RiceBran Technologies aims to unlock the nutritional and economic value of rice bran, a byproduct of rice milling, through proprietary stabilization and bio-refining technologies. Their mission is to help nourish the growing global population in a sustainable way. They extract high value products from rice bran like stabilized rice bran, rice bran oil, and defatted rice bran to create value for shareholders. Their bio-refining process sequentially extracts multiple products from raw rice bran at various value levels.
1) The document lists the work experience of Cherukumalli Srinivasa Rao from 1992 to 2009 at various institutes including the National Academy of Agricultural Research and Management, Indian Institute of Soil Science, Indian Institute of Pulses Research, Central Research Institute for Dryland Agriculture, and the International Crops Research Institute for the Semi-Arid Tropics.
2) It then provides an outline for a presentation on sustainable soil fertility management and emerging issues and future challenges. The outline includes topics on potassium nutrition, nutrient deficiencies in rainfed agriculture, carbon sequestration strategies, and soil fertility management strategies from an African context.
3) Yield stagnation in grain legumes may
NutraCea develops and distributes food and nutraceutical products using a proprietary process to stabilize rice bran and other grains. Research shows replacing portions of meat, flour, and other ingredients with stabilized rice bran products increases yields and lowers costs while maintaining quality in meat patties, sausages, and pizza crusts. Replacing just 2% of meat with a rice bran isolate product increased cooked meat patty yields by 1.1% and lowered costs by $0.01 per pound.
This document summarizes research from the Pennington Biomedical Research Center on components in rice bran that may help prevent chronic diseases. It discusses studies that identified antioxidants like tocopherols, tocotrienols, and oryzanol in rice bran. These compounds were shown to inhibit cholesterol oxidation and reduce bone loss. Human studies confirmed that rice bran oil, rather than fiber, lowers blood lipids. Unsaponifiable components in rice bran oil like oryzanol, campesterol and β-sitosterol are thought to be responsible for its cholesterol-lowering effects.
Ntrz Bio Refining Presentation Aug 2012Colin Garner
NutraCea is a company that uses proprietary bio-refining technologies to extract higher value products from rice bran, an underutilized byproduct of rice milling. Their mission is to unlock the nutritional and economic value of rice bran to help nourish the growing global population. Through sequential extraction similar to a petroleum refinery, they produce stabilized rice bran, rice bran oil, defatted rice bran, and derivative products. Rice bran is a nutrient-dense source of vitamins, minerals, fiber and protein that can address global nutrition needs in a sustainable way.
This document discusses global laws and standards regarding rice bran oil (RBO), including Codex, Indian, Japanese, and FSSAI regulations. It provides background on RBO production and benefits. Key points:
- India accounts for 62.75% of global RBO production. Codex, Indian, and Japanese standards specify parameters for RBO quality.
- Regulations address refining processes, composition factors like fatty acids, and contaminants. India proposed revising Codex standards to clarify crude RBO's fatty acid profile is the same as refined.
- Challenges included objections to classifying crude RBO as edible. India addressed this through a discussion paper and sample analysis, gaining acceptance for its proposal
This document discusses global laws and standards regarding rice bran oil (RBO), including the Codex Alimentarius standard. It provides an overview of RBO production globally and its health benefits. Standards from India, Japan, FSSAI, and Codex are described, outlining specifications for RBO composition and quality parameters. The challenges of classifying crude RBO as edible oil are discussed. At a Codex committee meeting, India proposed revising the standard to clarify that crude RBO's fatty acid composition is applicable to refined RBO as well. This proposal was accepted with support from over 18 countries.
Solvent extraction, an innovative adaptation of existing crude oil refining technology, is being studied for its potential to upgrade used oils produced by small-scale oil treatment facilities. This report presents the design for a pilot-scale treatment plant using solvent extraction.
This report presents the design and the needed information for a pilot scale solvent treatment plant. Observations and discussion regarding the project and the design assumptions are presented along with the design.
1) The document lists the work experience of Cherukumalli Srinivasa Rao from 1992 to 2009 at various institutes including the National Academy of Agricultural Research and Management, Indian Institute of Soil Science, Indian Institute of Pulses Research, Central Research Institute for Dryland Agriculture, and the International Crops Research Institute for the Semi-Arid Tropics.
2) It then provides an outline for a presentation on sustainable soil fertility management and emerging issues and future challenges. The outline includes topics on potassium nutrition, nutrient deficiencies in rainfed agriculture, carbon sequestration strategies, and soil fertility management strategies from an African context.
3) Yield stagnation in grain legumes may
NutraCea develops and distributes food and nutraceutical products using a proprietary process to stabilize rice bran and other grains. Research shows replacing portions of meat, flour, and other ingredients with stabilized rice bran products increases yields and lowers costs while maintaining quality in meat patties, sausages, and pizza crusts. Replacing just 2% of meat with a rice bran isolate product increased cooked meat patty yields by 1.1% and lowered costs by $0.01 per pound.
This document summarizes research from the Pennington Biomedical Research Center on components in rice bran that may help prevent chronic diseases. It discusses studies that identified antioxidants like tocopherols, tocotrienols, and oryzanol in rice bran. These compounds were shown to inhibit cholesterol oxidation and reduce bone loss. Human studies confirmed that rice bran oil, rather than fiber, lowers blood lipids. Unsaponifiable components in rice bran oil like oryzanol, campesterol and β-sitosterol are thought to be responsible for its cholesterol-lowering effects.
Ntrz Bio Refining Presentation Aug 2012Colin Garner
NutraCea is a company that uses proprietary bio-refining technologies to extract higher value products from rice bran, an underutilized byproduct of rice milling. Their mission is to unlock the nutritional and economic value of rice bran to help nourish the growing global population. Through sequential extraction similar to a petroleum refinery, they produce stabilized rice bran, rice bran oil, defatted rice bran, and derivative products. Rice bran is a nutrient-dense source of vitamins, minerals, fiber and protein that can address global nutrition needs in a sustainable way.
This document discusses global laws and standards regarding rice bran oil (RBO), including Codex, Indian, Japanese, and FSSAI regulations. It provides background on RBO production and benefits. Key points:
- India accounts for 62.75% of global RBO production. Codex, Indian, and Japanese standards specify parameters for RBO quality.
- Regulations address refining processes, composition factors like fatty acids, and contaminants. India proposed revising Codex standards to clarify crude RBO's fatty acid profile is the same as refined.
- Challenges included objections to classifying crude RBO as edible. India addressed this through a discussion paper and sample analysis, gaining acceptance for its proposal
This document discusses global laws and standards regarding rice bran oil (RBO), including the Codex Alimentarius standard. It provides an overview of RBO production globally and its health benefits. Standards from India, Japan, FSSAI, and Codex are described, outlining specifications for RBO composition and quality parameters. The challenges of classifying crude RBO as edible oil are discussed. At a Codex committee meeting, India proposed revising the standard to clarify that crude RBO's fatty acid composition is applicable to refined RBO as well. This proposal was accepted with support from over 18 countries.
Solvent extraction, an innovative adaptation of existing crude oil refining technology, is being studied for its potential to upgrade used oils produced by small-scale oil treatment facilities. This report presents the design for a pilot-scale treatment plant using solvent extraction.
This report presents the design and the needed information for a pilot scale solvent treatment plant. Observations and discussion regarding the project and the design assumptions are presented along with the design.
Good practices assessment on agribusiness innovation and entrepreneurship along with focus on enhancing environment through allied programs and initiatives.
This document provides an overview of biodiesel for dealers and drivers. It defines biodiesel as a renewable fuel made from vegetable oils or animal fats that meets ASTM specifications. The document discusses biodiesel's status as an advanced biofuel under the Renewable Fuel Standard, its lower emissions and high energy balance compared to petroleum diesel. It also outlines top reasons why customers use biodiesel, including sustainability, energy security, and health benefits.
This document is a lab report on the preparation of biodiesel. It includes an abstract, introduction, acknowledgements, and discussion of various raw materials that can be used to produce biodiesel such as soybean, palm oil, sunflower, peanut, flax, and safflower. It provides details on the oil content and uses of products from each of these crops. The introduction gives a definition of biodiesel and overview of biodiesel production from vegetable oils, animal fats, and microalgae.
This document provides information about the production and processing of refined, bleached, and deodorized (RBD) coconut oil. It explains that RBD coconut oil undergoes a refining, bleaching, and deodorizing process to remove impurities from copra. This process involves filtering, bleaching with heat, and adding sodium hydroxide to remove mono and free fats. The document contrasts RBD coconut oil with virgin coconut oil, noting that RBD coconut oil is odorless and tasteless due to processing and chemicals, whereas virgin coconut oil is not processed. Finally, the document outlines some applications of RBD coconut oil for cooking, skin and beauty products, and its growth in market demand.
This document discusses the sustainability practices of Brasil Ecodiesel, the largest Brazilian biodiesel company. It details how the company sources feedstocks like castor and jatropha from family farmers, achieving a high energy balance of 10.5 for its biodiesel. The company also operates integrated facilities, sources from multiple regions to mitigate risks, and was the first to receive a "Social Fuel Stamp" for employing family farmers.
Premium Vegetable Oils - Animal Feed DivisionAris Ibrahim
Premium Vegetable Oils Sdn Bhd is a palm oil plantation and edible oils company operating across Southeast Asia. It has 139,723 hectares of oil palm plantations in Indonesia and Malaysia. The company produces crude palm oil and refined edible oils and fats. It has two edible oils refineries in Malaysia and six palm oil processing mills and a kernel crushing plant in Indonesia. The company offers a range of specialty fats, cooking oils, and animal feed products. It has various quality certifications to ensure food safety standards are met.
The document discusses the production of biodiesel. It begins by defining biodiesel and its advantages over traditional diesel, such as being renewable and having lower emissions. It then discusses the raw materials used, which are typically vegetable oils or animal fats. The purification process involves a transesterification reaction using an alcohol like methanol and a catalyst to produce fatty acid methyl esters. Finally, it discusses uses of biodiesel as an alternative fuel or additive.
IRJET- Biodiesel from Peanut Oil and its Emission and Performance Charect...IRJET Journal
This document discusses a study on biodiesel produced from peanut oil and its performance characteristics as an engine fuel. Peanut oil is a potential feedstock for biodiesel production due to its high oil content compared to other crops. The study involves producing biodiesel from peanut oil via a transesterification process and washing. The properties and emissions of the peanut oil biodiesel are then evaluated according to ASTM standards when used in a four-stroke IC engine at various blend percentages. The results found the peanut oil biodiesel had properties within fuel standards and produced less soot and smoke emissions than conventional diesel.
Production of Biodiesel from Jatropha Curcas Oil by using Pilot Biodiesel Pla...ZY8
The document discusses Bulk Agro (India) Pvt. Ltd.'s operation of a pilot biodiesel plant that produces biodiesel from Jatropha Curcas oil. It introduces Jatropha as a potential biodiesel feedstock for India due to its growth in tropical regions. The pilot plant has a capacity of 250 liters per day and converts Jatropha oil to biodiesel through a transesterification process using methanol as a catalyst. Test results showed the biodiesel met fuel properties similar to conventional diesel fuel.
2. Recovery & Recycling
The Recovery & Recycling model makes production and
consumption systems in which everything that used to be
considered waste is revived for other uses.
This document discusses microbial biodiesel production. It begins with an introduction to biodiesel and its history. It then discusses what biodiesel is and how it is made from vegetable oils, animal fats, or microbes. The rest of the document focuses on biodiesel production using microbes like microalgae, bacteria, fungi and yeast. It discusses the advantages of using microbes, such as their ability to grow rapidly and accumulate high amounts of lipids. It also provides details on the biodiesel production process when using different types of microbes, including lipid extraction and transesterification. In conclusion, while microbial biodiesel production is promising, further improvements are still needed to make it economically competitive with
This document discusses sustainable algal-based alternatives to long-chain omega-3 fatty acids used in aquaculture feed. Currently, most aquaculture feed relies on fish oil, but supplies are limited. The document proposes that Nivalis' algal cultivation system and extraction process can produce omega-3 rich algal oils more sustainably and at lower cost than other alternatives by eliminating energy-intensive applications. Next steps include validating the technology at larger scales and isolating algal strains with high levels of DHA to fully replace fish oil in aquaculture feeds.
Vippy Industries Limited is an Indian company established in 1973 that specializes in processing non-GMO soybeans. It has three processing plants in Dewas, Madhya Pradesh with a combined daily capacity of 1,800 metric tons. The company exports its non-GMO soy products to over 41 countries worldwide. It produces a variety of non-GMO soy foods, feeds, and industrial products including soy flakes, grits, flour, lecithin, and refined soybean oil. Vippy Industries aims to meet growing global demand for certified non-GMO soy ingredients.
The document outlines a proposal for establishing cold milk centers in Sindh province to address issues with milk availability, quality, and waste by collecting, chilling, and storing milk hygienically to extend its shelf life and ensure a regular supply of pure milk to customers. It discusses the current challenges around milk production and distribution, provides operational details of the proposed centers, and presents financial projections indicating the business will be profitable.
Microorganisms such as microalgae, fungi and bacteria have the potential to be used for biodiesel production as they can accumulate high amounts of lipids. Oleaginous microorganisms accumulate over 20% of their dry weight as lipids. While microalgae and some fungi have been shown to accumulate over 60% lipids, genetic engineering and screening methods aim to further improve lipid yields. The biodiesel produced from microbial lipids has properties that meet biodiesel standards but the high costs of production need to be reduced for microbial biodiesel to compete with conventional fuels.
Zero waste water treatment and biofuel productioniqraakbar8
A number of studies have reported successful cultivation of several species of microalgae such as Chlorella, Scenedesmus, Phormidium, Botryococcus, Chlamydomonas, and Arthrospira for wastewater treatment and the efficacy of this method is promising
Basics of animal nutrition
Feeding the rumen microbes
We need:
Certain limiting amino acids (Lys, Met)
In a certain ratio (Lys 3 : 1 Met)
And normal feedstuffs don’t supply this:
Not enough
Not the right ratio
So we need to supplement them
We need RUP
Bharat Petroleum Corporation Limited (BPCL) is an Indian public sector oil and gas company headquartered in Mumbai, Maharashtra. It is controlled by the Indian government and is ranked 225th in the Fortune Global 500 list. BPCL operates in petroleum, natural gas, and petrochemicals sectors. It has grown phenomenally since nationalization in 1976 and employs best-in-class practices. Originally incorporated in 1952 as Burmah Shell, it was acquired by the Indian government in 1976 and renamed Bharat Refineries Limited and later Bharat Petroleum Corporation Limited. BPCL aims to increase refining capacity to 45 million tonnes by 2015-16 and expand into power generation. Its
Good practices assessment on agribusiness innovation and entrepreneurship along with focus on enhancing environment through allied programs and initiatives.
This document provides an overview of biodiesel for dealers and drivers. It defines biodiesel as a renewable fuel made from vegetable oils or animal fats that meets ASTM specifications. The document discusses biodiesel's status as an advanced biofuel under the Renewable Fuel Standard, its lower emissions and high energy balance compared to petroleum diesel. It also outlines top reasons why customers use biodiesel, including sustainability, energy security, and health benefits.
This document is a lab report on the preparation of biodiesel. It includes an abstract, introduction, acknowledgements, and discussion of various raw materials that can be used to produce biodiesel such as soybean, palm oil, sunflower, peanut, flax, and safflower. It provides details on the oil content and uses of products from each of these crops. The introduction gives a definition of biodiesel and overview of biodiesel production from vegetable oils, animal fats, and microalgae.
This document provides information about the production and processing of refined, bleached, and deodorized (RBD) coconut oil. It explains that RBD coconut oil undergoes a refining, bleaching, and deodorizing process to remove impurities from copra. This process involves filtering, bleaching with heat, and adding sodium hydroxide to remove mono and free fats. The document contrasts RBD coconut oil with virgin coconut oil, noting that RBD coconut oil is odorless and tasteless due to processing and chemicals, whereas virgin coconut oil is not processed. Finally, the document outlines some applications of RBD coconut oil for cooking, skin and beauty products, and its growth in market demand.
This document discusses the sustainability practices of Brasil Ecodiesel, the largest Brazilian biodiesel company. It details how the company sources feedstocks like castor and jatropha from family farmers, achieving a high energy balance of 10.5 for its biodiesel. The company also operates integrated facilities, sources from multiple regions to mitigate risks, and was the first to receive a "Social Fuel Stamp" for employing family farmers.
Premium Vegetable Oils - Animal Feed DivisionAris Ibrahim
Premium Vegetable Oils Sdn Bhd is a palm oil plantation and edible oils company operating across Southeast Asia. It has 139,723 hectares of oil palm plantations in Indonesia and Malaysia. The company produces crude palm oil and refined edible oils and fats. It has two edible oils refineries in Malaysia and six palm oil processing mills and a kernel crushing plant in Indonesia. The company offers a range of specialty fats, cooking oils, and animal feed products. It has various quality certifications to ensure food safety standards are met.
The document discusses the production of biodiesel. It begins by defining biodiesel and its advantages over traditional diesel, such as being renewable and having lower emissions. It then discusses the raw materials used, which are typically vegetable oils or animal fats. The purification process involves a transesterification reaction using an alcohol like methanol and a catalyst to produce fatty acid methyl esters. Finally, it discusses uses of biodiesel as an alternative fuel or additive.
IRJET- Biodiesel from Peanut Oil and its Emission and Performance Charect...IRJET Journal
This document discusses a study on biodiesel produced from peanut oil and its performance characteristics as an engine fuel. Peanut oil is a potential feedstock for biodiesel production due to its high oil content compared to other crops. The study involves producing biodiesel from peanut oil via a transesterification process and washing. The properties and emissions of the peanut oil biodiesel are then evaluated according to ASTM standards when used in a four-stroke IC engine at various blend percentages. The results found the peanut oil biodiesel had properties within fuel standards and produced less soot and smoke emissions than conventional diesel.
Production of Biodiesel from Jatropha Curcas Oil by using Pilot Biodiesel Pla...ZY8
The document discusses Bulk Agro (India) Pvt. Ltd.'s operation of a pilot biodiesel plant that produces biodiesel from Jatropha Curcas oil. It introduces Jatropha as a potential biodiesel feedstock for India due to its growth in tropical regions. The pilot plant has a capacity of 250 liters per day and converts Jatropha oil to biodiesel through a transesterification process using methanol as a catalyst. Test results showed the biodiesel met fuel properties similar to conventional diesel fuel.
2. Recovery & Recycling
The Recovery & Recycling model makes production and
consumption systems in which everything that used to be
considered waste is revived for other uses.
This document discusses microbial biodiesel production. It begins with an introduction to biodiesel and its history. It then discusses what biodiesel is and how it is made from vegetable oils, animal fats, or microbes. The rest of the document focuses on biodiesel production using microbes like microalgae, bacteria, fungi and yeast. It discusses the advantages of using microbes, such as their ability to grow rapidly and accumulate high amounts of lipids. It also provides details on the biodiesel production process when using different types of microbes, including lipid extraction and transesterification. In conclusion, while microbial biodiesel production is promising, further improvements are still needed to make it economically competitive with
This document discusses sustainable algal-based alternatives to long-chain omega-3 fatty acids used in aquaculture feed. Currently, most aquaculture feed relies on fish oil, but supplies are limited. The document proposes that Nivalis' algal cultivation system and extraction process can produce omega-3 rich algal oils more sustainably and at lower cost than other alternatives by eliminating energy-intensive applications. Next steps include validating the technology at larger scales and isolating algal strains with high levels of DHA to fully replace fish oil in aquaculture feeds.
Vippy Industries Limited is an Indian company established in 1973 that specializes in processing non-GMO soybeans. It has three processing plants in Dewas, Madhya Pradesh with a combined daily capacity of 1,800 metric tons. The company exports its non-GMO soy products to over 41 countries worldwide. It produces a variety of non-GMO soy foods, feeds, and industrial products including soy flakes, grits, flour, lecithin, and refined soybean oil. Vippy Industries aims to meet growing global demand for certified non-GMO soy ingredients.
The document outlines a proposal for establishing cold milk centers in Sindh province to address issues with milk availability, quality, and waste by collecting, chilling, and storing milk hygienically to extend its shelf life and ensure a regular supply of pure milk to customers. It discusses the current challenges around milk production and distribution, provides operational details of the proposed centers, and presents financial projections indicating the business will be profitable.
Microorganisms such as microalgae, fungi and bacteria have the potential to be used for biodiesel production as they can accumulate high amounts of lipids. Oleaginous microorganisms accumulate over 20% of their dry weight as lipids. While microalgae and some fungi have been shown to accumulate over 60% lipids, genetic engineering and screening methods aim to further improve lipid yields. The biodiesel produced from microbial lipids has properties that meet biodiesel standards but the high costs of production need to be reduced for microbial biodiesel to compete with conventional fuels.
Zero waste water treatment and biofuel productioniqraakbar8
A number of studies have reported successful cultivation of several species of microalgae such as Chlorella, Scenedesmus, Phormidium, Botryococcus, Chlamydomonas, and Arthrospira for wastewater treatment and the efficacy of this method is promising
Basics of animal nutrition
Feeding the rumen microbes
We need:
Certain limiting amino acids (Lys, Met)
In a certain ratio (Lys 3 : 1 Met)
And normal feedstuffs don’t supply this:
Not enough
Not the right ratio
So we need to supplement them
We need RUP
Bharat Petroleum Corporation Limited (BPCL) is an Indian public sector oil and gas company headquartered in Mumbai, Maharashtra. It is controlled by the Indian government and is ranked 225th in the Fortune Global 500 list. BPCL operates in petroleum, natural gas, and petrochemicals sectors. It has grown phenomenally since nationalization in 1976 and employs best-in-class practices. Originally incorporated in 1952 as Burmah Shell, it was acquired by the Indian government in 1976 and renamed Bharat Refineries Limited and later Bharat Petroleum Corporation Limited. BPCL aims to increase refining capacity to 45 million tonnes by 2015-16 and expand into power generation. Its