Next Generation Fuels

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Biodiesel Feedstocks – Lesquerella Oil & Linseed Oil 1024 721 Star Oilco

Biodiesel Feedstocks – Lesquerella Oil & Linseed Oil

We’re continuing our deeper look into different types of feedstock that Renewable Energy Group (REG) studied in 2009 in the Feedstock and Biodiesel Characteristics Report. This posts two feedstocks are Lesquerella Oil & Linseed Oil.  Here is a link to the main page of feedstocks we have examined so far.

Lesquerella fendleri Oil

Lesquerella fendleri, also known as Physaria fendleri, is part of the mustard family. (Lesquerella) Physaria Fendleri part of the mustard familyThe common names of this plant are popweed and Fendler’s bladderpod. This silvery-gray perennial has four-petaled yellow flowers that grow on a plant that is about 1 to 16 inches tall. Found in plains and mesas in the southwestern United States, it requires low water usage and is one of the first of the flowering wildflowers in the spring (Source).

Lesquerella produces hairless capsules called siliques which contain 6 to 25 seeds. These seeds contain 20-28% oil with around 62% lesquerolic acid. Lesquerella oil is a source of hydroxyl unsaturated fatty acids, and is useful as a replacement for castor oil in some applications.

While there are benefits from using this seed oil, the dark reddish-brown color of the oil is a potential limiting factor. Potential selective breeding and domestication of the plant may solve this issue, but there haven’t been much momentum at this time. That being said, there have been some studies about growing this plant for its oil and the natural gum in its seed coat for commercial use.

 

Lesquerella Oil and Lesquerella Biodiesel

Lesquerella BioDiesel Certificate of Analysis

 

 

Linseed Oil

Linseed (Linum usitatissimum) is also known as flax in North America. The plant is an annual and can grow in large range of climates. Linseed Oil and SeedsFor example, it grows in Argentina, India, and Canada. Linseed oil has been traditionally used as a drying oil. According to REG report, these seeds contains 37-42% oil. The crude oil contains 0.25% phosphatides, a small amount of crystalline wax, and a water-soluble resinous matter with antioxidant properties.

As one the earliest cultivated field crops in the US, it has found many uses for its oils. Linseed oil can be used as a varnish, pigment binder or to manufacture linoleum. These applications have seen reductions in use due to synthetic options that resist yellowing. Other uses for this plant are as nutritional supplements and foods, although raw linseed oil can become rancid unless refrigerated.  After the oil has been pressed out of the seeds, the leftover residue makes great animal food.

As some of the traditional uses of the plant are replaced with other options, use of this crop for a feedstock in biodiesel is an option.

Linseed Oil and Linseed biodiesel

 

Last article for biodiesel feedstocks was Jatropha Oil, Jojoba Oil, & Karania Oil.

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BioDiesel Feedstocks – Jatropha Oil, Jojoba Oil, & Karania Oil 1024 721 Star Oilco

BioDiesel Feedstocks – Jatropha Oil, Jojoba Oil, & Karania Oil

Jatropha Oil, Jojoba Oil, & Karania Oil

We are continuing our deeper look into different types of feedstock that Renewable Energy Group (REG) studied in 2009 in the Feedstock and Biodiesel Characteristics Report. If you would like to see what feedstocks we have talked about, this is the main page and it links to the ones we have examined.

As a reminder, B20 biodiesel (B20 stands for 20% biodiesel and 80% petroleum diesel) is the drop-in solution for reduced emissions in today’s modern diesel engines. To understand some of the alternate feedstocks that can be used for biodiesel, we are examining a report that Renewable Energy Group (REG) produced in 2009. All certificates of analysis and results are for B100.

This post is a bit different as we have only one successful biodiesel created and two failures. The oils are jatropha oil, jojoba oil and karanja oil.

Jatropha Oil

Jatropha oil comes from the shrub Jatropha curcas, also known as physic nut, Barbados nut, poison nut, bubble bush or purging nut. This plant is a succulent that loses its leaves during the dry season. It is best adapted for arid and semi-arid conditions. The resistance to high degrees of aridity allows it to grow in deserts. This shrub can thrive on only 10 inches of rain for a whole year. It is native to Mexico, Central America, Brazil, Bolivia, Peru, Argentina, and Paraguay. Jatropha curcas is considered a shrub or small tree and can reach a height of 20 ft. or more.Top of a Jatropha plant as part of a hedge

 “Shrubs begin to produce when only 4 – 5 months old, and reach full productivity at about 3 years Under good rainfall conditions, nursery plants bear fruit after the first rainy season, while directly seeded plants bear for the first time after the 2nd rainy season. With vegetative propagation, the first seed yield is higher. At least 2 – 3 tonnes of seeds per hectare can be achieved in semi-arid areas.” (Source)

The seeds contain 27% to 40% oil (Source) and develop in 90 days from the flower to the seed. Trees can have a productive life of 40 to 50 years without tending.

Uses of the plant include medical, edible and as a source of oil for biofuels. The young shoots and even young leaves can be cooked and eaten as a vegetable. The nuts can be eaten but they are purgative and, if eaten in large quantities, can be poisonous.

Medicinal uses include uses the juice from the bark as a treatment for malarial fevers and or using it to treat external burns, scabies and ringworm (Source).

The low maintenance and high oil content makes this plant attractive as a biofuel feedstock. In addition to its use for biodiesel, the oil has been made into jet fuels. In 2008, Air New Zealand flew a plane on 50/50 mix of jatropha oil fuel and jet A1 fuel (Source).

Currently biodiesel is being produced from this plant in the Philippines, Pakistan and Brazil.

 

Jatropha Oil and the biodiesel it produces

Jatropha biodiesel certificate of analysis

Jojoba Oil

Golden jojoba oil was produced from the plant called jojoba (Simmondsia chinensis), an evergreen perennial shrub grown in Arizona, Mexico, and neighboring areas. Some of the common names of this are goat nut, deer nut, pignut, wild hazel, quinine nut, coffeeberry and the gray box bush (Source). The dehulled seeds of jojoba contain 44% of liquid wax ester, which is not a triglyceride.

Seeds on a Female Jojoba BushThis shrub grows to 3 to 6 feet tall and some can get as tall as nearly 10 feet. The fruit is acorn-shaped and .4 inches to .8 inches long.  The seed is dark brown.

Uses of the plant include forage for wild animals such as deer, bighorn sheep and some livestock. In large quantities, the seed meal is toxic to many animals. The oil is different than many of the feedstocks we have discussed.

“Jojoba is unique in that the lipid content of the seeds, which is between 45 and 55 wt.%, is in the form of long-chain esters of fatty acids (FA) and alcohols (wax esters) as opposed to triacylglycerols (TAG) encountered in other vegetable oils and animal fats” (Source).

Because of this, the Jojoba oil wasn’t made into a biodiesel for this study. According to the REG Report:

“The purpose of this project was to transesterify all the feedstocks using the same procedure and if jojoba was done differently, comparisons could not be made with jojoba methyl esters. Jojoba can be transesterified and used as a fuel using a different process.”

Jojoba Oil as a biodiesel feedstock

Karanja Oil

Pure, cold pressed karanja oil was purchased from The Ahimsa Alternative, Inc.Karanja Tree source for Biodiesel Karanja (Pongamia pinnata) is a medium sized evergreen tree, and usually about 25 ft. tall but can grow as large as 80 ft tall (Source). The tree has dark green leaves and the very fragrant flowers of lavender, pink and white.  The tree grows in the humid tropic and can be found in India, China, and Japan. The seed contains 27-39% oil.

Karanja is used for oil production and has some successes in India as a feedstock. In regards to this study, they weren’t able to create a biodiesel fuel using the same procedure as the rest of the feedstocks and therefore there isn’t a sample created to test.

REG’s notes about this oil are as follows:

“Esterification was only able to reduce the FFA (Free Fatty Acid) of the oil to 0.7 wt %. Since 0.5 wt % was the maximum amount of FFA allowed in the feedstock, karanja was not made into biodiesel using the standard procedure. A small scale experiment was performed to see what would happen to the karanja when it was transesterified. A 20 gram sample of karanja oil was used, along with the standard ratios of chemicals as in the other feedstocks for the project. After the water wash step, the karanja formed an emulsion with the water and the phases would not separate. No further refining experiments were done to make karanja suitable for transesterification.”

Karanja Oil

Last article for biodiesel feedstocks was Hemp Oil & High IV and Low IV Hepar

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BioDiesel Feedstocks – Hemp Oil & High IV and Low IV Hepar 1024 683 Star Oilco

BioDiesel Feedstocks – Hemp Oil & High IV and Low IV Hepar

In this post we are going to continue our deeper look into different types of feedstock that Renewable Energy Group (REG) studied in 2009 in the Feedstock and Biodiesel Characteristics Report. The feedstocks we are looking into are Hemp Oil & High IV and Low IV Hepar. Here is a link to the main page of feedstocks we have examined so far.

As a reminder B20 Biodiesel (B20 stands for 20% biodiesel and 80% petroleum diesel)  is the drop in solution for reduced emissions in today’s modern diesel engines.   To understand some of the alternate feedstocks that can be used for biodiesel, we are examining a report that Renewable Energy Group (REG) produced in 2009. All certificates of analysis and results are for B100.

Hemp Oil

Hemp seed oil comes from the plant Cannabis sativa and contains significant amounts of linolenic acid. The hemp oil in this study was sourced out of Canada and these seeds have an oil content of 33 percent. Cannabis sativa male picture of flowers

Based on Industrial Hemp Regulations in Canada:

“Industrial hemp includes Cannabis plants and plant parts, of any variety, that contains 0.3% tetrahydrocannabinol (THC) or less in the leaves and flowering heads.

Industrial hemp also includes the derivatives of industrial hemp plants and plant parts. These do not include the flowering parts or the leaves.

Examples of derivatives that are considered industrial hemp include: hemp seed oil (oil derived from seed or grain) and hemp flour.”

THC is the chemical that has psychoactive properties and is what makes the cannabis Marijuana vs Hemp.

This biodiesel sample was created with seed oil that contained less than .03% THC.

Cannabis sativa is an annual flowering plant that originates in Central Asia and is now spread world-wide. The uses of the plant include seed oil, food, recreation, medicine and industrial fiber. (Source)

The centuries of early human cultivation of these plants has created a large variety of strains that look, grow and act different.  Pictured is an example of what a Hemp or Marijuana plant looks like in bloom.

 

Hemp Oil and hemp Biodiesel

Hemp Oil Biodiesel Certificate of Analysis

 

 

Hepar, High Iodine Value and Low Iodine Value (IV)

In this situation, Hepar is a byproduct of the heparin manufacturing process. Pharmaceutical grade heparin is derived from the mucosal tissues and of animals, such as pig intestines or cow lungs. (Mucosal tissues are part of the immune system it is the barrier between potential pathogens and the body.) Heparin is a medicine that is used as an anticoagulant.  Since the creation of Heparin is a industry secret, it is difficult to find much information about the byproduct Hepar.

High IV Hepar and Biodiesel

High IV Hepar Biodiesel Certificate of Analysis Low IV Hepar BioDiesel Certificate of Analysis

 

Last article for biodiesel feedstocks was Evening Primrose Oil & Fish Oil

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BioDiesel Feedstocks – Evening Primrose & Fish Oil 1024 516 Star Oilco

BioDiesel Feedstocks – Evening Primrose & Fish Oil

The two feedstocks we are looking into this time are Evening-Primrose Oil and Fish Oil. Here is a link to the main page of feedstocks we have examined so far.  As we continue our deeper look into different types of feedstock that Renewable Energy Group (REG) studied in 2009 in the Feedstock and Biodiesel Characteristics Report.

Evening-Primrose Oil

The Common Evening-primrose (Oenothera biennis) is also known as evening star, sun drop, German rampion, weedy evening primrose, hog weed, King’s cure-all, or fever-plant.  This plant is native to North America and grows throughout most of the continental US and in Canada. Oenothera biennis (common evening primrose). Flowers and buds

A unique aspect of this plant is that it has a bright yellow flower blooms that is open in the evening and then is closed at noon.(source)  This plant can grow up to 6 feet tall and is a biennial, meaning it lives for 2 years flowering the second year. The plant has leafy branched stems that are ridged and usually has fine white hair.

According to Friends of the wild flower:

“The leaves are both basal and stem. Basal leaves taper to short stalks and form a rosette in the first year of growth. The stem leaves develop the second year when the flowering stem rises; they are alternate, lance-like, wavy edged, slightly toothed, slightly hairy on both surfaces, with one main central vein and fine laterals. They can be up to 8 inches long near the base and 1/4 as wide, but become considerable shorter near the top of the stem.”

A simple google search shows that this plant has medicinal uses, known by some of the indigenous tribes of North America for hundreds of years. Some of the common uses were to treat bruises with a poultice and use the leaves in a tea as a stimulant. The drug in the plant can be used as a sedative and and as an astringent. The oil the plant produces is full of fatty acids and is sold as a dietary supplement.

The roots of the plant can also be boiled and eaten if they haven’t flowered yet. The leaves of the plant can be used before flowering in salads. Even the flowers can be eaten and are said to have a sweet taste.

The ability of the plant to grow in arid conditions and not need a lot of water adds potential of this plant to provide nutrients, oil and medicinal material for drier locations.

 

Evening Primrose Oil and the Bio-Diesel it produces

Evening Primrose Certificate of Analysis

 

 

Fish Oil

The Fish Oil that REG used simply says “Fish oil was obtained from a commercially available source in Peru.”  The types of fish that are used to make fish oil in Peru are anchovy, herring, menhaden or sardines.

This source was likely the same that would be purchased to produce fish oil nutritional supplements or other food products. In the production of biodiesel there is a large potential for this product. Many of the toxins and imperfections that need to come out for human consumption wouldn’t effect the creation of biodiesel.  Fish oil that is produced in the process of fish processing has potential of removing waste from going to landfills. Several scholarly papers have been written on it.  If you would like to know a little more this article was written on the waste from salmon processing in Canada.

Fish Oil and the Fish Bio-Diesel that it produces

Fish Oil Bio-diesel Certificate of Analysis

 

Last article for biodiesel feedstocks was Coconut Oil and Coffee Oil.

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BioDiesel Feedstocks: Coconut Oil and Coffee Oil 1024 683 Star Oilco

BioDiesel Feedstocks: Coconut Oil and Coffee Oil

We are continuing our deeper look into different types of feedstock that Renewable Energy Group (REG) studied in 2009 in the Feedstock and Biodiesel Characteristics Report. This week’s two feedstocks are Coconut Oil and Coffee Oil. Here is a link to the main page of feedstocks we have examined so far.

Coconut Oil

For this feedstock REG purchased refined, bleached, deodorized (RBD) coconut oil.The parts of a coconut tree.

As a background, lets talk a little bit about Coconut trees (Cocos nucifera) they are part of the palm tree family (Arecaceae) and they love sandy soils and can tolerate a high level of salt. The trees prefer regular rainfall, high humidity 70-80% and lots of sunshine.  This is why we see them on the shorelines and beaches in the warmer parts of the world. They need year round warmth and moisture to grow well and produce fruit.  The Coconut palm tree can grow up to 98 ft tall and has 13-20 ft long leaves. A tree can begin producing fruit as early as 6 years but usually take between 15 to 20 years to reach its peak producing capacity. Most trees produce about 30 fruit a year but under ideal conditions they can produce as much as 75 a year.  Coconuts can be found in more than 90 countries with most of the production coming from tropical Asia.  The Philippines, India, and Indonesia account for over 72% of the production.

Coconuts already have a variety of uses, as food, cosmetics and animal food. Virtually every part of the palm can be used by humans for economic value.

Production of the oils used for biodiesel requires the coconut meat be removed from the seeds, dried and then pressed for the oil. A coconut that is between 12 to 15 months old is best for this.  You can expect to get about 50ml of oil per nut. The remaining meal is then able to still be used as an animal feed or can even be turned into a flour for baking.

 

Coconut Oil as a feedstock for Biodiesel.

Biodiesel Certificate of Analysis for Coconut Oil Chart.

 

 

Coffee Oil

Cup of Coffee on Coffee beans, Can this be the next form of BioDiesel?Coffee comes from roasted coffee beans, these “beans” are actually the seeds from berries of the Coffea species, with the two most common species being C. arabica and C. canephora. People have been drinking coffee since the 15th century.  Coffee plants are evergreen shrubs that can grow up to 15 feet tall. They have glossy, dark-green leaves about 4 to 6 inches long.  Brazil, Vietnam, and Colombia are were most of the coffee is coming from.

Most Coffee grounds are thrown away or used as compost, but if we were to extract the oil possibilities arise. Coffee oil comes from spent coffee grounds; the grounds can contain as much as 11 to 20 percent oil. Extracting the oil doesn’t stop the grounds from being used as compost and you now have an oil that can be converted into biodiesel.  In the past the process of extracting the oil was cost prohibitive and took many steps to complete. There have been some recent advances in this process that could change this in the future. This method, if used on all coffee grounds, could produce over 286 million gallons a year of biodiesel.

 

Coffee Oil and the biodiesel that is produced from it.

Biodiesel Certificate of Analysis for Coffee Oil Chart.

 

Last article for biodiesel feedstocks was Castor Oil and Choice White Grease.

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BioDiesel Feedstocks – Castor Oil & Choice White Grease

In this post we continue our deeper look into different types of feedstock that Renewable Energy Group (REG) studied in 2009 in the Feedstock and Biodiesel Characteristics Report. This week’s two feedstocks are Castor Oil and Choice White Grease. For more information and more feedstocks this is the main page of the feedstocks we have examined so far.

Castor Oil

Castor oil comes from Ricinus communis, known commonly as the castor bean plant. While the castor bean is not a real bean, it is called this due to the shape of the seeds.  These seeds consist of about 45-50% oil. Ricinus communis known commonly as Castor Bean plantRicinus communis is a fast-growing shrub type plant that can reach the size of a small tree. This perennial flowering plant is native to the southeastern Mediterranean Basin, Eastern Africa, and India, but grows easily throughout tropical regions. It is not a cold hardy plant, although in a suitable environment it can become invasive.  Castor bean plants are grown as ornamental plants throughout the world and are used extensively as a decorative plant in parks and public areas. The castor bean plan will grow rapidly in a single season, about 6-10’ tall. Ornamentally, it is most valued for its huge, palmately (having four or more lobes or leaflets radiating from a single point) 5-11 pointed lobes, toothed, glossy green leaves (each to 1-3’ across) and round, spikey, reddish-brown seed capsules. Small cup-shaped, greenish-yellow apetalous (lacking flower petals) spikes which are not particularly showy. Different cultivations of the plant result in dwarf and large plants, some with attractive reddish, bronze or purple leaves and bright and colorful flowers. Castor Beans contain about 45-50% oil

An additional benefit of this source of oil is that it doesn’t impact the food supply. The entire plant is poisonous, but has some reported medicinal uses. Other uses of the plant include being used as an insecticide against some ticks and food for silkworms. Castor oil has been used as a lubricant in engines for years, because of the high heat resistance it has historically been used in two-stroke engines.

 

 

 

 

Castor Oil and Bio-diesel sample

Castor Oil biodiesel Certificate of Analysis

Choice White Grease

The US Department of Agriculture defines Choice White Grease (CWG) as “A specific grade of mostly pork fat defined by hardness, color, fatty acid content, moisture, insolubles, unsaponifiables and free fatty acids.”

CWG is similar to beef tallow that we discussed in a previous week. It is an animal by-product, meaning that they are only produced in relation of raising the animal for meat or food production. As we can see from the picture it is a saturated fat and is at least partially solid at room temperature. This means that the resulting B100 biodiesel will have a higher cloud point.  CWG has historically been used as livestock feed. Additionally, using CWG for biodiesel gives pork producers an additional revenue and outlet for the product, helping elevate the return on investment for these farmers.

Choice White Grease and Bio-diesel sample

Choice White Grease biodiesel Certificate of Analysis

 

Last article for biodiesel feedstocks was Algae Oil and Canola Oil.

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BioDiesel Feedstocks – Algae Oil & Canola Oil

This post’s two oils are Algal Oil and Canola Oil.  If you would like to look ahead at some of the other feedstocks that Renewable Energy Group (REG) studied, or if you would like to look a little more in-depth at the comparisons here is the link to the Feedstock and Biodiesel Characteristics Report.   This is the main page of feedstocks we have looked at so far, and last weeks look at Borage Oil & Camelina Oil is here.  B20 Biodiesel (B20 stands for 20% biodiesel and 80% petroleum diesel)  is the drop in solution for reduced emissions in today’s modern diesel engines.  To understand what some of the alternate feedstocks that can be used for biodiesel, we are examining a report that Renewable Energy Group (REG) produced in 2009. All certificates of analysis and results are for B100.

Algal Oil

Algal Oil has a huge potential to be the next source of Biofuel feedstock. Among the many benefits is that algae can be grown in any environment that can contain water, and algae doesn’t carry the negative stigma of using a potential source of food to create a fuel.  In addition, you could use algae to clean up waste water and then use the fats to create the biodiesel. A recent study here is working on that concept. The U.S. Department of Energy has recently invested $2 million dollars into University of Michigan for research into algae as a diesel fuel. (see story here) The goal is to find high yield algae that produce a high grade bio crude for renewable diesel or biodiesel. Here is the YouTube video about the research.

The two diverse samples of crude algal oil, that were used in the report from 2009, were obtained from Solazyme, Inc.  This Company works with algae to produce renewable oils and ingredients for industries. The report doesn’t go into what kinds of algae was used or the process that they used to convert the algae to oil.

Biodiesel Certificate of Analysis for Algae Oil 1 Bio-diesel Certificate of Analysis for Algae Oil 2

Canola Oil

Canola is the seed of the species Brassica napus or Brassica campestris.Canola is the seed of the species Brassica napus Brassica Napus is also known as rape or rapeseed.  The name rape is derived from the Latin word for turnip, rapum.  Brassicaceae is the family of which mustard, cauliflower and cabbage belong.  The name Canola comes from the contraction of Canada and ola, meaning oil.  Developed in 1970s by researchers from the University of Manitoba and Agri-Food Canada, the use of the term Canola means that the oilseed meets certain standards.  The Official Definition of Canola is:

“Seeds of the genus Brassica (Brassica napusBrassica rapa or Brassica juncea) from which the oil shall contain less than 2% erucic acid in its fatty acid profile and the solid component shall contain less than 30 micromoles of any one or any mixture of 3-butenyl glucosinolate, 4-pentenyl glucosinolate, 2-hydroxy-3 butenyl glucosinolate, and 2-hydroxy- 4-pentenyl glucosinolate per gram of air-dry, oil-free solid.”

Government regulation requires Canola oil to to be limited to a maximum of 2% erucic acid these particular samples contains less than two percent erucic acid and the solid component contains less than 30 micromoles per gram of glucosinolates.

According to Reuters, “Rapeseed is the most produced oilseed in the EU.” This trend is gradually shifting to soya beans this article continues to explain. Currently 60 percent of the vegetable oil used in biodiesel comes from rapeseed oil in the EU.

Canola is the seed of the species Brassica napus

Certificate of Analysis from REG for Canola Oil based Bio-diesel

 

 

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BioDiesel Feedstocks – Borage Oil & Camelina Oil 1024 721 Star Oilco

BioDiesel Feedstocks – Borage Oil & Camelina Oil

This post continues our deeper look into different types of feedstock that Renewable Energy Group (REG) studied in 2009 in the Feedstock and Biodiesel Characteristics Report.  Different feedstocks give the resulting B100 biodiesel different characteristics.   This week’s two oils are Borage Oil and Camelina Oil.  If you would like to learn more about some of the other feedstocks please visit the main page of feedstocks we have looked at so far.

Borage Oil

Borage oil comes from the plant, Borago officinalis, also known as starflower. Borage officinalis Plant (starflower)The starflower is easily grown in average, dry to medium moisture, well-drained soils in full sun to light shade. In addition this plant tolerates poor soils and drought. It is native to Mediterranean region and is an annual that will continue to propagate itself in a garden by reseeding. The plant grows to 2 to 3 feet tall and the flowers are commonly blue, although pink and white flowers are commonly cultivated.  The flowering season is relatively long from June to September and in milder climates the starflower will bloom for most of the year.

The leaves are edible and the plant is commercially cultivated for its oil.  As a fresh vegetable it is said to have a cucumber-like taste and the flowers have a sweet taste.  It has the highest value of γ-linolenic acid in any readily available specialty oil.

Certificate of Analysis of Borage Oil. Borage Oil sample and Borage Biodiesel sample

Camelina Oil

Camelina oil comes from the plant, Camelina sativa, a member of the mustard family and a distant relative to canola. It is an annual flowering plant that grows well in temperate climates and it also has the common names of gold-of-pleasure and false flax. Camelina SativaThis flowering plant is native to Europe and Central Asian areas. Camelina plants grow from 1 to 3 feet tall, are heavily branched and produce seed pods with many small, oily seeds. Some varieties of camelina contain 38-40 % oil. Camelina can be grown in arid conditions and does not require significant amounts of fertilizer.

According to science direct:

“Camelina is adaptable to many different environmental conditions… Camelina an ideal crop for use on less productive lands and in areas without sufficient rainfall to support other crops. When produced under these circumstances, Camelina would not be displacing crops used for food production and positively addresses the food for fuel debate that often plagues the use of crop oils for fuel production.”

Camelina only requires a short growing season and they are fast growing. In 2009, the Navy purchased 40,000 gallons of jet fuel derived from camelina.

The oil is high in omega-3 fatty acid. This makes the oil great for biofuels and the resulting leftover meal a good option for livestock feed. Other uses for this plant consist of the oils being used in cosmetics, burnt in lamps, and herbal medicine. The seeds are edible and can be eaten raw in salads or mixed with water to create an egg substitute.

 

Camelina Oil Chart - Certificate of Analysis Camelina Oil and Camelina BioDiesel

 

Next weeks biodiesel feedstocks are Algae Oil and Canola Oil.

Bio-diesel and Feed-stock samples at REG
What Types of Feedstock Can Be Used To Make Biodiesel? 700 525 Star Oilco

What Types of Feedstock Can Be Used To Make Biodiesel?

To answer what feedstocks can be used to make biodiesel we need to first answer – What is Biodiesel?

Biodiesel is created through a process called transesterification.  Transecterification is when an alcohol such as methanol or ethanol is added to an oil or fat.  This creates methyl esters and glycerin.  Methyl esters is the scientific name of Biodiesel.  Because biodiesel needs a fat or an oil to start with, this fuel can can be created with any number of feedstocks.  If you would like to learn more about Biodiesel check out this for more questions about biodiesel.

According to the U.S. Office of Energy Efficiency & Renewable Energy:

“A feedstock is defined as any renewable, biological material that can be used directly as a fuel, or converted to another form of fuel or energy product. Biomass feedstocks are the plant and algal materials used to derive fuels like ethanol, butanol, biodiesel, and other hydrocarbon fuels. Examples of biomass feedstocks include corn starch, sugarcane juice, crop residues  such as corn stover and sugarcane bagasse, purpose-grown grass crops, and woody plants. “

Renewable Energy Group (REG) performed a study in 2009 with the support of the Iowa Power Fund Board and the Iowa Office of Energy Independence that tested 36 individual feed-stocks.  Star Oilco will be spotlighting these feedstocks through our blog and our social media. The full report can be found on their site if you would like to read ahead or explore the results in more depth. We hope you find these as interesting as we did!

Bio-diesel and Feed-stock samples at REG

Above photo taken at REG headquarters in Ames, Iowa.

This first blog highlights the following 2 types of feed-stock:

Babussa Oil & Beef Tallow

Babassu Oil

Attalea speciosa

Babassu oil is extracted from the seeds of the babassu palm tree, Attalea speciosa, an evergreen tree growing to 30 m (98ft) by 20 m (65ft) at a slow rate. It is hardy to zone (UK) 10 and is not frost tender. The flowers are pollinated by bees and other insects. The tree is common in Brazil, Mexico, and Honduras; it grows well in areas typically cultivated for coconut or palm. The kernels contain 60-70% oil, appear transparent, and smell like walnuts. In its natural form the oil is liquid at 20-30°C (68 – 86°F). The seeds are edible and the oil is used in margarine, soaps, detergents, lamp oil and skin products. Oil extraction results in a cake containing 15-25% protein (depending on the shell content), which is a valuable feedstuff.

In February 2008, Babassu palm oil and coconut oil were blended with jet fuel to power a Virgin Atlantic Boeing 747 during a test flight from London’s Heathrow to Amsterdam.

Babassu oil is extracted from the seeds of the babassu palm treeBabassu Oil Chart

Beef Tallow

Tallow is a rendered form of the waste fats and greases from processing beef. Rendering is a process by which lipid material is separated from meat tissue and water under heat and pressure. Beef tallow is primarily made up of triglycerides and it is solid at room temperature. The B100 that is created from this source has a very high cloud point. “Cloud point is the temperature at which wax (paraffin) begins to separate when oil chilled to a low temperature, and it serves as an important indicator of practical performance in automotive applications in low temperatures.”  (Source)  The other uses for tallow include animal feed, soap, cooking and in the past, candles.

Beef Tallow Animal tissue is converted to tallow using rendering; a process by which lipid material is separated from meat tissue and water under heat and pressure.Beef Tallow Chart

 

Article 2 Feedstock : Borage Oil & Camelina Oil

Article 3 Feedstock : Algae Oil & Canola Oil.

Article 4 Feedstock : Castor Oil and Choice White Grease

Article 5 Feedstock : Coconut Oil and Coffee Oil

Article 6 Feedstock : Evening Primrose Oil and Fish Oil

Article 7 Feedstocks : Hemp Oil & High IV and Low IV Hepar

Article 8 Feedstocks : Jatropha Oil, Jojoba Oil, & Karania Oil

Article 9 Feedstocks : Lesquerella Oil & Linseed Oil

Article 10 Feedstocks – Moringa Oil & Neem Oil

Article 11 Feedstocks – Palm Oil & Perilla Seed Oil

Article 12 Feedstocks – Poultry Fat & Rice Bran Oil

Article 13 Feedstocks – Soybean Oil & Stillingia Oil

Article 14 Feedstocks – Sunflower Oil & Tung Oil

oregon-biodiesel-and-ethanol-fuel-mandates
Oregon Biodiesel and Ethanol Fuel Mandates 1024 640 Star Oilco

Oregon Biodiesel and Ethanol Fuel Mandates

Oregon Biofuel Blending Requirements for Gasoline and Diesel.

Oregon law has a 5% Biodiesel and 10% Ethanol fuel blend mandate.

In Oregon, you can expect to buy a biofuel with every gallon of gas or diesel, whether you are buying at a retail pump or commercially delivered bulk fuel. Unless you are expressly seeking out a ethanol-free premium unleaded or off road heating oil expressly free of biodiesel, you can expect the fuel will have a low carbon blend of biofuel in it.

Why does Oregon have biofuel blended in every gallon of fuel?

There are several layers of rules, requirements, and incentives placing a minimum of 5% biodiesel blend in diesel and a 10% ethanol blend in gasoline. The City of Portland’s Bureau of Development Services provides information and resources on the background of both Portland and Oregon’s requirements.

Oregon state has a 5% blend mandate for all diesel fuels sold statewide. Portland has its own standard of for 5% biofule in diesel, which is slightly different but functionally the same as the states. Oregon’s standard requires B5/R5 if it’s sold into  machinery (dyed off road or clear on road diesel), which requires a 5% biofuel component. In the  formation of this Oregon statewide mandate, renewable diesel was considered acceptable.

Oregon also has a 10% ethanol blend mandate for all gasoline fuels with a few exceptions. Portland has this same rule as it mandated ethanol blends prior to Oregon state. Oregon has exceptions for ethanol-free premium unleaded.  (Warning: the City of Portland has no exemption for non-oxygenated premium fuels) though there are some sellers of it. Oregon state’s exceptions being premium gasoline for aviation and non-ethanol premium gasoline sold at retail gas stations. This was adopted later after the initial Renewable Fuel Standard mandates. Portland did not follow Oregon with this flexibility for small engine or classic car enthusiasts seeking non-ethanol fuel.

The rules that drive biofuel use in Oregon’s fuel:

The City of Portland has its own Renewable Fuel Standard (RFS) which is seen in Portland City Code Chapter 16.60 Motor Vehicle Fuels. This RFS requires all diesel sold (either commercial or retail fuel) to contain a minimum 5% biodiesel (specifically methyl-ester molecule). The RFS also requires all gasoline sold (either commercial or retail gas stations) to contain a 10% blend of ethanol. In addition to this fuel blend requirement, Portland also has requirements for the original feedstock biodiesel is made from. Portland requires that 50% of the biodiesel feedstock be sourced from recycled vegetable oil, canola oil, and a few other types available in the Pacific NW.

The State of Oregon has its own Renewable Fuel Standard. It is less restrictive than Portland’s, allowing renewable diesel or biodiesel to meet its 5% blend requirement. You can find the law in Oregon Revised Statute 646.922. The Oregon RFS also requires a 10% ethanol to be blended with gasoline. There is an exception for premium gasoline to be ethanol-free.  This fuel is commonly called “Non-Oxy Premium” or “Clear Premium” by those seeking to order it.

If you want more information on successfully using Biodiesel and Ethanol in your fleet.

If your fleet is seeking to succeed with biofuels, here are some great resources to learn more about biodiesel, ethanol,  and renewable diesel fuels.

If you have questions about biofuels, Star Oilco can help. Do not hesitate to reach out if you have questions, even if you are not in our market. We want you to be successful in your fleet.  We are here to help.

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