CAMBODIA INTRODUCTION

Kingdom of Cambodia is located at the center of ASEAN Countries with a land area of 181,035 square kilometers, and its population is about 14 million. The country’s economy is mainly reliant on agriculture. In recent years, the development of technology and many initiative policies has further boosted the prospect of agricultural industry.
Nowadays, the reserves of fossil fuels are declining which is leading to ever-increasing prices and high-demanding of alcohol. Ethanol is widely used in chemical industry, light industry, agricultural chemical industry, cosmetic industry, electronic industry, military industry, solutions and reagent industry.
The massive demand for new sources of oil has driven by ever-increasing demands for energy globally. Plant oil is highly valued as Bio fuel ”Diesel” and transformed into Bio Diesel in most industrialized. With Cambodia’s rapid economic growth and the increasingly acute energetic, the advantages of bio-fuel, as a high-quality alternative to fossil fuel, have become more apparent as it is renewable, clean and safe.

Bio-Fuel production especially Bio-Ethanol from cassava and Bio-Diesel from Jatropha that the possible sources of new type of additional energy in Cambodia.

Bio-Fuel:
1. Bio-Diesel

2. Bio-Ethanol
3. Approaches to Biofuel Development

BIO-DIESEL

What is Bio-Diesel?
Bio-Diesel is a diesel fuel substitute produced from renewable sources such as vegetable oils, animal fats, and recycled cooking oils. Chemically, it is defined as the mono alkyl esters of long chain fatty acids derived from renewable lipid sources. Bio-Diesel is typically produced through the reaction of a vegetable oil or animal fat with methanol or ethanol in the presence of a catalyst to yield glycerin and Bio-Diesel (chemically called methyl or ethyl esters). Bio-Diesel can be used in need form, or blended with petroleum diesel for use in diesel engines. its physical and chemical properties as it relates to operation of diesel engines are similar to petroleum based diesel fuel. Non-Hazardous, Biodegradable.

The process:
The process of converting vegetable oil into Bio-Diesel fuel is called Transesterification and is luckily less complex then it sounds.
Chemically, Transesterification means taking a triglyceride molecule, or a complex fatty acid, neutralizing the free fatty acids, removing the glycerin, and creating an alcohol ester. This is accomplished by mixing methanol with sodium hydroxide to make sodium methoxide. This liquid is then mixed into the vegetable oil. After the mixture has settled, Glycerin is left on the bottom and methyl esters, or biodiesel is left on top and is washed and filtered. The final product Bio-Diesel fuel, when used directly in a Diesel Engine will burn up to 75% cleaner then mineral oil Diesel fuel.



Advantage of Bio-Diesel:
- It is renewable.
- It is energy efficient.
- It displaces petroleum derived diesel fuel.
- It can be used in most diesel equipment with no or only minor modifications.
- It can reduce global warming gas emissions.
- It can reduce tailpipe emissions, including air toxics.
- It is nontoxic, biodegradable, and suitable for sensitive environments.It is made from either agricultural or recycled resources.


1. Plantation:
The energy plant, Jatropha Curcas Linn is a drought-resistant perennial, growing well in marginal/poor-soil. It is very suitable to establish in Cambodia, and grows relatively quickly, producing seeds for 60 years. Depending on soil quality and rainfall, oil can be extracted from the Jatropha nuts aftr two or three years. The kernels consist of oil to about 40%-60%; this can be transformed into biodiesel fuel through esterification.
The oil can be combusted as fuel without being refined. It burns with clear smoke-free flame, tested successfully as fuel for simple diesel engine. We being the promoter and producer of Jatropha Curcas Linn have proud of developing quality planting material.




Characteristics of Jatropha as detailed below:
- Seed weight about 1500-1900 seeds per Kg
- Needs minimal input or management.
- Starts yielding from the second or third year onwards and continues for 60 years.
- Can survive long periods of drought
- Propagation is easy.
Extracted oil are used as: Bio-Diesel, Varnishes, Illuminants, Soap, Pest control and Medicinal for skin diseases.


2. Manufacture:
Cambodia Bio-Tech Development Co., Ltd. is a renewable energy company focusing on Bio-Diesel researching, manufacturing, and marketing. That company has a strong R&D center. The leading product is Bio-Diesel, a renewable, non-fossil fuel alternative to mineral diesel. It is produced from a variety of oils including used vegetable oils such as Jatropha in origin. Compared with mineral diesel, Bio-Diesel burns more efficiently and discharges less carbon monoxide than fossil diesel. With the implementation of its development strategy, the Company will be able to constantly expand its Bio-Diesel production capacity.
As a kind of recycling and green-clean fuel, Bio-Diesel can be widely used in automobiles, gas engines, and power plants. Our Bio-Diesel can be burned in diesel engines and also be used as an additive with diesel with any proportion. Compared to other fossil diesel oil, the Bio-Diesel has the advantages as follows:
1. Recycling, alleviating the dependence on the fossil-diesel oils
2. Burning more efficiently in the gas engine. Emission of particulates, carbon monoxide and nitrogen oxides has been obviously reduced
3. Improving the ignition ability, which bring higher engine efficiency and the enduranceFlash point of Bio-Diesel is much higher than the fossil-diesel’s, which has the very good preservation and transportation security

Bio-Ethanol

What is Bio-Ethanol?
Ethanol fuel (ethyl alcohol), the same type of alcohol found in alcoholic beverages, is made from common materials, like cassava, corn… Ethanol can be mass-produced by fermentation of sugar or from cellulose (bioethanol) or by hydration of ethylene from petroleum and other sources.
Bio-Ethanol is an alternative to gasoline for flexifuel vehicles. Bio-Ethanol provides fuel for automobiles and other forms of transportation.


The process:
The basic steps for large scale production of ethanol are: microbial (yeast) fermentation of sugars, distillation, dehydration, and denaturing. Prior to fermentation, some crops require saccharification or hydrolysis of carbohydrates such as cellulose and starch into sugars. Saccharification of cellulose is called cellulolysis. Enzymes are used to convert starch into sugar.

Advantage of Bio-Ethanol:
Ethanol is a much cleaner fuel than petrol (gasoline):
- It is a renewable fuel made from plants
- It is not a fossil-fuel: manufacturing it and burning it does not increase the greenhouse effect
- It provides high octane at low cost as an alternative to harmful fuel additives
- Ethanol blends can be used in all petrol engines without modifications
- Ethanol is biodegradable without harmful effects on the environment
- It significantly reduces harmful exhaust emissions
- Ethanol's high oxygen content reduces carbon monoxide levels more than any other oxygenate: by 25-30%, according to the US EPA
- Ethanol blends dramatically reduce emissions of hydrocarbons, a major contributor to the depletion of the ozone layer
- High-level ethanol blends reduce nitrogen oxide emissions by up to 20%
- Ethanol can reduce net carbon dioxide emissions by up to 100% on a full life-cycle basis
- High-level ethanol blends can reduce emissions of Volatile Organic Compounds (VOCs) by 30% or more (VOCs are major sources of ground-level ozone formation)
- As an octane enhancer, ethanol can cut emissions of cancer-causing benzene and butadiene by more than 50%
- Sulphur dioxide and Particulate Matter (PM) emissions are significantly decreased with ethanol.

1. Plantation:
The cassava plant gives the highest yield of food energy per cultivated area per day among crop plants, except possible for sugarcane. Cassava roots are very rich in starch, and contain significant amounts of calcium, phosphorus and vitamin C. With its high food potential, it had become a staple food of the native populations of Cambodia for a long time.
Cassava flour, also called tapioca flour or tapioca starch, is made from the starchy cassava root flour. Tapioca is an essentially flavorless starch ingredient, or fecular, produced from treated and dried cassava (manioc) root and used in cooking. In many countries significant research has begun to evaluate the use of cassava as an ethanol Bio-Fuel. We are developing a business plan for the cassava planting, and tapioca deep-and-refined processing.


2. Manufacture:
A south Korean company is investing $30 million in what it says will be Cambodia’s first bio-ethanol plant, which will produce the Ethanol for export.
The plant will open in October on an 11-hectare site fronting National Road 5 in Ponhea Leu district, Kandal province, said the director of MH Bio-Energy Group, Lee Dong Jun.
“It is Cambodia’s first ever bio-ethanol plant,” Lee told the Post on July 21, adding that the fossil fuel substitute would be exported to Europe, South Korea and Japan.
He said the company had decided to invest in Cambodia because it had cheap and abundant supplies of cassava, or tapioca, for producing ethanol, which is blended with petrol at a ratio of ten percent to 90 percent to produce bio-ethanol for vehicles. “It can reduce polluting emissions,” he said.
Up to 50,000 hectares of cassava will be needed to supply the plant, which will have a daily production capacity of 130 kiloliters to 300 kiloliters, or 130 tons to 300 tons, Lee said.
The company had begun a three-month production trial ahead of the plant’s launch in October and was relying on cassava bought from farmers in Kampong Cham and Battambang provinces, he said.
Lee said the company was paying the farmers between $130 and $180 a ton, but the price was expected to rise because the plant had created extra demand for cassava, which is mainly grown for export to Thailand and Vietnam.
To ensure adequate supplies, Lee said the company was also planting cassava on 8,000 hectares of land it owns in Kampong Speu province, where it employs about 10,000 people.
He said conditions in Cambodia were favorable for growing cassava and it generated better profits than rice or maize.
The yield ranged from 40 tons a hectare in Battambang and Kampong Cham to 10 tons a hectare in Kampong Speu.
Chan Tong Yves, secretary of state for the Ministry of Agriculture, Forestry and Fisheries, said Cambodia harvested more than one million tons of tapioca a year, but exports to Thailand and Vietnam meant production would need to be increased to ensure adequate supply for the plant. “Therefore, the ministry is encouraging more farmers to grow it,” Chan Tong Yves said.


Approaches to Bio-Fuel Development

Two Prong Approach
1. Sub-regional Cooperation
- Policy and Strategy
- R&D
- Investment Cooperation and Public-Private Partnership
2. National Program support for Plans, Priorities and Capacity Development


PRELIMINARY PLAN OF ACTION:

- Milestone activities
- Proposed projects
- Tentative implementation schedule
- Expected level of funding
Milestone Activities:
- Development of Strategies and Options
- Policy and Investment Cooperation
- Support Research and Development
- Capacity Strengthening
- Intersectoral Policy Dialogue
Development of Strategies and Options
- National and regional assessment (identification of issues, opportunities, threats and challenges)
- Networking and coordination with stakeholders
- Identify key areas of intervention
Policy and Investment Cooperation
- Enhance public-private partnership
- Organize biofuels policy forums
Support Research and Development
- Foster innovation
- Reduce costs
- Policies for social and environmental safeguards
- Impact on food prices and other economic impacts
Capacity Strengthening
- Smallholder Farmers
- Government Institutions
- Non-governmental Institutions
Instersectoral Policy Dialogue
- Dissemination and communicationProvide feedback and decision making support