MKEY (UK) - Static (Original Mix)
MKEY (UK) - Static (Original Mix) ---> https://ssurll.com/2tEg97
Water TreatmentMunicipal water treatment facilities use continuous mixing to process drinking water for municipalities. There are a variety of sources for drinking water and therefore different processing steps for the water. Each process uses rotating and static mixing to treat the water for human consumption.
Chemineer and Prochem rotating agitators and Kenics static mixers are utilized in the FGD process. Top entering and side entering units help scrub the flue gas and mix the slurries needed to process and treat the gas. Static mixers are used in the process and in the ducts of power plants to mix and homogenize continuous processing streams.
Chemineer agitators and Kenics static mixers are used throughout the corn wet milling process. Chemineer, a global leader in agitators and static mixers, designs for fermentation processes have evolved over the years to provide increased capability to producers.
The exploration for oil and gas and downsteam processing utilizes Greerco high shear mixers, Kenics static mixers (ISO 3171), Chemineer rotating agitators, and Prochem side entering agitators throughout the processing steps.
Chemineer agitators and Kenics static mixers are used throughout all ethanol and biodiesel production processes. High-efficiency impellers and lower-pressure drop static mixers help reduce the energy footprint. Chemineer Application Engineers can assist with laboratory and pilot plant agitator and mixer designs, then follow with scale up to production facilities.
Prochem and Chemineer rotating agitators and Kenics static mixers are used in all areas of the pulp mill. Extensive field experience in all applications allows Chemineer to provide an optimum solution for your process and local service to help with operation questions and expansion plans.
Chemineer agitators and Kenics static mixers and heat exchangers are used extensively in polymer and plastic production. Batch reactors, continuous processing, tubular reactors, and heat exchangers are used, often in combination, in polymer production plants.
Chemineer, Kenics, and Greerco products are used throughout biotechnology applications. Chemineer has experience in designs including large fermenters with BT-6 impellers, small bottom entering bioreactors, Kenics static mixer heat exchangers and in-line tubular reactors, and Greerco high shear mixers. New mixing concepts such as CleanSweep, a concept that allows sealing of the tank contents without the use of mechanical seals, has been utilized in pharmaceutical manufacturing.
Chemineer and Prochem agitators and Kenics static mixers are used throughout the process. Chemineer provides high pressure seals, corrosion resistant wetted parts, and a wide range of impellers to perform specific functions in these applications.
Our analytical capabilities are not limited to just cylindrical stirred tanks. Our CFM technology can also be used to evaluate rectangular and side-entering agitated tanks and turbulent and laminar flow static mixers.
Laser Doppler Anemometry (LDA) is widely recognized as the best method of non-intrusively determining mean velocity and turbulence data with pinpoint accuracy. Chemineer uses the Dantec FlowLite turnkey measurement system to determine velocities in stirred tanks and static mixers.
One of the benefits of such an analysis is that both qualitative and quantitative assessments of mixing may be gained simultaneously. In static mixer systems, we have used this information to calculate a coefficient of variation while in stirred tanks, blend times have been measured. In either circumstance, the user gains a general understanding of the mixing mechanisms.
Not every application in mixing has been studied, and many applications are difficult to model computationally. As a result, it is sometimes necessary to scale down the problem and study it in the laboratory. Our Customer Testing facility houses an OSHA-compliant 144-square-foot hood used for a myriad of dynamic and static mixing applications. Available in our Customer Testing Facility are:
New products start in R&D and we are continually searching for highly efficient and cost-effective impellers, impeller systems, static mixers, and static mixer systems. We use various tools to assist us in evaluating the individual possibilities. These include:
Static mixers are a low energy and efficient mixing device that can handle a wide range of applications. Kenics was the first static mixer produced and to this day is the leader in static mixer design and technology.
We live in an era of risk and instability. Globalization, new technologies, and greater transparency have combined to upend the business environment and give many CEOs a deep sense of unease. Just look at the numbers. Since 1980 the volatility of business operating margins, largely static since the 1950s, has more than doubled, as has the size of the gap between winners (companies with high operating margins) and losers (those with low ones).
Think about it. The goal of most strategies is to build an enduring (and implicitly static) competitive advantage by establishing clever market positioning (dominant scale or an attractive niche) or assembling the right capabilities and competencies for making or delivering an offering (doing what the company does well). Companies undertake periodic strategy reviews and set direction and organizational structure on the basis of an analysis of their industry and some forecast of how it will evolve.
If your site serves lots of static content (like blog posts or product landing pages) across multiple pages, consider implementing it using AMP (Accelerated Mobile Pages). It's a special flavor of HTML that ensures your site stays fast and user friendly, and can be further accelerated by various platforms, including Google Search.
At commercial scale, only a well-engineered forced aeration system can sustain the process conditions that produce efficient composting. When airflow is insufficient, composting becomes inhibited by a combination of high temperature, low oxygen availability, and often by prolonged low pH. During active composting the airflow required to sustain even semi-optimized process conditions can easily be 100X higher than a passive/convective aeration method can deliver. It is not that passively aerated (turned windrow and static pile) or poorly aerated methods do not make compost, they are just much less efficient (slower) and generate more odorous gasses. A well-engineered forced aeration system minimizes these inhibitions by uniformly supplying plenty of air when necessary. The key design criteria of a forced aeration system include the rate of airflow (cfm/cy of compost), the uniformity of airflow through the whole pile, and the ability to intelligently adjust the airflow to control temperatures early in the process. A discussion of aeration system design standards is found in Section 4.
Compared to either turned windrow or static pile methods, forced aeration enables more tons of feedstock per acre to compost due to the combination of faster processing times and the ability to aerate extended bed piles. This can significantly reduce contact water management issues.
As mentioned in Section 2.0, forced aeration systems can embody several airflow modes. The most common and simplest design is positive (bottom up) aeration. Once a negative (top down) or recirculating element is added, the design becomes complicated by condensate, corrosion management, and lower density air. However, negative aeration is generally superior and best-suited for controlling air emissions compared to positive aeration. And compared to any single direction aeration static pile mode, a well-engineered reversing or recirculating system will significantly reduce vertical temperature stratification (cold where ambient air enters the pile and hot where air exhausts). While these latter two options add complexity, semi-uniform pile temperatures are key to high efficiency composting.
Employers must provide workers who work in zoned areas with appropriate clothing that does not create the risk of an electrostatic discharge igniting the explosive atmosphere, eg anti-static footwear. The clothing provided depends on the level of risk identified in the risk assessment.
If you need to reference another value in your theme, you can do so by providing a closure instead of a static value. The closure will receive an object that includes a theme() function that you can use to look up other values in your theme using dot notation.
The theme() function attempts to find the value you are looking for from the fully merged theme object, so it can reference your own customizations as well as the default theme values. It also works recursively, so as long as there is a static value at the end of the chain it will be able to resolve the value you are looking for.
By the end of the 1960s, the American and British counterculture and hippie movement had moved rock towards psychedelia, heavy metal, progressive rock and other styles, incorporating, for the first time in popular music, socially and politically incisive lyrics. The 1968 German student movement, French protests and Italian student movement had created a class of young, intellectual continental listeners, while nuclear weapons, pollution, and war inspired protests and activism. Avant-garde music had taken a turn towards the electronic in the mid-1950s.These factors all laid the scene for the explosion in what came to be termed krautrock, which arose at the first major German rock festival in 1968 in Essen. Like their American, British and international counterparts, German rock musicians played a kind of psychedelia. It was however, strikingly innovative as a fusion of psychedelia and the electronic avant-garde. That same year, 1968, saw the foundation of the Zodiak Free Arts Lab in Berlin by Hans-Joachim Roedelius, Boris Schaak and Conrad Schnitzler, which further popularized the psychedelic-rock sound in the German mainstream. Originally Krautrock was a form of Free art, which meant that Krautrock bands gave their records away for free at Free Art Fairs.The next few years saw a wave of pioneering groups. In 1968, Can formed, adding jazz to the mix (and in that way the krautrock scene can be seen to parallel the emerging Canterbury scene in England at the same time), while the following year saw Kluster (later Cluster) begin recording electronic instrumental music with an emphasis on static drones. In 1970, Popol Vuh became the first krautrock group to use an electronic synthesizer, to create what would be known as "kosmische musik". The bands Tangerine Dream (formed in 1967), Ash Ra Tempel, and Cosmic Jokers (all linked by collaboration with Klaus Schulze), would follow suit in the years to come. Faust also made use of synthesizers and tape manipulation in a way foreshadowing the noise rock of the future.In 1972, two albums incorporated European rock and electronic psychedelia with Asian sounds: Popol Vuh's In den Gärten Pharaos and Deuter's Aum. Meanwhile, kosmische musik saw the release of two double albums, Klaus Schulze's Cyborg and Tangerine Dream's Zeit (produced by Dieter Dierks), while a band called Neu! began to play highly rhythmic music. By the middle of the decade, one of the most well-known German bands, Kraftwerk, had released albums like Autobahn, Radioaktivität ("Radio-Activity" in English), and Computerwelt ("Computer World" in English), which laid the foundation for electro, techno and other styles later in the century.The release of Tangerine Dream's Phaedra in 1974 marked a divergence of that group from Krautrock to a more melodic sequencer-driven sound that was later termed Berlin School. In that same year Klaus Schulze delivered one more LP of pure Krautrock, Blackdance, and began to release more hypnotic versions of what TD was doing. 781b155fdc