Showing posts with label O2. Show all posts
Showing posts with label O2. Show all posts

Tuesday, November 10, 2020

Brewers Safely Capture and Reuse Carbon Dioxide

 


Brewing beer produces carbon dioxide (CO2), especially during fermentation (the process by which yeast converts sugars into alcohol). Estimates are that fermentation yields three times as much carbon dioxide as is actually needed to produce (including brewing, canning, and bottling) each batch of beer, with up to 15 grams of CO2 generated per pint of beer brewed. According to the British Beer & Pub Association, over 8 billion pints of beer were consumed in the United Kingdom alone in 2019, contributing to the production of a whole lot of carbon dioxide.

While large, global breweries, with their vast financial resources, have been recapturing and reusing carbon dioxide for a number of years, most craft brewers have considered carbon recapture technology to be prohibitively expensive. They have treated excess CO2 as waste, and vented it into the atmosphere, though that practice may make little sense, either economically or environmentally since, in order to produce subsequent batches, brewers must then turn around and purchase carbon dioxide to carbonate the beer, purge beer tanks and lines of oxygen, and to transfer the beer from tanks to bottles or cans.

And carbon dioxide purchase is a recurring line-item expense that eats into craft brewers’ profit margins.

Capturing and Reusing Carbon Dioxide

The good news is that recent technological innovations, driven in large part by companies working with NASA on space exploration and investigation, have led entrepreneurs to an awareness that CO2 recapture may in fact now be seen as a relatively affordable, and certainly environmentally friendly, option for craft breweries. The technology involves capturing the CO2 that has accumulated during fermentation and purifying the gas to make it suitable for reuse and/or sale.

The Washington Post has reported that Texas-based Earthly Labs has created a product called “CiCi” (for “carbon capture”), a refrigerator-sized unit that enables brewers to trap and reuse accumulated carbon dioxide. Captured CO2 is piped from the fermentation tanks to a “dryer” to separate water from CO2gas. The gas is next purified and chilled to a liquid for ease of storage and subsequent use.

Brewers can reuse their stored carbon dioxide to carbonate new batches of beer, as well as in the canning and bottling processes for the new beer. Craft Brewing Business, a trade website dedicated to the business of commercial craft brewing, reports that breweries can reduce monthly carbon dioxide expenses by 50 percent or more, and CO2 emissions by up to 50%, via carbon capture technology.

Breweries that capture more CO2 than they can use, may elect to sell the surplus to other breweries, bars, restaurants, and any other businesses that also use carbon dioxide. For instance, the State of Colorado, Earthly Labs, the Denver Beer Co., and The Clinic announced in early 2020 a pilot program in which Denver Beer Co. would sell its surplus CO2 to The Clinic, a medical and recreational cannabis dispensary, which would then pump the carbon dioxide inside its grow rooms to stimulate and enrich plant growth.

Oxygen Monitors Can Mitigate Unseen Dangers of Carbon Dioxide

Brewers and others working around carbon dioxide need to be aware of the potential risks associated with CO2. Carbon dioxide is an odorless and colorless oxygen-depleting gas. Since it deprives the air of oxygen, CO2 use presents a potential health hazard for brewery personnel.

According to the Occupational Safety and Health Administration (OSHA), an environment in which oxygen levels fall below 19.5 percent is considered an oxygen-deficient atmosphere and should be treated as immediately dangerous to health or life. When there is not enough oxygen in the air, persons working in the affected area may become disoriented, lose consciousness, or even suffocate due to the lack of sufficient oxygen. Because CO2 is devoid of odor and color, individuals working around it might well, in the absence of appropriate monitoring equipment, be unaware that a risk situation has developed.

As such, The National Fire Protection Association recommends that gas monitoring equipment be placed in storage areas or any place where carbon dioxide is used or stored.

PureAire Dual O2/CO2 Monitors

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PureAire Monitoring Systems’ Dual Oxygen/Carbon Dioxide Monitor offers thorough air monitoring, with no time-consuming maintenance or calibration required. A screen displays current oxygen and carbon dioxide levels for at-a-glance reading by brewery employees, who derive peace of mind from the Monitor’s presence and reliable performance.

In the event of a carbon dioxide leak, and a decrease in oxygen to an unsafe level, PureAire’s Monitor will set off an alarm, complete with horns and flashing lights, alerting brewery personnel to evacuate the area.

PureAire’s Dual Oxygen/Carbon Dioxide Monitor is well-suited for facilities where carbon dioxide is used, such as breweries, bars, and restaurants. Our Dual O2/CO2 monitor includes both a non-depleting, zirconium oxide sensor cell, to monitor oxygen levels, and a non-dispersive infrared (NDIR) sensor cell, to monitor carbon dioxide levels. PureAire’s O2/CO2 monitors can last, trouble-free, for over 10 years under normal operating conditions.

Saving money, reducing greenhouse gas emissions, and ensuring employee safety...that is certainly something to which we can all raise a glass.



Monday, March 16, 2020

What Is Up With Helium


Helium is the second most abundant element in the universe and used across a variety of industries. Valued for more than simply filling party balloons, helium is of critical importance in many commercial applications, including high-tech, automotive, healthcare, and aerospace.

Helium Uses
For instance, the manufacture of fiber optics requires an all-helium environment to prevent air bubbles or other flaws in the delicate fibers used in cables to transmit data. Additionally, the semiconductor industry utilizes the cooling properties of helium to transfer heat away from computer chips during manufacturing.

Helium plays a key role in inflating automobile airbags and may also be used to detect leaks in car air-conditioning systems. Metal fabricators use helium for welding because of its inert properties and high heat transfer capabilities, which make it the perfect shielding gas (an inert or semi-inert gas that protects the weld from oxygen and water) for welding materials with high heat conductivity, such as copper, magnesium alloys, and aluminum.

In the medical field, helium is used to cool the superconducting magnets in MRI (magnetic resonance imaging) and NMR (nuclear magnetic resonance) equipment, to treat medical conditions such as asthma and emphysema, andfor laparoscopic surgery.

NASA uses helium as an inert purge gas for hydrogen systems and as a pressurizing agent for ground and flight fluid systems, as well as a cryogenic agent for cooling various materials. Moreover, as in the automotive sector, helium is likewise used in precision welding applications in aerospace manufacturing.

Staying Safe While Working with Helium
Since helium is odorless and colorless, it has no early warning properties. Helium can displace oxygen in the air to levels below what is needed for humans to breathe. Exposure to helium can cause dizziness, nausea, and loss of consciousness. Absent proper oxygen monitoring, unconsciousness, and even death may occur in seconds. The National Institutes for Health recommends installing oxygen monitors anywhere compressed gases, such as helium, are stored or used.

PureAire Monitors
PureAire Monitoring Systems’ oxygen deficiency monitors continuously track levels of oxygen and will detect helium leaks before the health of employees is put at risk. Built with zirconium oxide sensor cells, to ensure longevity, PureAire’s O2 deficiency monitors can last, trouble-free, for over 10 years under normal operating conditions. In the event of a helium gas leak, and a decrease in oxygen to an unsafe, OSHA action level, the monitor will set off an alarm, replete with horns and flashing lights, alerting staff and users to evacuate the area.

Each PureAire O2 monitor has an easy to read screen, which displays current oxygen levels, for at-a-glance readings by employees, who derive peace of mind from the monitor’s presence and reliability.

Wednesday, November 20, 2019

Fast, Frozen, Convenience-Tunnel Freezers


Frozen foods first became commercially viable in the 1930s, thanks in large part to Clarence Birdseye. He is credited with inventing the double-belt freezer, the forerunner to modern quick-freeze technology, which includes the tunnel freezers used by most major food processors in North America.

Frozen foods offer many benefits to today’s busy consumers, including convenience; minimal processing, with few to no preservatives; a long spoilage-free product shelf life; and, especially when compared with canned foods, superior taste, since the ingredients are quick-frozen at their peak of freshness. Seasonal foods, such as fruits and vegetables, are, once they have been frozen, now available year-round. In the same way, people living in landlocked locations can enjoy fresh-frozen seafood, no matter the distance from the coast. And, through the near magic of quick-frozen partially baked bread products, we can consume bakery-quality goods at home, straight out of the ovens in our own kitchens.

Still, even as Mr. Birdseye’s invention made frozen foods available to mass consumers in the first place nearly a century ago, so, too, have more recent innovations in freezing technology, including new freezer types, such as tunnel freezers using cryogenic gases, greatly improved the quality and, therefore, the market acceptance, of frozen foods. These freezers very quickly “flash freeze” foods at extremely low temperatures, such that the foods maintain essentially all of their original freshness, flavor, and texture.

How Tunnel Freezers Work

Tunnel freezers work by rapidly freezing food using cryogenic gases, such as liquid nitrogen (LN2) or carbon dioxide (CO2). The fresh food items are placed on a conveyor belt, which carries them into the freezer, where an injection system (utilizing either liquid nitrogen or carbon dioxide), together with fans circulating the gas-chilled air, ensure that all food surfaces are quickly and evenly frozen.

Food products frozen in cryogenic tunnel freezers, including all manner of proteins, fruits, vegetables, and parbaked bread and dough items, are ultimately shipped to grocery chains and warehouse superstores; operators of quick service, fast casual, and fine dining restaurants; and school and hospital cafeterias, among other places, and they are enjoyed daily by millions of hungry people.

Monitoring Can Protect Food Processing Employees

While the use of liquid nitrogen and/or carbon dioxide is essential in that part of the quick-frozen food processing industry using tunnel freezer technology, it is not without risk. LN2 and CO2 are both oxygen-depleting gases, and oxygen deprivation could put employees in real danger if there are gas leaks from freezer supply lines or exhaust systems, or from on-site gas storage containers. In the event of a leak, plant personnel could become disoriented, lose consciousness, or even suffocate from breathing oxygen-deficient air. Since liquid nitrogen and carbon dioxide are both colorless and odorless, workers would, in the absence of appropriate monitoring, have no way of knowing that there has in fact been a gas leak.

PureAire Water-Resistant Dual O2/CO2 Monitors 

PureAire Monitoring Systems’ water-resistant dual oxygen/carbon dioxide monitors offer thorough air monitoring, with no time-consuming maintenance or calibration required. A screen displays current oxygen and carbon dioxide levels for at-a-glance reading by employees, who derive peace of mind from the monitor’s presence and reliable performance.




In the event of a nitrogen or carbon dioxide leak, and a decrease in oxygen to an unsafe level, the monitor will set off an alarm, complete with horns and flashing lights, alerting personnel to evacuate the area.

PureAire’s dual oxygen/carbon dioxide monitor is housed in an IP67 water resistant enclosure that will keep the electronics dry during wash-downs and will remain accurate at extremely low temperatures.That makes the monitor ideally suited for facilities using liquid nitrogen or carbon dioxide, such as frozen food processing plants with tunnel freezers. Built with zirconium oxide sensor cells and non-dispersive infrared sensor (NDIR)cells to ensure longevity, PureAire’s dual O2/CO2 monitors can last, trouble-free, for over 10 years under normal operating conditions.