Believing in Biodiesel– the advance biofuel from nonfood feedstocks, we at Centre for Jatropha Promotion & Biodiesel (CJP) have been engaged since last decade in research, development and production of non-food sustainable biofuel crops worldwide in a structured Agri-Supply chain, Value additions and research activities thereon & have been providing technology and services from “Soil to Oil” for the breeding, development, planting and harvesting of next-generation commercial biofuel crops. We have been engaged in promoting sustainable farming for biodiesel production since last one decade and ours research findings and on-hand field experiences in respect of various technical, agronomical/silvicultural aspects of plantations of Jatropha & other non-food biodiesel crops have resulted in significant improvements in knowledge and technical background related to Productivity, profitability and sustainability of commercial production of the oil crops. This is why we profoundly and proudly got the status of Global Authority for scientific commercialization of Jatropha & other non-food biodiesel crops
A comprehensive research and development program for the development of Nonfood biodiesel feedstocks has been initiated Centre for Jatropha Promotion & Biodiesel (CJP) and great progress has been made. The CJP, a platform for multidisciplinary multifeedstocks research into all aspects of nonfood energy farming intensified its collaborative research approach with regards to perennial oil seeds bearing tree like Pongamia Pinnata, Moringa oliferia, Jojoba, simarouba, etc. in combination with annual nonfood oil crops to have more oil yield per ha and to improve their product. The CJP’s mission is to perform cutting-edge plant science research in genetics, breeding and horticulture, and further develop technologies to allow for the economic commercialization and sustainability of energy farms globally
Overview: Research and Development Programs
The Centre for Jatropha Promotion & Biodiesel (CJP) is a bioenergy crop research and development company that is meeting global demand for sustainable plant oil by working towards scientific commercialization of dedicated biodiesel crop that will lend credibility; reliability and scalability. With a fully integrated platform featuring a world-class leadership and science team, the most advanced multifeedstocks research into all aspects of nonfood energy farming crop improvement program in the industry and addressing the complete value chain, CJP is bringing the opportunities of nonfood oil to reality.
We are an agricultural biotechnology, research and development entity developing and producing seeds of hope to produce renewable biodiesel feedstocks that can enable the large-scale replacement of petroleum and other fossil fuels. We use a combination of advanced plant breeding and biotechnology to develop new crops, known as dedicated energy crops, that we believe address the limitations of first-generation biodiesel feedstocks, such as corn and sugarcane, increase seeds and oil productivity, reduce crop inputs and improve cultivation on marginal land.
Our first large-scale commercial products are proprietary Jatropha Curcas varieties that can be used as a “drop-in” feedstock. Our dedicated energy crops can also be used for the production of second-generation biofuels and bio-based chemicals, including cellulosic ethanol, butanol, jet fuel, diesel-like molecules and gasoline-like molecules, from non-food biodiesel. Finally, base load utility-scale electric power can also be generated from the biodiesel feedstocks grown from our seeds.
As a producer of proprietary seeds, we believe we are in the most attractive segment of the biodiesel value chain — upstream from the capital intensive refining and conversion of biodiesel.
CJP’s distinguished and some of the most experienced crop scientists in the world are now focused on researching and developing Jatropha curcas, Castor bean, Simarouba, Moringa, Algae, Jojoba and other crops. The plants’ biology and genetics profile have been subjected to intense scrutiny as molecular & genetic scientists collaborate with agronomists to breed & develop cultivars suitable for large scale fuel farming. Traditional breeding, inter-species hybridization, genetic modification, and advanced cloning techniques are all being applied to produce new commercial cultivars. CJP not only driving the science & development of commercial biodiesel crop cultivars but also developing enabling technologies with application to a wider range of horticultural species. Some are creating valuable proprietary technologies & processes
Jatropha: From wild to domestication to super domestication
Throughout history, plants have been subjected to changing climate, and farmers have adopted new species and varieties to meet the challenges; Cultivated or domesticated plants, when mankind propagates, plants and harvests them, have played significant roles in many of the advances that pure and applied botanical sciences have made in the last few centuries. Hybridization and selection have both been involved in the origin of crops and the process of domestication since early times. Analysis of the genetic, genomic and molecular basis of the traits selected by early growers that constitute the domestication syndrome in crops, such as loss of seed and increased organ size, has been a major focus of much recent research. Profound insights into traits associated with crop domestication have resulted from the technologies and discoveries made at CJP Level. Progress in the sciences related to crop domestication is the availability of well-characterized germplasm with CJP for understanding domestication as well as for plant breeding.
The future course of domestication will continue to rely on changes to the architecture, metabolism and physiology of crops. To cope with new challenges to crop production, efficient approaches to screen germplasm for genes to both biotic and abiotic stresses in wild and cultivated germplasm are needed. Crops primarily used for food are now also being used to meet demands for sustainable fuel supply, while the use of plants for construction timbers and fibres in paper, textiles and composite products continues to increase. To provide value-added crops, new products from crops are being developed. Specialized plant products for processing (such as starches, oils, even plastics) for food, pharmaceutical, cosmetic and industrial uses are required for growing markets
Our Business
We provide renewable technology and solutions to address the global demand for new economical sources of feed, food, fiber and fuel.
Our Biodiesel Crops
CJP’s new Nonfood Biodiesel crops like algae, castor, moringa, pongamia, jojoba, simarouba which are poised for commercialization as the newest, greatest biodiesel feedstock as these crops can produce the greatest amount of feedstock for the lowest input and cost. Good scientific research done by CJP’s scientists has shown that how oilseed crops grow best across different soil conditions and climates, and how they fit into existing production systems determining what consequences might result from growing these crops in terms of sustainability. Apart from Jatropha, following of Nature's elite stock - true-bred, tried and tested form the part of programme agenda:
- Alage
- Camelina
- Calophyllum inophyllum L.,
- Castor bean (Ricinus communis)
- Citrullus colocynthis (Tumba)
- Flax
- Jojoba (Simmondsia chinesis)
- Jerusalem artichoke (Helianthus tuberosus L.)
- Kenaf
- Karanja (Pongamia pinnata)
- Kokum (Garcinia indica)
- Moringa oleifera
- Mahua (Madhuca indica)
- Neem (Azadirachta indica)
- Simarouba (Simarouba glauca)
Around the world, competition for fossil fuel reserves and growing concern for the environment have given rise to increased demand for bio-diesel crops. This represents a major business opportunity. But there are still challenges to overcome. At CJP, we believe the answer lies in efficiency. We can provide you with everything from initial feasibility studies through to project execution, training, support and crop management technologies. CJP offers to ensure its clients' long term success in the young but rapidly evolving renewable fuels industry. CJP has systematically assembled the resources necessary to facilitate this and to deliver turn-key business solutions.CJP has the Technical knowledge and plant science expertise, process engineering and operational expertise to plan, design and Create Failsafe Fuel Farms; deploy and commission Non-food vegetable oil refining and design and construct biodiesel plants.
To start with one need extensive knowledge support, enhanced agronomy support, elite and improved inputs, expertise and effective management. Implementing its vast agronomic knowledge base and in-depth experience, CJP has proven highly successful in growing biodiesel crops………..more at
Our Solutions
We believe that nearly all Biodiesel and bio-based chemical applications will ultimately depend on high yielding, low-cost, low-carbon, scalable, reliable and sustainable sources of feedstock. We believe biodiesel feedstocks from our dedicated energy crops and field trials have the potential to become the common denominator in a broad array of bio-based products, including ethanol, butanol, jet fuel, diesel-like molecules and gasoline-like molecules, as well as electric power and heat, and can enable the development of larger-scale processing facilities given the high yield density and conversion efficiency of dedicated energy crops. Specifically, our dedicated energy crops have the following characteristics, which we believe will make them a critical component in the large-scale production of these bio-based products:
High Yield
Our dedicated energy crops are developed to produce high seeds or oil yields per acre. For advanced biofuels, bio-based chemicals and biopower, we believe our high yield density crops will facilitate the construction of larger processing facilities because more feedstock could be collected from a defined area of land around the facility. In turn, these larger facilities will benefit from economies of scale, resulting in lower production and capital cost per gallon produced.
Dedicated to Biodiesel
Unlike many other Biodiesel feedstocks, our dedicated energy crops are currently not intended for other uses and are typically grown exclusively to be harvested as part of the Biodiesel value chain, creating a stable supply that will appeal to owners of conversion technologies who will have invested significant capital in their infrastructure and will therefore require reliable and cost-effective feedstocks
Suited to Marginal Land
Our dedicated energy crops can grow in a broad range of environments, including those not well-suited for most food crops. For example, our all dedicated nonfood energy crop need substantially less water and fertilizer than sugarcane to grow to harvestable maturity. We are developing biotech field trials that provide salt tolerance, drought tolerance and greater nitrogen use efficiency. We believe that by facilitating the use of marginal land, our crops will create opportunities for landowners who previously could not use their land as productively.
Scalable to Meet Demand
Our energy crops are highly scalable, allowing us to match the production with growing demand as year by year increased yield of seeds is assured.
Extensive Proprietary Portfolios of Germplasm
Wee believe we are one of the only companies focused on dedicated energy crops with large portfolios of both germplasm and field-validated field trials. Our objective is to be the leading provider of dedicated energy crop technology, elite cultivar and expertise to the renewable energy industry .We plan to play a significant role in developing the second-generation biofuels and bio-based chemicals market, which we believe represents a significant opportunity. Our Pongamia Pinnata , Simarouba and Mahua products are specifically targeted at this market.
Expand Our Business into New Markets
We market our Nonfood Energy Crops brand as a symbol of quality, innovation and value across multiple biofuel, bio-based chemicals and biopower markets in a broad range of climates and geographies. We are continuing to develop innovative solutions using a broad range of technological tools, including genomics, biotechnology and proprietary bioinformatics in order to produce crop varieties with improved yields and other performance characteristics.
Our Products
New Potential for Next Generation Feedstocks
CJP started commercial farming of Jatropha from wild selected seeds 1.0 in 2003 and now reached with improved enhanced Jatropha 3.0 with more oil and more yield. CJP scientists are continuously working on enhanced genetics, agronomics and horticulture sciences to drive new varieties, more knowledge around the plant’s nutritional requirements and more science-based processes for the care and custody of the plant and have achieved reliable and scalable results in Jatropha energy farming. Even a superior genotype variety planted in inadequate soil and improperly cared for, will be unable to reach its potential and will create dissatisfied stakeholders. The CJP’s goal is to triple Jatropha yields within 10 years, increase the oil content to 48 percent and in combination of other crops the target oil yield is 1500 gallon per ha. Further, to increase the quality of the oils and other products produced—while minimizing inputs including pesticides and fertilizers.
Enhanced And Improved Cultivar:
The years of continuous research, experiments and in cultivating and breeding of Jatropha curcas and other biofuel crops, CJP was able to develop a systematic breeding and cultivar development strategy. Newly bred cultivars are extensively tested in multi-location trials and true to type seeds are being produced with high quality standard
JCLMax3™ Elite HYV Jatropha Improved Seeds
Through its JCLMax3™ improved seed product line, CJP provides growers the highest yielding, most uniform and profitable Jatropha in the world. Improved seeds result in greater yield, uniformity and vigor while significantly reducing Plantation costs for growers. JCLMax3™ improved varieties have been tested and developed for a range of climatic and soil conditions. Through its research and development program, CJP continues to expand the regions for which JCLMax3™ improved seeds are available in more than 65 countries
DI03SAP™ Elite HYV Pongamia Saplings
We have developed DI03SAPÔ the Process of cloning and maintaining an Elite sapling. It has been created from over a decade of research in horticulture and agriculture with the best characteristics of yield, survivability and longevity. Standred Package of Practices (SOP) enable DI03SAP ™ sapling to enhance productivity to achieve greater yields over the lifetime of the plantation with the right crop inputs and management
MO03SAP™ Elite HYV Moringa Saplings
We have developed MO03SAP™ the Process of cloning and maintaining an Elite sapling. It has been created from over a decade of research in horticulture and agriculture with the best characteristics of yield, survivability and longevity. Standred Package of Practices (SOP) enable MO03SAP ™ sapling to enhance productivity to achieve greater yields over the lifetime of the plantation with the right crop inputs and management
Identified Elite JOJO3 Class 1 Jojoba rooted cuttings
With Scientific advancement CJP has selectively bred certain high yielding jojoba plants and developed our identified high-yielding jojoba Rooted Cutting Plants for creating FAIL SAFE JOJOBA FARM
The successful commercialization of our products depends on our ability to produce high-quality seeds, ability to provide enhanced and proprietary knowledge to plan and capacity to provide enhanced technological services to establish biodiesel business from ground zero to fuel production Inter alia, we serve as:-
- Global knowledge Platform
- Global Agronomy Platform
- Global Technology platform and
- Global Service Provider
- Agronomy Support
The performance of plant varieties and field trials is influenced by the growing environment, which includes climate, day length, soil quality, pests, length of the growing season and crop management practices. The production of commercial-scale quantities of seeds requires the multiplication of the seeds through a succession of plantings and seed harvests The cost-effective production of high-quality high-volume quantities of some of our products depends on our ability to scale our production processes to produce seeds in sufficient quantity to meet demand.
Climate Smart Farming:
CJP’s ongoing agronomic support is on line with the FAO theory of Climate Smart agriculture that sustainably increases productivity and resilience to environmental pressures, while at the same time reduces greenhouse gas (GHG) emissions. It is one of the key factors for long-term success. Driven by a philosophy of knowledge sharing and learning by doing, we are able to achieve significant results in this very technical field, while remaining highly resourceful. Our team of biodiesel experts are constantly researching and developing new and efficient solutions for Biodiesel crops across the globe, to design and instill the most suitable General Agricultural Practices (GAP) for each and every part of the world and have introduced Integrated Fuel Farming Management System (IFF) which serves as a set of practical ground rules. These continue to prove significantly effective in obtaining higher yields while considerably reducing industry-related risks… more
Biodiesel Crops Starter Kits: we have developed Agricultural Extension Kit for various nonfood oil crops just to enable new grower to start it in a sustainable manner.. MORE at
We at CJP have developed Crop specific Safe Care Technology with reference to practice of modern techniques coupled with scientific management. This will help getting more yield of better quality resulting into better revenue and profit. Moreover, for individual biodiesel crops we have complied a perfect set of publications which are the most important tools which you should have if you are going to take up the Biodiesel Project.
Our Global Technology Platform
We develop low-input dedicated energy crops capable of producing high yields per acre using innovative plant breeding. By developing these types of crops, we enable the scalable, sustainable and economic production of biodiesel. We provide crop cultivation, crop harvesting, crushing and refinery construction state of Art technology
Our integrated technology platforms are a combination of existing genetic assets biotechnology and bioinformatics. Integration of these platforms allows us to develop and commercialize new products from them. This combination of assets and research and development capability enables us to provide more fuel crops.
Our early entry into the energy crop industry has allowed us to acquire access to valuable germplasm through strategic collaborations with leading institutions.
High yielding varieties
We have a number of genotypes that have been shown to substantially increase oil yield and seeds yield per plant. We are currently field-trialing of these selected genotype in Jatropha, Pongamia,Moringa and in Simarouba.
Nitrogen Use Efficiency
We have developed the technology that increase seed yield under normal and reduced nitrogen fertilizer conditions. In field trials, we have recorded steady yields on significantly less nitrogen fertilizer than normally used.
Water Use Efficiency and Drought Tolerance
Our technology allows plants to use water more efficiently and/or recover from water deficits more readily. We are currently field-testing water use efficiency and drought tolerance; this trait could provide greater yield stability for rain-fed crops as well as expand the geographic range where economic yields can be obtained.
Salt Tolerance
We have developed crops which can tolerate salty soil and enhanced recovery to both acute and prolonged salt stress.
Altered Flower Development
We are pursuing multiple approaches to regulate flower development for the purpose of increasing seeds, as well as rendering plants resistant to fungal diseases that infect flowers.
KEY STRATEGIES to SUCCESSFUL JATROPHA INVESTMENTS
As Jatropha and other non-food oil crops are poised on the cusp of commercialization, Jatropha investors have stepped up their efforts to develop a viable source of Biodiesel, and some are already well on the road to success. However, with so many new projects coming up, and a lack of understanding of the Jatropha Curcas Plant and reliable information; lack of QPM inputs; lack of Best Agricultural Practices and expertise & poor management techniques ; many projects are only achieving mediocre results. Therefore, while Jatropha holds a great deal of potential as a biodiesel feedstock, it is also important to acknowledge many hurdles must be overcome before the crop can become economically viable in most parts of the world. The key strategies planning, methods and technologies are very essential for Successful Implementation & execution of a large scale Jatropha Project with Maximum ROI through Improved Agronomy. After having specialized in the field of creation of Failsafe Fuel Farm with experiences and expertise CJP has drawn a set of Key Strategies to Successful Jatropha/other crops Investments…. Read more
- KEY Strategy 1- Choosing the best location for Jatropha Projects
- KEY Strategy 2- Getting the best business plan formation
- KEY Strategy 3- Getting the best planting stock/material
- KEY Strategy 4 - Adopting Best Practices in Jatropha Agronomy
- KEY STRATEGY 5 - Scaling Operations & Organization Strategies for Jatropha as per local conditions
- KEY STRATEGY 6 – Exploring the intercropping Operation Strategies for couple oil crops as per local conditions
- KEY Strategy 7 - Going Socially Responsible, Environmentally & Carbon Positive for Jatropha Projects
- KEY Strategy 8- Mapping Global Biofuel blending specifications & demand for Jatropha Oil.
- KEY Strategy 9 - Complete Utilization of Jatropha Curcas L, including biowaste & seedcake
- KEY Strategy 10 - Evaluating Risk for a Realistic view of Jatropha Project Potential for long term forecasting
- For more details regarding KEY STRATEGIES, see the relevant page
OUR IPR SERVICES
Failsafe Fuel Farm
The CJP is working towards scientific commercialization of nonfood biodiesel trees/crops that will lend credibility; reliability and scalability with regards to food security, energy security and sustainable development and carbon savings. The CJP for Failsafe Energy Farming (www.jatrophaworld.org ,www.jatrophabiodiesel.org ) was created in 2003 , the first entity to introduce commercial farming of Jatropha and since then working as a platform for multidisciplinary multifeedstocks research into all aspects of nonfood energy farming. The CJP intensified its collaborative research approach with regards to perennial oil seeds bearing tree like Pongamia Pinnata, Moringa oliferia, Jojoba, simarouba, etc. in combination with annual nonfood oil crops like castor, flax, safflower, camelina, etc to have more oil yield per ha and to improve their product. The CJP’s mission is to perform cutting-edge plant science research in genetics, breeding and horticulture, and further develop technologies to allow for the economic commercialization and sustainability of energy farms globally. In essence, CJP scientists are continuously working on enhanced genetics, agronomics and horticulture sciences to drive new varieties, more knowledge around the plant’s nutritional requirements and more science-based processes for the care and custody of the plant and have achieved reliable and scalable results in jatropha energy farming.
JAMIN™ and JMZ™ : JATROPHA GROWING MEDIA FOR MAX YIELDS:
We have developed enhanced Biological input management system to ensure Crop revenues higher, Revitalizes the soil, Improves consistent crop quality, Reduces crop loss and above all :Reduce your Environmental Foot Print. The impact of biological agri-inputs on growth and yields of Jatropha Curcas and other oil crops. We have developed enhanced Nonfood Biodiesel crops Specific Biological Inputs system with Brand name JAMINÔ and JMZÔ with Vesicular arbuscular mycorrhiza, Biopesticides, Organic nutrients based on Protein hydrolysates, application of which shall ensure early initiation of flowering and fruiting and the ratio of female flowers shall be increased. The number of flowering bunches per branch and total number of bunches per plant also be increased. The number of fruit bunches per branch, and the total number of bunches per tree also be increased. The size of fruits and the weight of dried seeds were also increased. These impacts were mainly due to the increase in root size, colonization of roots by mycorrhiza that increased the availability of moisture and nutrients from soil. The balanced nutrition also plays an important role. These practices have been used for plantations very successfully by us.
Therefore for Successful Implementation of Jatropha and other nonfood oil crops projects with Integration above Key-Strategies you need an authoritative agency able to provide knowledge, expertise and technology for the predicted Sustainability while maximizing Project ROI through Improved Agronomy. And CJP is competent enough to be become your knowledge & Technology provider
To engineer and execute Jatropha energy farm from ground zero to harvesting stage we have developed a set of enhanced services with access to our own supply chain intellectual property rights (IPR) and exclusive expertise with technological background and experiences in the field for creation Failsafe Energy Farms to implement project through our level of competence and technology. Our scope of the Project task may cover a variety of activities viz: Setting up of Plantations from Ground Zero to Harvesting Stage just to ensure "FAILSAFE FUEL FARM"
- Jatropha Energy Project Services (JEP)
- Derris Indica Energy Project Services (DEP)
- Moringa Energy Project Services (MEP)
- Simarouba Energy Project Services (SEP)
- Colocynth Energy Project Services (COEP)
- Jojoba Energy Project Services (JOEP)
- Alage Energy Project Services (AEP)
- Ricinus communis Energy Project Services (RCEP)
So while Jatropha agriculture continues to be a new and exciting alternative energy source, and the world continues to watch its development closely, there are still many misnomers about where it should be grown, how to grow it and what resources the plant needs to achieve commercially productive yields. CJP to provide the right steps to start the successful business ensuring that this crop is planted in the right way and with due cares to what’s possible in terms of sustainable farming techniques. Based on its proprietary knowledge plant science expertise enhanced technology and extensive experience and by integrating technical and managerial issues CJP has developed Jatropha Agricultural Training package to deliver Competencies through Qualified trainers with a practical 'hands on' approach
Full Range of Biodiesel Business Consulting Solutions
Full Range of Biodiesel Business Consulting Solutions
CJP is the Global Consultant in the field of Biodiesel Project establishment providing consultancy at every stage of the project right from soil to preparation of complete plantation management and technical plan to plantation techniques/plantation execution and Setting up of Plant for Bio-Fuel including all plant & machinery required with all our best of potentiality and expertise.
CJP’s Professional Biodiesel Business Plan Services
A feasibility study and a business plan are essential steps in financing and developing a successful biodiesel business. CJP can help clients identify the needs, opportunities and solutions of their local, regional and national markets. By identifying these needs and providing management direction, CJP can help clients obtain financing in order to develop and manage an effective and successful biodiesel facility. The most critical component of any business plan is the pro forma, an educated view or projection of what the performance of a company is capable of, given a specific set of assumptions and conditions. CJP has been involved in identifying these needs for specific projects for a number of years and can help develop a realistic and obtainable. Performing the right kind of analysis, using up-to-date information, and using the most complete detailed evaluation will save time and money for your project. CJP provides all aspects of feasibility analysis and business development including assessments of the following: crop production, crushing, coproduct markets, feedstock acquisition and contracting, technology analysis, risk analysis specific to biodiesel technology, feedstock, markets, and general project risks, market and financial analysis. CJP can offer the type of consulting that only numerous years of leadership in the small to mid-size biodiesel market can provide at an affordable price….. Read more and important
Our Global Knowledge Platform
Our crops are new and most growers will require substantial instruction to successfully establish, grow and harvest crops grown from our seeds. As part of our product development activities and customer support, we provide agricultural producers and biodiesel procurers with information and protocols regarding the establishment, management, harvest, transportation and storage of our energy crops for use in biodiesel. In addition to seed selections, such crop management recommendations may include equipment selection, planting and harvest timing, application of crop protection chemicals or herbicides and storage systems.
To serve as Global Knowledge Platform for a Sustainable Future, Biodiesel Business Academy© has been established
Biodiesel Business Academy©
We at CJP have highest priority to contribute to the transition to a sustainable society through social, economic and environmental development. Sustainable development is a fundamental aspect of our strategic plan as to create Knowledge for a Sustainable Future
CJP has the privilege to provide most authoritative Knowledge platform known for Development of Sustainable Non-Food Oil Crop Projects, Programmes and Priorities to Feed Biodiesel Industry Worldwide and has established the Biodiesel Business AcademyÔ (BBA) to provide quality, impartial, informative and enjoyable advanced level training with enhanced technology in the field of Biodiesel production. The BBA delivers Training to international and national participants/professionals of green energy industry to increase and distribute knowledge and skills. I am attaching broachers detailing our programs and priorities. We provide Training to the participants in all matters, to successfully plant and harvest Biodiesel crops and process to produce biodiesel including how to plant, when to plant, when to harvest, who to extract oil and make biodiesel etc... We cover the full range of topics on agronomy, farming of various biodiesel feedstocks including manufacturing bio-oil/biodiesel, sustainable business planning, clean energy technology and corporate carbon reduction etc.
We, at BBA believe that biodiesel can reduce dependence on petroleum, help address climate change and boost domestic economies.Biodiesel from a variety of feedstocks can meet contemporary needs for environmental stewardship, economic prosperity, and quality of life without compromising the ability of future generations to meet these needs for them. We are confident that scientific advancements can demonstrate, preserve, and enhance biodiesel's ability to help meet the food, feed, fiber, and energy needs of the future.……Read more
CJP had its 1st, 2nd 3rd , 4th and 5th Global Jatropha Hi-Tech Agricultural Training Programme in India in Jaipur, Rajasthan from June 11-15, 2007, July-14-18, 2008, December 13-17, 2010, September 14-18, 2011 and September 5-9, 2012 respectively attended by more than 70 countries. were grand success. The word “Excellent”, which was used by many trainees to describe their experiences, sums up the JatrophaWorld Training experience.
With Jatropha cultivation becoming an intensifying worldwide trend, how to ‘Do It IN Right Way’ dominated the entire training, with discussions centering on the best practices in Jatropha for maximum returns. All the Trainees who attended were glad to have had the opportunity to take their learning beyond the air-conditioned comfort of the conference room, and out into the actual field where they were able to see, touch, feel and do Jatropha planting first-hand.
Some of the countries attended the global Programme are Angola, Algeria Argentina , Australia , Bangladesh , Belize, Burundi, Brazil, Cambodia , Canada, China , Colombia, Costa Rica , Ethiopia , Equator, Egypt, , , France , Germany, Ghana, Haiti, Hong Kong, Honduras , India, Iran, Ireland, Indonesia , Italy, Ivory Coast, Kenya , Lao PDR ,Libya, Mauritania, Morocco, Malaysia, Mexico,. New Zealand, Nigeria, Niger, Portugal , Peru, Pappua new Guinea, Singapore, Slovenia, Senegal, South Africa, Spain, Sri Lanka, Singapore, Switzerland , Spain, Tunisia, Thailand , Togo, Turkey, UK, USA, Uganda, Vietnam Yaman And Zambia.
6th Global Jatropha 3.0 Integrated Nonfood Biodiesel Farming & Technology Training Programme which is being held September 23-27, 2013
Secure your registration for 6th 5-day Global Jatropha 3.0 Integrated Nonfood Biodiesel Farming & Technology Training Programme in India from September 23-27, 2013 today as seats are limited. For complete details and registration, kindly visit GLOBAL TRAINING PAGE or mail to Director (Training Division):
JatrophaWorld India 2013 to Highlight on Genetics Agronomics and Horticulture Practices in Sustainable Jatropha Energy Farms
The 6th Global Jatropha 3.0 Integrated Nonfood Biodiesel Farming & Technology Training Programme which is being held September 23- 27 , 2012 at Jaipur, India, is mostly dedicated to multifeedstocks for building a sustainable biodiesel industry. The JatrophaWorld 2013 is designed to educate all stakeholders about critical issue of availability of right feedstock at right cost to make biodiesel a long-term business opportunity. Global JatrophaWorld 2013 marks the 6th edition with resounding success.
JatrophaWorld India 2013 will showcase agricultural advancement to grow the jatropha and other nonfood oil crops effectively with proper resources i.e. balancing resources to end up with a sustainable long-term solution without harming the environment
6th Global Jatrophaworld India 2013 to highlight CJP’s Biological Inputs to Enhance Jatropha Energy Farms Profitability
We have developed a truly biologically-based Crop Management System for biodiesel crop on the basis Good Agricultural Practices with access to our own supply chain intellectual property rights (IPR) and exclusive expertise with technological background and experiences in the field for creation Failsafe Fuel Farm which can reduce consumption of fertilizer, pesticides and irrigation to a great extent.
Emergence of the enhanced Biological input management system may change the entire scenario of the biodiesel industry and shall provide Crop revenues higher, Revitalizes the soil, Improves consistent crop quality, Reduces crop loss and above all :Reduce your Environmental Foot Print. CJP’S Next JATROPHAWORLD 2013, the 6th Global Jatropha Hi-tech Integrated Nonfood Biodiesel Farming & Technology Training Programme is set to introduce you the IMPACT OF BIOLOGICAL AGRI-INPUTS ON GROWTH AND YIELDS OF JATROPHA CURCAS
Global Jatrophaworld India 2013 Presents Great Variety Of Potential Biodiesel Feedstocks
JatrophaWorld 2013 promises to have something for everyone interested in developing, growing and utilizing nonfood feedstock for the production of biodiesel. The 6th Global Jatropha Hi-tech Integrated Nonfood Biodiesel Farming & Technology Training Programme which is being held September 23- 27 , 2013 at Jaipur, India , is mostly designed to educate all stakeholders about critical issue of availability of right feedstock at right cost to make biodiesel a long-term business opportunity.
JatrophaWorld 2013 will showcase agricultural advancement to grow the jatropha and other nonfood oil crops effectively with proper resources i.e. balancing resources to end up with a sustainable long-term solution without harming the environment. The focus of the programme shall remain on three major thrust areas—genetics, agronomics and horticulture practices—so the plant will grow with optimal productivity. While agronomic work is an important first step in the development of any new crop, for new oilseeds to reach commercialization, several other factors need to be addressed. With any of these crops, there is definitely an education curve for producers to be able to understand how it fits into their rotation
The JatrophaWorld 2013 shall highlight that how scientific selection of site and superior seed strain can ensure a successful Fuel Farms and can meet all the three criteria any environmentally sustainable fuel must meet. These are social, technical and commercial. The invaluable insights provided by experts/scientists will help our trainees to better understand the sustainability of this potential jet fuel source.
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