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What are The Advantages Of Using Medical Oxygen Plant
Oxygen is the most vital non-metallic element in the planet earth's
atmosphere making up around 21% by volume and 23% by weight of the air. It is
crucial for maintaining life on the planet as it is essential for breathing.
In medical science, oxygen is very important for treatment of patients
suffering from hypoxemia, low level of oxygen. Medical oxygen is used for
treatment of health disorders such as asthma, COPD, sleep apnea,
breathlessness, etc. It is also used in surgery, as life-support system and
ambulances.
Benefits Of Using Medical Oxygen Plant
For getting high purity oxygen you would need a medical oxygen plant for
processing atmospheric oxygen. In natural state the purity of oxygen too low
to be used for medical purposes. We are in the business of manufacturing and
supplying medical oxygen plants for over three and half decades. We use high
materials and the latest cryogenic technology in the making of the plant
machinery. There are numerous advantages of onsite medical oxygen production.
The plants will give you round the clock supply of high purity oxygen. There
will be no hassles of any hiccups in supply of medical oxygen.
Manufactured With Top-Notch Technology
Medical oxygen plants must be manufactured with the best and the latest
technology. For generation of high purity oxygen one requires high quality
plant machinery. There are detailed guidelines issued by World Health
Organization (WHO) for making of medical grade oxygen with specified purity.
We are one of the few oxygen plant manufacturers that use high quality
stainless steel columns and argon welding in the making of the machinery.
Components and other materials used in our fabricating are sourced only from
the best vendors. We have also got CE certification because of our compliance
with world-class standards.
Medical Gas Systems: The Definitive Guide
Most people think of the medical gas system as oxygen that is pumped to
patients in surgery or in their hospital room. In fact, there are several
gases that make up the average medical gas system including the anesthesia gases that
are part of the cart in the operating room. Medical gas systems sustain life
and are regulated as a drug. This means multiple layers of restrictions and
instruction on the proper, safe and legal way to do things.
According to CBC News, the first recorded medical gas cross connection
deaths were at a former Sudbury General Hospital in Canada back in 1973. The
outcome of this tragic event was the evolution of a code requiring 3rd party
verification and later installer certifications. The concern for patients and
the efficiency of hospitals has led to several layers of oversight of medical
gas systems from the government (CMS and OSHA) their agents (TJC and NPV) and
the industry in the NFPA 99-2012 code. While all these organizations have
oversight and regulatory power over medical sites using gases, their
regulations do not always seem to completely agree. Since there is so much
scrutiny over the use of these medicinal gases, most hospitals hire
third
party inspectors annually to check every element of their system to
confirm they are working correctly to keep patients and staff safe and meet
the standards set by the organizations above. Not passing a medical gas
inspection (or receiving citations) can affect a hospital’s reimbursement and
or accreditation status.
This guide is to provide an overview of medical gas systems including:
Medical Gas Source Equipment
Manifold Rooms and Equipment
Medical Gas Alarm Systems
Patient Room Gas Connections
Hoses, Pigtails and Connectors
Additional Resources
Types Of Industrial Gas Compressors
The gas compressors
used in industries are mechanical devices that increase the pressure of
a gas by reducing its volume. Unlike liquids, which are relatively
incompressible, the gases are compressible and hence the compressor reduces
the volume of a gas. The industrial gas compressors are used to increase the
static pressure of the gas and distribute it at a specified flow rate and
pressure in a process application. In process industries, compressors are
prime movers of gas and air. The compressors are similar to pumps, as both
increases, the pressure on a fluid and both can transport the fluid through a
pipe. The compression of gas naturally increases its temperature and the use
of compressed gas can be found in numerous applications from everyday items
such as automobiles, jet engine propulsion, vacuum cleaners, air conditioners
to large industrial scale compressors for chemical processing, transmission,
and natural gas propulsion.
Apart from these, the gas compressor types are useful for a wide variety
of applications, including : compressing intake air in gas turbines,
transporting natural gas through pipelines, pressurizing aircraft cabins,
providing compressed air for air brakes, storing purified gases in small
volumes, storing air in submarines and moving heat in refrigeration systems.
In gas production operations, there are many cases in which the pressure of a
gas must be raised to a higher value. When the pressure in a gas reservoir
reduces, it will ultimately reach a point where it will no longer overcome all
the pressure of the line into which the gas is being delivered and also
pressure losses in the system. It then becomes essential to add a compressor
to the system to increase the reservoir energy. And for this, we need to know
the different types of gas compressors.
What is an Oxygen Generator?
Oxygen generators
separate oxygen from air so that the gas can be fed into industrial
processes in real-time or stored in pressure tanks. Oxygen generators are used
in dozens of industrial applications ranging from gold mining to aquaculture
to life support.
Normal ambient air is made up of 78% nitrogen, 21% oxygen and other trace
gases like argon and CO2. In order to remove the nitrogen and trace gases, an
oxygen generator is used.The smallest oxygen generators are no larger than a
soda can, while industrial oxygen generators can fill a room. However, all
oxygen generators have the same purpose: to provide a safe supply of
concentrated oxygen gas. Businesses who need bulk oxygen gas often start by
purchasing tanks of the gas from other companies who fill those tanks using an
industrial oxygen generator. If their need for pure oxygen is large and
ongoing, it may be cost-effective to purchase their own oxygen generator
system and produce oxygen on site. While the up-front cost of the machinery is
significant, the cost per cubic foot of oxygen generated is 1/3 to 1/2 that of
purchasing bulk oxygen, so over time, the oxygen generator can pay for itself.
One example of this is hospitals that pipe oxygen into patient rooms. Instead
of using bottled oxygen, most hospitals have one or more industrial oxygen
generators in the building. A system of pressurized pipes are used to flow
oxygen to each room.
Oxygen Tanks Vs. Oxygen Concentrators: Which Are Better
Oxygen therapy is essential in cases of obstructed breathing, lung
diseases, and general breathing difficulties. Oxygen tanks and
oxygen concentrators both fall
under the umbrella term of oxygen therapy and have the purpose of enabling
easier breathing.
For example, patients with obstructive pulmonary disease of obstructive
sleep apnea are generally in need of such medical devices, which surely
provide beneficial results. Both medical devices provide long-term oxygen
therapy to patients in need. They can often be portable but also serve as
stationary devices. These devices are incredible because they don’t only
provide oxygen to the patients, but also remove dust, bacteria, and other
harmful particles from it.
Oxygen Tanks: What You Need to Know
Oxygen tanks, also known as oxygen cylinders are metal tanks that contain
pressurized air. These devices are generally used for medical purposes, in
cases of patients with pulmonary diseases. They are relatively inexpensive,
but surely are required for continuous re-buying or refilling, because
patients need to always have a tank or two by their side.Oxygen tanks are
limited by capacity or the size of the tank, so they don’t additionally
produce oxygen, only provide as much as they already contain. Oxygen tanks are
usually personalized, so they feature a troller or similar wheel-based option
to help easier transportation, whether for the patient, medical staff, or
caregiver.
Oxygen Concentrators: What You Need to Know
Oxygen concentrators are medical devices utilized in cases of oxygen
therapy for patients with breathing-related disorders. They can be used in
cases of pulmonary diseases or obstructive sleep apnea, depending on the
conditions and their severity. Compared to oxygen tanks, oxygen concentrators
are highly efficient, and because of that and the way they work, also more
expensive.
How Do Oxygen Concentrators Work?
Oxygen concentrators work by filtering the surrounding air and
compressing it to the required density. Then, the concentrator delivers the
compressed and purified oxygen into the pulse-dose or continuous flow delivery
system, where it is ready for the patient to consume. Oxygen concentrators
also feature filters that help the device purify the air and remove all the
dust and harmful particles. Not to mention that levels of oxygen concentration
and delivery setting can be adjusted and that patients have several inhaling
options; from special facial masks to the nasal cannula.
Oxygen Concentrators Advantages
what is the disadvantage of an oxygen tank is the advantage of oxygen
concentrators. Namely, these devices provide unlimited oxygen supply mainly
because they continuously filter the surrounding air, without the risk of
running out or needing refilling. This is probably the main advantage of these
devices and the reason why so many patients opt for concentrators instead of
tanks.because concentrators rely on filtering air, rather than carrying
pressurized air, they are more lightweight and easier to move around than the
tanks. This allows them to be easily transportable and portable. That is why
portable oxygen concentrators are such a huge success among patients,
especially those who travel a lot.
- Created: 08-10-22
- Last Login: 08-10-22