D-Limonene Production

D-Limonene Production Disruptions: The Impact of Hurricane Milton

D-Limonene Production

The effects of Hurricane Milton are currently being felt throughout the global supply chain, especially when it comes to chemicals products. From cleaning supplies to food-grade chemicals, millions of companies rely on chemical products to keep their operations running efficiently. But the recent hurricane has lead certain chemicals supplies to plummet, and prices to skyrocket. One of the chemicals who’s supply is at an all-time low? D-Limonene Production. 

Read on to learn more about D-Limonene shortages and how you can best help your business prepare. 

What Is D-Limonene Production? 

First, let’s discuss what this chemical is. 

D-Limonene is a naturally occurring substance in citrus and other species of plants. Here are some common examples of where D-Limonene can be extracted from the peels of… 

  • Tangerines 
  • Grapefruit 
  • Oranges 
  • Lemons 
  • Limes 

Once extracted, this chemical can be used as an ingredient in various products. For example, it’s used in essential oils for fragrance, as food-grade flavoring, or even to repel insects, and is commonly used as a cleaner. 

D-Limonene is a natural solvent and degreaser, making it an effective and eco-friendly cleaning ingredient. Here’s how it may be used:  

  • Removing tough stains (i.e., chewing gum) 
  • Removing adhesives (i.e., tar and tape) 
  • Degreasing 
  • Cleaning hard surfaces 
  • Hand cleaner 
  • & more! 

How the Impact of Hurricane Milton Is Affecting D-Limonene Production 

Unfortunately, one of the primary chemicals affected by the supply chain disruptions from Hurricane Milton was D-Limonene production. 

Why?  

While Florida is known for its sunshine, it’s also known for its Florida oranges, and the state accounts for 36% of the United States’ citrus production. 

In the wake of Hurricane Helene and Hurricane Milton, citrus groves across the state of Florida have been negatively impacted, leading to record low citrus production. 

Before both hurricanes hit Florida, citrus production was already estimated to reach an all time low of 16%.  

After Hurricane Milton, citrus production is estimated to be down 40% compared to last year, resulting in over $2 billion in damage to crops and infrastructure.  

Not only does this mean that the agriculture industry is suffering, but all the industries that rely on citrus.  

For the chemical industry, this means cleaners containing the key ingredient of D-Limonene. 

How to Prepare for Production Shortages: Choose Preptone 

The best way to prepare for shortages is to take action now. 

Stock up now with Ecolink’s Preptone, a precision blend of an ultra-high purity of d-limonene and an acetone base. 

This cleaner is VOC exempt, making it a greener alternative to harsher chemical products, and an effective product for removing tough stains and substances. 

Visit our website or contact our team to order yours now! 

Wood Alcohol Uses

Wood Alcohol: Properties and Applications in Various Industries  

Wood alcohol is a chemical with numerous names. One of the names that is used to refer to it is methanol. This alcohol is also known to possess a simple chemical formula: CH4O. This blog will discuss the properties and various industrial applications of this alcohol.   

What are some properties?  

This alcohol is a highly poisonous compound if ingested. It is known to cause blindness and can lead to death. Some of the basic chemical and physical properties can be found below.   

  • Colorless Liquid  
  • The boiling point of 64.96 C or 148.93 F  
  • Solidifying point of -93.9 C or -137 F  
  • Explosive in air  
  • Burns with a nonluminous flame  
  • Forms homogeneous mixtures with water  
  • Odor like ethyl alcohol  
  • Intoxicants of alcoholic beverages  
  • Strong poison  
  • High-octane, clean-burning fuel source  

Methanol has become a valuable substance in various industries due to these properties.  

What industries use wood alcohol?  

It is common to find this type of alcohol being used in industries such as:  

  • Automotive   
  • Solvent   
  • Cosmetics   
  • Agricultural  
  • Building   
  • Fuel   

The automotive industry commonly uses methanol to create antifreeze and windshield wiper fluid. This alcohol can also be used as a general solvent; however, it is often used as an additive in paint thinners. Its use in the cosmetic industry is as a perfume additive.   

The agricultural industry uses it to produce pesticides since this alcohol is an essential ingredient in formaldehyde. Formaldehyde is also crucial in the building industry since it is used in glues as well as wooden building materials  

Lastly, methanol has become a detrimental compound in the fuel industry. This alcohol is a high-octane yet clean-burning fuel source. It can be found in rocket fuels and various other fuels. There have been recent advancements in replacing gasoline in automotive vehicles with methanol.   

Looking to purchase methanol or wood alcohol?  

We here at Ecolink are here to help! Our goal is to provide our customers with eco-friendly yet still efficient chemicals. If you are interested in browsing through our selection, click here! If you have any questions about our products or blogs, feel free to contact one of our expert chemists here!   

 

Wood Alcohol Uses

Wood Alcohol Production: From Biomass to Valuable Fuel  

Wood alcohol or methanol is a fuel source derived from scrap wood and paper clippings. It can be used as a fuel- source for propane and natural gas burners. There are also other applications of wood alcohol: such as being an automotive antifreeze and a general solvent. This blog will discuss the production of this alcohol and how biomass- such as wood- can be transformed into a valuable fuel source.  

How is Wood Alcohol Production done?   

The production of wood alcohol has become easier over time; however, the alcohol’s hazardous nature has not changed. To produce wood alcohol, a destructive distillation process such as the one outlined below must be used.   

  • The wood is collected (typically oak or pine)  
  • Then the wood is chopped into smaller pieces and dried  
  • After being chopped, the wood is loaded into a sealable vessel or retort   
  • The wood is brought to a high temperature  
  • Once heated, the wood begins to break into different gases, liquids, and solids  
  • The gases and vapors pass through a condenser where they are cooled and converted into liquid (Wood Vinegar)  
  • Once condensed, the wood vinegar is distilled to separate the methanol or wood alcohol from the other substances  
  • The distillation process involves heating the wood vinegar to a certain point in which the methanol turns into a vapor  
  • The wood alcohol vapor is then condensed and collected in a separate vessel  
  • The final step is to add a denaturant or chemical; this makes wood alcohol inedible  

Although wood alcohol is a highly toxic compound, it also is a valuable fuel source. There are a multitude of industries that use this substance for numerous roles in their production process.   

Looking to purchase wood alcohol?  

Here at Ecolink, we sell a variety of eco-friendly chemicals, from wood alcohol to acetone. If you are interested in our vast selection of chemicals,  click here! If you have any questions about any of the products we sell, then click here to contact one of our expert chemists! They are here to answer any questions that you may have! Do not hesitate to contact us today! 

Methanol vs Ethanol: A Comparison of Fuel Properties  

Methanol and ethanol are two alcohol-based fuels that have gained significant attention as potential alternatives to traditional fossil fuels. Both are considered renewable and offer cleaner combustion, making them attractive options for reducing greenhouse gas emissions and promoting sustainability. However, their eco-friendly chemistry and abilities- do not make them impervious to drawbacks. This blog will compare the properties of these two potential fuels and examine their applications in various sectors.   

Methanol vs Ethanol: Fuel Properties  

Methanol is the simplest alcohol and contains a small number of atoms:   

  • One carbon atom  
  • Three hydrogen atoms  
  • One oxygen atom  

This simple alcohol has a lower energy content per unit volume when compared to gasoline and ethanol. It is produced from various feedstocks (such as natural gas and coal). However, it is toxic and can be harmful if ingested or inhaled.   

Ethanol consists of several atoms:  

  • Two carbon atoms  
  • Five hydrogen atoms  
  • One oxygen atom  

It is primarily produced through the fermentation of sugars and starches found in crops like corn and wheat.    

Advantages of Methanol vs Ethanol   

Each fuel has its benefits compared to the other.   

Methanol has a high-octane rating, making it suitable for use in high-compression engines/in fuel blends to enhance performance. Methanol combustion produces lower carbon monoxide emissions when compared to gasoline, contributing to cleaner air.  

 Ethanol, on the other hand, is biodegradable and less toxic than methanol, making it safer for handling and accidental spills. It can also be blended with gasoline in different concentrations (i.e., E10, E85), allowing for flexibility in fuel formulations and reducing dependence on fossil fuels.   

Applications of Alternative Fuels  

Alternative fuels, such as methanol and ethanol, have numerous applications.   

Methanol, with its high-octane rating and versatility, finds applications in various industrial processes. It is used as a cleaner-burning fuel option, contributing to reduced carbon monoxide emissions and improved engine performance.   

Ethanol, similarly, stands out as a renewable resource primarily produced from plant-derived feedstocks. The chemical finds extensive use in transportation, power generation, and industrial sectors, offering reduced greenhouse gas emissions and serving as a component in fuel blending with gasoline.   

More Information About Sustainable Fuels  

As businesses prioritize sustainability and environmental responsibility, incorporating methanol and ethanol into their operations presents an opportunity to achieve cleaner solutions. Knowing the differences between methanol vs ethanol, such as their fuel properties and advantages, ensures the correct selection for your business needs. For assistance finding the right solution to your chemical needs, Ecolink has been providing safer solutions for over three decades! Visit our online store to browse our products or request a sample today! 

Alternative Fuels Examples: Innovations in Industrial Energy

In the sustainability and reduced environmental impact, many businesses are turning to alternative fuels as a viable solution for their energy needs. These innovative fuels offer a greener and more efficient approach to industrial energy consumption, helping companies transition from traditional fossil fuels that contribute to greenhouse gas emissions and air pollution. In this post, we will look at various alternative fuels examples and highlight how these innovations are reshaping the landscape of industrial energy.   

Alternative Fuels Examples  

  • Biodiesel – biodiesel is derived from renewable sources such as vegetable oils, animal fats, and recycled cooking oils  
  • Renewable natural gas (RNG) – produced from organic waste materials, such as food waste, agricultural residues, and wastewater treatment plant byproducts.   
  • Hydrogen – hydrogen is a versatile fuel that can be used in various applications, including fuel cell vehicles, industrial processes, and energy storage.   
  • Ethanol – ethanol is an alcohol-based fuel produced from crops like corn, sugarcane, and wheat  
  • Methanol – produced from renewable sources like biomass; and has potential applications as a transportation fuel, in power generation, and as a feedstock for chemical production.  

Applications of Alternative Fuels  

Many fields use alternative fuels. For example, they play a significant role in transportation, powering vehicles from cars to ships. Electric vehicles (EVs) and hybrid vehicles use electricity as an alternative to traditional gasoline or diesel. Alternative fuels are increasingly used in power generation to diversify the energy mix and reduce emissions. Finally, alternative fuels are being employed in heating and cooling systems, such as geothermal heat pumps, solar thermal energy, and district heating systems, providing sustainable solutions for temperature control.   

Advantages of Alternative Fuels  

Alternative fuels offer many benefits, such as lower or zero greenhouse gas emissions compared to conventional fossil fuels, contributing to climate change mitigation and sustainability goals. Many alternative fuels are produced from local and renewable resources, reducing dependence on imported fossil fuels. Alternative fuels, such as hydrogen and biofuels, offer energy efficiency and cleaner combustion processes, leading to operational costs and environmental impact. Overall, alternative fuels have spurred innovation in clean energy technologies, driving research and development in areas (such as advanced biofuel production).   

More Information on Alternative Fuels  

As the business landscape shifts towards sustainability and reduced environmental impact, alternative fuels have emerged as a game-changing innovation in industrial energy. From biodiesel and renewable natural gas to hydrogen and ethanol, these fuel alternatives provide greener and more efficient solutions. No one has explored environmental stewardship more than Ecolink. We provide safe chemical solutions for more than 30 years. To explore a list of products, visit our online store here. Or, for a free consultation, contact our team of experts today!