Catalogue Search | MBRL
Are you sure you want to remove the book from the shelf?
{{itemTitle}}
986
result(s) for
"Chemical processes Equipment and supplies."
Sort by:
Chemical Process Equipment - Selection and Design (Revised 2nd Edition)
A facility is only as efficient and profitable as the equipment that is in it. This highly influential book is a powerful resource for chemical, process, or plant engineers who need to select, design or configure plant successfully and profitably.
Written by some of the most experienced and well-known chemical and process engineers in the industry today, this information-packed volume gives the chemical or process engineer or engineering student all of the guidelines for the design and selection of chemical process equipment. Comprehensive and practical, its scope and emphasis on real-world process design and performance of equipment will prove invaluable for day-to-day problem solving.
eBook
Chemical Process Equipment - Selection and Design (3rd Edition)
This book is a results-oriented reference for engineers who specify, design, maintain or run chemical and process plant. This book delivers information on the selection, sizing and operation of process equipment in a format that enables quick and accurate decision making on standard process and equipment choices, saving time, improving productivity, building understanding. Coverage emphasizes common real-world equipment design, rather than experimental or esoteric, and focuses on maximizing performance.
eBook
Chemical process equipment : selection and design
Comprehensive and practical guide to the selection and design of a wide range of chemical process equipment.Emphasis is placed on real-world process design and performance of equipment.Provides examples of successful applications, with numerous drawings, graphs, and tables to show the functioning and performance of the equipment.
eBook
Ludwig's applied process design for chemical and petrochemical plants
The fourth edition of Ludwig's Applied Process Design for Chemical and Petrochemical Plants, Volume Three is a core reference for chemical, plant, and process engineers and provides an unrivalled reference on methods, process fundamentals, and supporting design data.New to this edition are expanded chapters on heat transfer plus additional.
eBook
Self-powered ultra-flexible electronics via nano-grating-patterned organic photovoltaics
Next-generation biomedical devices
1
–
9
will need to be self-powered and conformable to human skin or other tissue. Such devices would enable the accurate and continuous detection of physiological signals without the need for an external power supply or bulky connecting wires. Self-powering functionality could be provided by flexible photovoltaics that can adhere to moveable and complex three-dimensional biological tissues
1
–
4
and skin
5
–
9
. Ultra-flexible organic power sources
10
–
13
that can be wrapped around an object have proven mechanical and thermal stability in long-term operation
13
, making them potentially useful in human-compatible electronics. However, the integration of these power sources with functional electric devices including sensors has not yet been demonstrated because of their unstable output power under mechanical deformation and angular change. Also, it will be necessary to minimize high-temperature and energy-intensive processes
10
,
12
when fabricating an integrated power source and sensor, because such processes can damage the active material of the functional device and deform the few-micrometre-thick polymeric substrates. Here we realize self-powered ultra-flexible electronic devices that can measure biometric signals with very high signal-to-noise ratios when applied to skin or other tissue. We integrated organic electrochemical transistors used as sensors with organic photovoltaic power sources on a one-micrometre-thick ultra-flexible substrate. A high-throughput room-temperature moulding process was used to form nano-grating morphologies (with a periodicity of 760 nanometres) on the charge transporting layers. This substantially increased the efficiency of the organophotovoltaics, giving a high power-conversion efficiency that reached 10.5 per cent and resulted in a high power-per-weight value of 11.46 watts per gram. The organic electrochemical transistors exhibited a transconductance of 0.8 millisiemens and fast responsivity above one kilohertz under physiological conditions, which resulted in a maximum signal-to-noise ratio of 40.02 decibels for cardiac signal detection. Our findings offer a general platform for next-generation self-powered electronics.
Detection of biometric signals by self-powered electronic devices that are highly flexible and can be applied to skin.
Journal Article
Polysaccharides as Carriers of Polyphenols: Comparison of Freeze-Drying and Spray-Drying as Encapsulation Techniques
Polyphenols have received great attention as important phytochemicals beneficial for human health. They have a protective effect against cardiovascular disease, obesity, cancer and diabetes. The utilization of polyphenols as natural antioxidants, functional ingredients and supplements is limited due to their low stability caused by environmental and processing conditions, such as heat, light, oxygen, pH, enzymes and so forth. These disadvantages are overcome by the encapsulation of polyphenols by different methods in the presence of polyphenolic carriers. Different encapsulation technologies have been established with the purpose of decreasing polyphenol sensitivity and the creation of more efficient delivery systems. Among them, spray-drying and freeze-drying are the most common methods for polyphenol encapsulation. This review will provide an overview of scientific studies in which polyphenols from different sources were encapsulated using these two drying methods, as well as the impact of different polysaccharides used as carriers for encapsulation.
Journal Article
Mid-Infrared Photonic Sensors: Exploring Fundamentals, Advanced Materials, and Cutting-Edge Applications
Mid-infrared (MIR) photonic sensors are revolutionizing optical sensing by enabling precise chemical and biological detection through the interrogation of molecules’ unique vibrational modes. This review explores the core principles of MIR photonics, emphasizing the light–matter interactions within the 2–20 µm wavelength range. Additionally, it examines innovative sensor architectures, such as integrated photonic platforms and optical fibers, that enhance sensitivity, specificity, and device miniaturization. The discussion extends to groundbreaking applications in environmental monitoring, medical diagnostics, industrial processes, and security, highlighting the transformative impact of these technologies. This comprehensive overview aims to illuminate the current state-of-the-art while inspiring future developments in MIR photonic sensing.
Journal Article