Tags for this Online Resume: Water and Wastewater Treatment, Water Resue, Seawater Desalination,
Membrane filtration and formation, Membrane Bioreactor, Bioremediation of Oil Spills, Air quality management, Environmental health and safety (EHS) management, Occupational Safety, Biological treatment, Water quality monitoring, Non-point source pollution control, Physical - chemical process, Waste management, Emerging contaminants removal, Bioenergy and fuel cell, Based treatment, Integrated fixed film activated sludge (IFAS) process, Moving bed bioreactor, Sustainable treatment and purification technologies
I have experience performing laboratory tests for the following: water and wastewater pH, TSS, microbiological media and performing QA / QC, ammonia, nitrate, Multiple Tube Fermentation,
Membrane Filtration for total and fecal coliforms.
Unless you can afford more high tech approaches such as polymeric
membrane filtration, ceramic, or molecular sieve filter media, which all have very limited flow - through capacities and which are expensive and consume electricity, filtration alone will not likely meet all the needs you've identified.
Whey Protein Isolate (WPI)- May be produced by a variety of
membrane filtration techniques, with the goal of reaching > 90 % protein concentration and removal of most (if not all) lactose.
Membrane filtration is used as an alternative for flocculation, sediment purification techniques, adsorption, extraction and distillation.
Dr. Greg Foley: Engineering design and analysis of
membrane filtration systems, General mathematical modelling of processes.
Membrane filtration is considered among the most promising and widely used processes for water treatment and desalination... Carbon nanotubes (CNT) have shown great potential in water, wastewater treatment and desalination as they have many attractive key physicochemical properties with the ability to be functionalized to enhance their affinity and selectivity.»
Basic differences between conventional dead - end filtration and cross-flow
membrane filtration.
The heart in
any membrane filtration process is the membrane itself, and choosing the best membrane for a given process is often a complex task.
Virtually all common dairy processes utilize
membrane filtration directly or indirectly.
The basic difference between conventional filtration and cross-flow
membrane filtration is illustrated in Figure 6.4.2.
Several differences can be noted between conventional and
membrane filtration.
The operation of
membrane filtration plants mostly depends on the pressure generated by the pumps used.
Diafiltration = a design to obtain better purification — water is added to the feed during
membrane filtration to wash out the low molecular feed components that will pass through the membranes, often lactose and minerals
For some products,
membrane filtration is simply the only viable processing solutions.
Our membrane filtration systems operate efficiently in hundreds of plants throughout the world.
It should be mentioned that traditional or conventional filtration is typically used for the separation of suspended particles larger than 10 µm, while
membrane filtration separates substances with molecular sizes less than 10 µm.
We offer a complete portfolio of
membrane filtration systems Read more
All common dairy processes utilize
membrane filtration directly or indirectly.
The protein level of the milk can be adjusted by
membrane filtration techniques or by adding skim milk powder.
For this reason, we will be presenting a test plant for
membrane filtration at the Anuga FoodTec.
The APV branded systems and technologies are world leading within advanced UHT and
membrane filtration processes, cheese systems, dairy, food, butter, beverage and brewery technology, as well as general processing technology.
The company also provides heat exchangers, cleaning - in - place,
membrane filtration, carbonisation, sugar treatment, dissolving, powder handling, evaporation, plant components, spray drying, standardisation and automation.
The SPX portfolio includes a wide range of APV branded products, systems and technologies, such as heat transfer (aseptic and non-aseptic),
membrane filtration, UHT treatment, cheese production systems, distillation, mixing and blending technologies designed to operate at maximum efficiencies in modern processing lines within the dairy, food, beverage and related industries around the world.
SiccaDania has also established separate companies within
membrane filtration, UHT and mixing technologies.
The non-protein constituents are removed by physical separation techniques such as precipitation,
membrane filtration and / or ion exchange.
Several of its water sector technology clusters, including
membrane filtration and ultraviolet disinfection, are world leaders.
Conduct downstream processing through
membrane filtrations, chromatographic separations, vapor separating
Not exact matches
Effective technologies are available and proven — including advanced screening,
membrane and aerobic and anaerobic digestion,
filtration and reverse osmosis for example — but the best combinations «just can't be picked off the shelf to fit particular projects.
Using a waterproof recording video inspection camera and a 20 - meter - long probe to visually identify the source of failure, the patent - pending Tetra Pak
Membrane Scope provides visual confirmation of the source of poor permeate quality and product loss in spiral - wound
filtration systems.
«Artificial bio-inspired
membranes for water
filtration.»
For many researchers, graphene is ideal for use in
filtration membranes.
From a desire to develop breakthrough technologies for water
filtration and purification, researchers have developed
membranes with artificial channels inspired by the proteins that form the pores in biological
membranes: aquaporins.
Mr. Jijo Abraham and Dr. Vasu Siddeswara Kalangi were the joint - lead authors on the research paper: «The developed
membranes are not only useful for desalination, but the atomic scale tunability of the pore size also opens new opportunity to fabricate
membranes with on - demand
filtration capable of filtering out ions according to their sizes.»
Previously graphene - oxide
membranes have shown exciting potential for gas separation and water
filtration.
Graphene - oxide
membranes have attracted considerable attention as promising candidates for new
filtration technologies.
«However, there are so many confined spaces, such as pores in geomedia in subsurface environments or in water
filtration membranes, where calcium carbonate or calcium sulfate form as scale.
«Today's
filtration membranes have nanoscale pores that are not something you can manufacture in a garage very easily,» Karnik says.
A false - color electron microscope image showing E. coli bacteria (green) trapped over xylem pit
membranes (red and blue) in the sapwood after
filtration.
An obstacle, says Olgica Bakajin, chief technology officer and a nanotechnologist at Porifera, a company that designs water -
filtration membranes in Hayward, California, is for the researchers to figure out how to take this nano - unit and turn it into a portable gizmo.
There, bacteria in the water are reduced among others by UV radiation and the addition of chlorine or by
filtration using ceramic
membranes.
This report of the successful connection of capillaries with the podocytes of iPS cell - manufactured human glomeruli resulting in a distinct
filtration membrane is the first of its kind in the world.
Through the special
filtration membrane of the podocytes, protein does not leak into the urine but allows moisture pass through.
Human glomerular podocytes further matured around adjacent blood vessels as in a living body (image 1) and formed a characteristic
filtration membrane structure..
For desalinating ocean water or brackish groundwater, new
filtration technologies can make a real difference, Worley anticipates, citing «continual advancements in
membrane materials and energy recovery systems.
Higher pH, between eight and 10, triggers the
membrane's
filtration material, 200 nanometers thick (one nanometer equals 40 millionths of an inch), to become more porous, allowing water to pass through at a much faster rate while trapping salt (for desalinization) and contaminants such as arsenic (which becomes ionic at such a high pH and thereby easier for the filter to separate out).
The innovative nanotechnology uses non-biodegradable plastic grocery bags to make «carbon nanotube
membranes» — highly sophisticated and expensive materials with a variety of potential advanced applications including
filtration, sensing, energy storage and a range of biomedical innovations.
April 20, 2018 - MIT engineers develop reel - to - reel technique for making graphene film, which could be particularly useful for making
filtration membranes.
Of all the many potential applications for the single - atom - thick form of carbon, graphene,
filtration membranes......
«
Membrane morphology and topology for fouling control in Reverse Osmosis
filtration systems» presented by Bowen Ling