on-line monitoring of biomass growth in miniature stirred bioreactors" Biotechnology Letters Volume 30, Number 9 / September, 2008 food science,B. Strahm & B, Plattner, "Thermal profiling: Predicting processing characteristics of feed materials:" decontamination of hazardous wastes, and geochemical analysis.
Born in Dublin, Ireland,, and raised in Hartsdale, NY, Casten earned a bachelor of arts in molecular biology and biochemistry from Middlebury College in 1993, and then worked for two years as a scientist at the Tufts University School of Medicine in a laboratory investigating dietary impacts on colon and breast cancer. In 1998, he earned a Master of Engineering Management and a Master of Science in biochemical engineering from the Thayer School of Engineering at Dartmouth College. While at Dartmouth, he worked to develop technologies for alternative heat and power generation technologies including the production of fuel grade ethanol. Casten is a member of Thayer School of Engineering’s Corporate Collaboration Council.
We know, Flow rate of biomass into the reactor = Fxi Flow rate of biomass out of the reactor = Fx Rate of generation of biomass by reaction = Vr1 Rate of accumulation of biomass within the reactor = d(Vx)/dt Now, apply general mass balance equation i.e., Rate of Mass In – Rate of Mass Out + Rate of Generation = Accumulation d(Vx)/dt = Fxi – Fx + Vr1 (2) Where r1 is the rate of cell generation. Dividing both sides of the above equation by V, we obtain dx/dt = (F/V)xi – (F/V)x + r1 (3) In the chemical reaction engineering, F/V is called space velocity(s−1) and V/F is called the residence time (s). But in biochemical engineering, F/V is known as Dilution rate (Dr).
Academic session in B.E. was started with two branches, CSE and ECE (where CSE is considered as core branch of college), in 1991 with a well- planned educational program, similar to the one followed at IITs and RECs/NITs for the development of technology & engineering education facilities in the Kumaon Region. Seeing the availability, capability, and usefulness of land, the college prepared a master plan and project report regarding development in 1996, which was approved by the administrative council. At present, the institute runs seven graduate engineering programs — Computer Science & Engineering, Electronics and Communication Engineering, Electrical Engineering, Civil Engineering, Chemical Engineering, Mechanical Engineering and Biochemical Engineering — and three postgraduate programs: Masters of Computer Applications, Master of Technology (M. Tech) in CSE and Mechanical departments.
Thus was created high performance liquid chromatography or HPLC, a technique which became a major field of study (and in which he remained a leading figure), and continued to publish till shortly before his death. Together with Imre Molnar and Wayne Melander he developed the framework for describing retention mechanisms in reversed phase chromatography (RPLC), employing the framework of the solvophobic theory. As HPLC and RPLC became the preeminent techniques associated with biochemical analysis, many have suggested that Csaba Horvath inexplicably missed inclusion in the ranks of Nobel laureates. He worked on other methods of analytical separation of biological materials, notably electrophoresis and displacement chromatography, but also was influential in developing biochemical engineering within the Chemical Engineering Department at Yale.
Since 2011, the Chairman of Moderna has been the CEO of Flagship Pioneering, businessman Noubar Afeyan. Afeyan who has a Ph.D. in biochemical engineering holds his interest in Moderna through various Flagship Pioneering vehicles, however, at the 2018 IPO, documents filed stated that Afeyan owned 19.5% of the company, while Flagship owned 18%, thus giving Afeyan control over 37.5% of the company. In May 2020, board member Dr. Moncef Slaoui resigned from the company to become Chief Scientist for the Trump administration's "Operation Warp Speed", a group designed to accelerate the development of a vaccine for the coronavirus. Slaoui continued to hold more than $10 million in stock options in the company in his new role while the Federal government invested $483 million in the company to assist in coronavirus vaccine trials.
Biotechnology is the research and development in the laboratory using bioinformatics for exploration, extraction, exploitation and production from any living organisms and any source of biomass by means of biochemical engineering where high value-added products could be planned (reproduced by biosynthesis, for example), forecasted, formulated, developed, manufactured, and marketed for the purpose of sustainable operations (for the return from bottomless initial investment on R & D) and gaining durable patents rights (for exclusives rights for sales, and prior to this to receive national and international approval from the results on animal experiment and human experiment, especially on the pharmaceutical branch of biotechnology to prevent any undetected side-effects or safety concerns by using the products).What is biotechnology?. Europabio. Retrieved on March 20, 2013.Key Biotechnology Indicators (December 2011). oecd.
Diagram of cross-flow filtration In chemical engineering, biochemical engineering and protein purification, crossflow filtration (also known as tangential flow filtrationMillipore Technical Library: Protein Concentration and Diafiltration by Tangential Flow Filtration) is a type of filtration (a particular unit operation). Crossflow filtration is different from dead-end filtration in which the feed is passed through a membrane or bed, the solids being trapped in the filter and the filtrate being released at the other end. Cross-flow filtration gets its name because the majority of the feed flow travels tangentially across the surface of the filter, rather than into the filter. The principal advantage of this is that the filter cake (which can blind the filter) is substantially washed away during the filtration process, increasing the length of time that a filter unit can be operational.
Bioprocess engineering, also biochemical engineering, is a specialization of chemical engineering or Biological engineering, It deals with the design and development of equipment and processes for the manufacturing of products such as agriculture, food, feed, pharmaceuticals, nutraceuticals, chemicals, and polymers and paper from biological materials & treatment of waste water. Bioprocess engineering is a conglomerate of mathematics, biology and industrial design, and consists of various spectrums like designing of bioreactors, study of fermentors (mode of operations etc.). It also deals with studying various biotechnological processes used in industries for large scale production of biological product for optimization of yield in the end product and the quality of end product. Bioprocess engineering may include the work of mechanical, electrical, and industrial engineers to apply principles of their disciplines to processes based on using living cells or sub component of such cells.

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