Since the 1980s, the 85-mile stretch of the Mississippi River that connects New Orleans and Baton Rouge, Louisiana, has been known as “Cancer Alley.” The name stems from the fact that the area’s residents have a 95% greater chance of developing cancer than the average American. A big reason for this is the concentration of industrial facilities along the corridor — particularly petrochemical manufacturing plants, many of which emit ethylene oxide, an extremely potent toxin that is considered a carcinogen by the Environmental Protection Agency and has been linked to breast and lung cancers. But even though the general risks of living in the region have been clear for decades, the exact dangers are still coming into focus — and the latest data show that the EPA’s modeling has dramatically underestimated the levels of ethylene oxide in southeastern Louisiana. On average, according to a new study published on Tuesday, ethylene oxide levels in the heart of Cancer Alley are more than double the threshold above which the EPA considers cancer risk to be unacceptable. To gather the new data, researchers from Johns Hopkins University drove highly sensitive air monitors along a planned route where a concentration of industrial facilities known to emit ethylene oxide are situated. The monitors detected levels that were as many as 10 times higher than EPA thresholds, and the researchers were able to detect plumes of the toxin spewing from the facilities from as many as seven miles away. The resulting measurements were significantly higher than the EPA and state environmental agency’s modeled emissions values for the area.

continue reading

Ethylene Oxide Prices | Pricing | Trend | News | Database | Chart | Forecast

 Ethylene Oxide (EO) Prices a crucial chemical in the global manufacturing industry, plays a pivotal role in producing various products, including plastics, antifreeze, textiles, and detergents. As a highly reactive organic compound, it serves as an essential intermediate in producing ethylene glycol and other chemicals. The pricing of ethylene oxide is influenced by several key factors, including raw material costs, supply and demand dynamics, production capacities, and regulatory policies. In recent years, fluctuations in ethylene oxide prices have captured the attention of industry stakeholders, driven by complex market forces and geopolitical events.

The cost of ethylene oxide is closely tied to the price of ethylene, its primary raw material. Ethylene itself is derived from petroleum and natural gas, making its price sensitive to fluctuations in global oil and gas markets. When crude oil prices rise, the cost of producing ethylene increases, which in turn drives up the price of ethylene oxide. Conversely, when oil prices fall, the cost of ethylene and ethylene oxide tends to decrease. This close relationship between ethylene and ethylene oxide prices underscores the volatility of the market, as any significant changes in crude oil prices can have a ripple effect throughout the supply chain.

Get Real Time Prices for Ethylene Oxide: https://www.chemanalyst.com/Pricing-data/ethylene-oxide-1102

Supply and demand dynamics also play a critical role in determining ethylene oxide prices. The global demand for ethylene oxide is driven by its use in various industries, including automotive, construction, and consumer goods. When demand for products that rely on ethylene oxide increases, such as during periods of economic growth or industrial expansion, prices tend to rise due to the heightened demand. Conversely, during economic downturns or periods of reduced industrial activity, demand for ethylene oxide may decline, leading to lower prices. Supply constraints, such as plant shutdowns, maintenance outages, or unexpected disruptions in production, can further exacerbate price volatility by limiting the availability of ethylene oxide in the market.

In addition to raw material costs and supply-demand dynamics, production capacities significantly impact ethylene oxide prices. The construction of new production facilities or the expansion of existing ones can increase the supply of ethylene oxide, potentially leading to lower prices if demand remains constant. Conversely, delays in the construction of new plants or the decommissioning of older facilities can reduce supply and push prices higher. Technological advancements in production processes can also influence prices by improving efficiency and reducing the overall cost of production, thereby exerting downward pressure on prices.

Geopolitical events and regulatory policies also play a substantial role in shaping the ethylene oxide market. Trade disputes, tariffs, and sanctions can disrupt the global supply chain, leading to changes in the availability and cost of ethylene oxide. For instance, tensions between major oil-producing nations or disruptions in key supply routes can cause sudden spikes in the prices of raw materials like ethylene, which in turn affects ethylene oxide prices. Regulatory policies, particularly those related to environmental standards and safety regulations, can also impact the cost of production. Stricter regulations may require producers to invest in new technologies or processes to comply with environmental and safety standards, potentially increasing production costs and, subsequently, prices.

Environmental concerns related to ethylene oxide emissions have prompted regulators in various regions to impose stricter controls on its production and use. Ethylene oxide is a potent greenhouse gas and has been identified as a human carcinogen, leading to increased scrutiny from environmental agencies. Compliance with these regulations may necessitate additional investments in emissions control technologies or alternative production methods, which could drive up production costs. As producers pass these costs onto consumers, prices for ethylene oxide and its downstream products may rise.

The global ethylene oxide market is also influenced by regional differences in production and consumption patterns. Major producers of ethylene oxide are concentrated in regions with abundant access to raw materials, such as North America, the Middle East, and Asia. These regions benefit from relatively lower production costs due to the availability of cheap raw materials and economies of scale. In contrast, regions with limited access to raw materials or higher production costs may experience higher prices for ethylene oxide. Additionally, transportation and logistics costs associated with moving ethylene oxide across regions can further contribute to price disparities in different markets.

Market speculation and the activities of financial traders can also impact ethylene oxide prices. As with many commodities, the ethylene oxide market is subject to speculation by traders who anticipate future price movements based on factors like expected changes in supply and demand, geopolitical events, or shifts in regulatory policies. These speculative activities can lead to price fluctuations that may not necessarily reflect the underlying fundamentals of the market. While speculation can contribute to price volatility, it also provides liquidity to the market, enabling producers and consumers to hedge against potential risks.

In conclusion, the pricing of ethylene oxide is influenced by a complex interplay of factors, including raw material costs, supply and demand dynamics, production capacities, geopolitical events, regulatory policies, and market speculation. Understanding these factors is crucial for industry participants, including producers, consumers, and investors, as they navigate the challenges and opportunities presented by the ethylene oxide market. As the global economy continues to evolve, the ethylene oxide market will likely remain dynamic, with prices subject to ongoing fluctuations driven by both short-term events and long-term trends.

Get Real Time Prices for Ethylene Oxide: https://www.chemanalyst.com/Pricing-data/ethylene-oxide-1102

Contact Us:

ChemAnalyst

GmbH - S-01, 2.floor, Subbelrather Straße,

15a Cologne, 50823, Germany

Call: +49-221-6505-8833

Email: [email protected]

Website: https://www.chemanalyst.com

Staying Competitive: Managing Ethylene Oxide Production Costs in a Global Market

The latest report titled Ethylene Oxide Production Cost by Procurement Resource, a global procurement research and consulting firm, provides an in-depth cost analysis of the production process of Ethylene Oxide.

Procurement Resource study is based on the latest prices and other economic data available. It also offers additional analysis of the report with detailed breakdown of all cost components (capital investment details, production cost details, economics for another plant location, dynamic cost model). In addition, the report incorporates the production process with detailed process and material flow, capital investment, operating costs along with financial expenses and depreciation charges.

Request For Free Sample: https://procurementresource.com/production-cost-report-store/ethylene-oxide/request-sample

Procurement Resource’s detailed report describes the stepwise consumption of material and utilities along with a detailed process flow diagram. Furthermore, the study assesses the latest developments within the industry that might influence Ethylene Oxide production cost, looking into capacity expansions, plant turnarounds, mergers, acquisitions, and investments.

Procurement Resource Assessment of Ethylene Oxide Production Process:

1. Ethylene Oxide Production Cost From Catalytic Reaction Between Ethylene and Oxygen: This report gives a summary of the production process and expense assessment for ethylene glycol industrial production in a ethylene glycol manufacturing plant. This method involves the utilization of silver metal as a catalyst to react ethylene and oxygen in a reactor. This reaction produces ethylene oxide, water, carbon dioxide, as well as heat. Then, these produced gases are cooled and scrubbed with water and potassium carbonate solution. This process dissolves ethylene oxide, which is then extracted from the solution by distillation.

Request For Free Sample: https://procurementresource.com/cost-analysis/ethylene-oxide-production-using-catalytic-reaction-between-ethylene-and-oxygen/requestsample

2. Ethylene Oxide Production Cost From Ethylene: This report provides an overview of the production process of and expense evaluation of ethylene glycol industrial production across ethylene glycol manufacturing plant. In this method, ethylene and oxygen are reacted with each other in a reactor at temperatures ranging from 200 to 300 degrees Celsius. Further, the obtained product undergoes cooling and scrubbing by using potassium carbonate as well as water. Lastly, ethylene oxide is separated from the solution via a desorption and distillation process.

Request For Free Sample: https://procurementresource.com/cost-analysis/ethylene-oxide-production-from-ethylene/requestsample

Product Definition:

Ethylene glycol is a chemical compound represented by the formula HOCH2CH2OCH2OH. This compound is a colorless and odorless thick liquid that has low toxicity. Ethylene glycol has various applications, including automobile and textile industries. Additionally, it has three types, namely Monoethylene Glycol (MEG), Diethylene Glycol (DEG), and Triethylene Glycol (TEG). MEG has numerous applications, such as being a chemical intermediate in the production of other chemicals like polyurethanes and phthalate plasticizers. It can also be used as a coolant and heat-transfer agent, antifreeze, precursor to polymers, among others. DEG, on the other hand, is an organic compound used mainly as a precursor to polymers and as a solvent. However, DEG is toxic and can cause damage to the kidneys, liver, and central nervous system. It can also irritate the skin. Lastly, TEG is a colorless and thick liquid that is soluble in water and has a sweet taste.

Market Drivers:

The ethylene glycol market is currently experiencing a surge in demand, primarily driven by the textile and automotive industries. This increased demand can be attributed to advancements in production technology, which have made bio-based ethylene glycol a more popular and viable option. As a result, the market is expected to witness significant growth during the forecast period. The textile industry is expected to be a major contributor to this growth as it continues to expand rapidly. Additionally, the PET resin industry is also expected to see considerable growth, which will result in greater consumption of ethylene glycol. The packaging industry has also experienced a significant uptick in growth due to the changes in consumer lifestyles. As more people opt for food containers and bottles made from PET, there will be an increased demand for MEG, further boosting the ethylene glycol market.

Looking for an exhaustive and personalised report that could significantly substantiate your business?

Although Procurement Resource leaves no page unfurled in terms of the rigorous research for the commodities that make the heftiest base of your business, we incline more towards tailoring the reports per your specificities. All you need is one-to-one consulting with our seasoned consultants to comprehend the prime parameters you are looking to pin your research on.

Some of the common requests we receive from our clients include:

Adapting the report to the country/region where you intend to establish your plant.

Adjusting the manufacturing capacity of the plant according to your needs

Customizing machinery suppliers and costs to meet your requirements.

Providing additional information to the existing scope based on your needs.

About Us:

Procurement Resource ensures that our clients remain at the vanguard of their industries by providing actionable procurement intelligence with the help of our expert analysts, researchers, and domain experts. Our team of highly seasoned analysts undertakes extensive research to provide our customers with the latest and up-to-date market reports, cost models, price analysis, benchmarking, and category insights, which aid in simplifying the procurement process for our clientele.

Procurement Resource work with a diverse range of procurement teams across industries to get real-time data and insights that can be effectively implemented by our customers. As a team of experts, we also track the prices and production costs of an extensive range of goods and commodities, thus, providing you with updated and reliable data.

We, at Procurement Resource, with the help of the latest and cutting-edge techniques in the industry, help our clients understand the supply chain, procurement, and industry climate so that they can form strategies that ensure their optimum growth.

Contact Us:

Company Name: Procurement Resource Contact Person: Chris Byrd Email: [email protected] Toll-Free Number: USA & Canada – Phone no: +1 307 363 1045 | UK – Phone no: +44 7537 132103 | Asia-Pacific (APAC) – Phone no: +91 1203185500 Address: 30 North Gould Street, Sheridan, WY 82801, USA

Ethylene Oxide

Ethylene Oxide

called oxirane by IUPAC CAS#: 75-21-8 Used to sterilize medical equipment and supplies. Sterilization of medical devices. It is an organic compound with the formula C2H4O. It is a cyclic ether and the simplest epoxide. It is a basic chemical primarily produced by the catalytic oxidation of ethylene.

Categories: Ethylene Oxide Gas, Specialty GasesTags: C ₂H ₄O gas, Ethylene oxide, Ethylene oxide supplier

Description

Ethylene Oxide Cylinders

DSW industry offers Ethylene Oxide in various purity, packaged perfectly in multiple cylinder sizes and volumes, to ensure quality. C2H4O is available in 5 PPM-50 PPM concentrations in Nitrogen available in 12L, 34L, 58L or 110L cylinders. It is a flammable, colorless gas used to make other chemicals used in making a range of products, including antifreeze, textiles, plastics, detergents, and adhesives.

Ethylene Oxide specifications

raw materialC2H4OoriginSinopec2#-2019-02-350quantity3 tonwayBottle samplinginspection standardGB/T 13098-2008itemindexmeasured valueconclusionC2H4O %≧99.9599.99up to standardappearanceColorless transparent, no mechanical impuritiesColorless transparent, no mechanical impuritiesup to standardTotal aldehydes (in acetaldehyde) %≦0.003Check-in COAup to standardAcid (in acetic acid)≦0.002Check-in COAup to standardCO2 %≦0.001˂0.0005up to standardH2O %≦0.010.0062up to standardHazen≦5Check-in COAup to standardInspector;                     date:2019.02.25

Ethylene oxide – Wikipedia

Ethylene oxide is a colorless gas at 25 °C (77 °F) and is a mobile liquid at 0 °C (32 °F) – the viscosity of liquid ethylene oxide at 0 °C is about 5.5 times lower than that of water. The gas has a characteristic sweet odor of ether, noticeable when its concentration in the air exceeds 500 ppm. C2H4O is readily soluble in water, ethanol, diethyl ether, and many organic solvents.

Ethylene Oxide Uses

EtO is capable of sterilizing at low temperatures, enabling the sterilization of many plastic, composite, and other temperature-sensitive devices. Additionally, it penetrates packaging materials and diffuses into the channels and crevices of complicated medical devices, including entire palletized loads of devices, destroying pathogens and assuring sterility of the product. Ethylene Oxide is also utilized to sterilize, fumigate, and reduce the microbial load for a variety of other products, including spices and seasonings, cosmetics, aseptic packaging, laboratory materials, pharmaceuticals, artifacts, archival materials, and library objects.

Manufacturers use EO primarily in producing other chemicals used in consumer and industrial applications. The main chemical created from EO is ethylene glycol, a chemical used in products from brake fluid to industrial solvents. Some studies have found it in e-cigarette liquids.

EO is also used to create healthcare products and sterilize medical devices.

C2H4O uses include: Adhesives Agricultural insecticide Antifreeze Chemicals used to create fabrics for clothes, pillows and carpets Cosmetics Detergents Fiberglass used in jet skis, bowling balls, and other products Herbicide Household cleaners Industrial cleaners Medicines Polyethylene terephthalate (PET) plastic resin used to make packaging and beverage containers. Shampoos Sterilizing medical devices that are too delicate or sensitive for high-heat sterilizing, such as knee implants, bandages, electronics, and devices containing plastic Sterilizing spices

Ethylene Oxide is a colorless gas or liquid with an Ether-like odor. It is used to make other chemicals, and as a sterilant and fumigant.

Ethylene is sometimes called the most important chemical in the petrochemical industry because it serves as the feedstock for a huge range of everyday products. It's used in the production of antifreeze, vinyl, synthetic rubber, foam insulation, and plastics of all kinds. Currently, ethylene is produced through an energy- and resource-intensive process called steam cracking, where extremes of temperature and pressure produce ethylene from crude oil in the presence of steam -- and in the process, emit tons of carbon dioxide into the atmosphere. Another way in which ethylene can be produced, however, is through a process called oxidative coupling of methane (OCM). It has the potential to be a greener alternative to steam cracking, but until recently, the amount of ethylene it yields did not make the process economically viable.

Read more.

3 good things

Compounded some chemotherapy drugs today *O * the paclitaxel and docetaxel were really fun to inject into the bag because they're really viscous. Also looks cool

Cleaned up a bit more

Used a nice scented soap on my hands

Cath Lab Ethylene Oxide Gas Sterilizer

Cath Lab Ethylene Oxide Gas Sterilizer is one of the key machines commonly uses in pharmaceutical, textile, healthcare and food industries among others. Adinath International is a leading cath lab hospital EO sterilizer manufacturer in India offering cath lab sterilizer equipped with plethora of features.

Ethylene Oxide Sterilizer LX720EOS

Labdex ethylene oxide sterilizer holds a 120 L capacity with a durable 304 stainless steel inner chamber and a carbon steel exterior. It integrates built-in sensors, automatic control, an LCD display, and a printer. The explosion-proof heating system, air replacement, and temperature alarms ensure safe and efficient sterilization.

Lucky me! Certain batches of Instant Pancit Canton noodles have been recalled owing to the presence of ethylene oxide. This was started immediately once the FDA was informed about it.

On July 7, 2022, a batch of Lucky Me! Instant Pancit Canton noodles were recalled. Ethylene oxide is allowed to a certain level since it is been utilized for sterilization of fruits and vegetables. The EU forbids the use of ethylene oxide in food to safeguard consumer safety.

Read more: https://www.foodresearchlab.com/insights/recall/statement-from-fda-of-recall-products-containing-ethylene-oxide/

Ethylene Oxide Prices Trend, Pricing, Database, Index, News, Chart, Forecast

 Ethylene Oxide prices have been subject to significant fluctuations in recent times, driven by a complex interplay of supply and demand dynamics, regulatory changes, and global economic trends. Ethylene oxide, a key chemical compound used in the production of various consumer goods and industrial products, has seen its prices impacted by multiple factors. One crucial driver is the supply of ethylene, the primary raw material for ethylene oxide production. Any disruptions in ethylene supply, such as those caused by plant shutdowns, maintenance issues, or natural disasters, can exert upward pressure on ethylene oxide prices. Additionally, demand for ethylene oxide is influenced by its widespread use in diverse industries, including automotive, textiles, and healthcare. Fluctuations in demand stemming from shifts in consumer preferences, technological advancements, or regulatory changes can further contribute to price volatility.

Regulatory factors also play a significant role in shaping ethylene oxide prices. Environmental regulations aimed at reducing emissions of volatile organic compounds (VOCs), including ethylene oxide, can necessitate costly upgrades to production facilities or even lead to the closure of certain plants. Compliance costs associated with these regulations can be passed on to consumers in the form of higher prices for ethylene oxide and products derived from it. Moreover, changes in trade policies or tariffs can impact the flow of ethylene oxide and its feedstocks across international borders, influencing prices in both domestic and foreign markets.

Get Real Time Prices of Ethylene Oxide: https://www.chemanalyst.com/Pricing-data/ethylene-oxide-1102

Global economic conditions represent another critical determinant of ethylene oxide prices. Economic growth or recession can directly affect demand for ethylene oxide-containing products, thereby influencing prices. During periods of robust economic expansion, demand for ethylene oxide may rise as industries ramp up production to meet growing consumer demand. Conversely, economic downturns can lead to reduced demand for ethylene oxide and downward pressure on prices. Furthermore, currency fluctuations, geopolitical tensions, and trade disputes can introduce additional uncertainties into the market, impacting the cost of ethylene oxide and its derivatives.

Supply chain disruptions, such as those caused by transportation bottlenecks, labor strikes, or natural disasters, can also affect ethylene oxide prices. Interruptions in the delivery of raw materials or the distribution of finished products can lead to temporary shortages or imbalances in supply and demand, prompting price fluctuations. Additionally, the integration of ethylene oxide production facilities within broader petrochemical complexes means that disruptions in other parts of the value chain, such as ethylene or propylene production, can indirectly influence ethylene oxide prices.

Technological advancements and innovations in ethylene oxide production processes can have mixed effects on prices. On one hand, improvements in efficiency and productivity can help lower production costs, exerting downward pressure on prices. On the other hand, investments in cleaner and more sustainable production technologies may entail higher initial capital expenditures, which could be reflected in higher prices for ethylene oxide. Moreover, breakthroughs in alternative manufacturing methods or the development of substitute materials could disrupt traditional ethylene oxide markets, introducing additional price competition.

Environmental and safety concerns surrounding ethylene oxide production and use may also impact prices. Increased scrutiny of ethylene oxide emissions and their potential health effects could lead to stricter regulations or voluntary industry initiatives aimed at reducing emissions and improving safety standards. While these measures may enhance the sustainability and social responsibility of ethylene oxide production, they could also entail additional costs for producers, which may be passed on to consumers in the form of higher prices.

In conclusion, ethylene oxide prices are influenced by a multitude of factors, including supply and demand dynamics, regulatory changes, global economic trends, supply chain disruptions, technological advancements, and environmental and safety concerns. Understanding the complex interplay of these factors is essential for businesses operating in ethylene oxide markets to anticipate and adapt to price fluctuations effectively. By staying informed and agile, stakeholders can navigate the dynamic landscape of ethylene oxide pricing and mitigate risks while capitalizing on emerging opportunities.

Get Real Time Prices of Ethylene Oxide: https://www.chemanalyst.com/Pricing-data/ethylene-oxide-1102

Contact Us:

ChemAnalyst

GmbH - S-01, 2.floor, Subbelrather Straße,

15a Cologne, 50823, Germany

Call: +49-221-6505-8833

Email: [email protected]

Website: https://www.chemanalyst.com

Ethylene Oxide Sterilizer/Weight-196 kg/

Labtron  Ethylene Oxide Sterilizer  is a 120-L vertical unit with a manual door opening, operating at 50 °C sterilization temperature and maximum pressure -60 kPa. It features a 304 stainless steel chamber, automatic 3-cycle ventilation, digital LCD control, built-in sensors, an oil-free vacuum pump, explosion-proof heating, high and low temperature alarms, casters, and a user-friendly design.

chemistry is so funny to me cause where else would this pathetic looking thing be a menace

Labtron Ethylene Oxide Sterilizer is a vertical, 80L capacity unit with a constant 50°C temperature and -60 kPa work pressure. It features a manual door, 304 stainless steel chamber, LCD display, built-in printer, explosion-proof heating, over-voltage/temp protection, and automatic residual air processing for reliability.

Ethylene Oxide Sterilizer

Labtron Ethylene Oxide Sterilizer is a vertical, constant temperature heating box type sterilizer cabinet with manual door opening offers 80 L of capacity,This process uses ethylene oxide gas to sterilize items at a relatively low temperature. pen_spark it has Working pressure-60 kPa an Maximum pressure 140 kPa in ethylene oxide; 1g/L-This concentration is effective for sterilization.