Palm Oil Mill Operation with Pyrolysis and Biogas Unit Integration for Zero Waste, Maximizing Profits and Sustainability

The goal of a palm oil mill to achieve zero waste, maximum profit, and sustainability can be achieved, among other things, through the integration of pyrolysis and biogas unit. This is because nearly all solid and liquid waste from the palm oil mill can be processed into products needed by the palm oil industry, both in the palm oil mill for CPO (crude palm oil) production and on the palm oil plantation for FFB production. With pyrolysis, solid waste is converted into biochar, producing excess energy in the form of syngas and biooil for boiler fuel. Biochar is first used to increase biogas production before being applied to plantation or agricultural land. 

The biogas product can also be used as fuel for palm oil mill boiler, along with syngas and biooil. This method allows 100% of the palm kernel shell (PKS) to be sold or even exported, thus providing additional profits for the palm oil industry. Currently, 30-50% of the palm kernel shell (PKS) is generally used for boiler fuel, mixed with mesocarp fiber, and the remainder is sold or exported. Biochar production with pyrolysis. The biogas product can also be used as fuel for palm oil mill boiler, along with syngas and biooil. This method allows 100% of the palm kernel shell (PKS) to be sold or even exported, thus providing additional profits for the palm oil industry. Currently, 30-50% of the palm kernel shell (PKS) is generally used for boiler fuel, mixed with mesocarp fiber, and the remainder is sold or exported. Biochar production by pyrolysis can utilize both coconut fiber (MF) and empty fruit bunches (EFB) of palm oil. The integration scheme is as follows:

 

The use of biochar on plantations and agricultural lands will save or reduce the use of chemical fertilizers. This is especially true for oil palm plantations, where the largest operational cost is the use of chemical fertilizers. Reducing chemical fertilizer use will result in savings in fertilizer costs. Furthermore, it will provide other environmental benefits, reducing environmental impacts by minimizing waste from excessive chemical fertilizer use. Biochar slow-releases chemical fertilizers, increasing fertilizer efficiency or Nutrient Use Efficiency (NUE). Furthermore, when combined with biochar and organic fertilizer from biogas residue, the slow-release capacity of chemical fertilizers is further enhanced, resulting in higher NUE. Furthermore, another pyrolysis byproduct, pyroligneous acid (PA), is also highly beneficial for palm oil plantations as a liquid organic fertilizer and biopesticide.

Another source of income is carbon credits, or BCR (biochar carbon removal). Furthermore, carbon credits are currently a strong motivator for producers to produce biochar. To obtain these credits, biochar producers must register with a carbon standards organization and follow their methodology. Some popular carbon standards organizations include Puro Earth, Verra, and CSI. Meanwhile, for biogas production, carbon credits can also be obtained through methane avoidance mechanisms. However, the price of biogas from methane avoidance is usually lower than carbon credits from carbon removal or carbon sequestration with biochar. However, both can be accumulated and yield greater profits.

The operational potential of palm oil mills with integrated pyrolysis and biogas units for zero waste, maximizing profits, and sustainability is enormous and is predicted to become a trend because financial returns align with environmental benefits. Furthermore, environmental and sustainability issues are currently a global concern. With approximately 17 million hectares of palm oil plantations and 5.5 million hectares in Malaysia, the potential for biomass waste, particularly EFB and mesocarp fiber for biochar production, and POME waste for biogas production, is abundant. Globally, palm oil plantations cover nearly 27 million hectares. By 2024, Indonesia will be the world's top CPO producer with 56%, followed by Malaysia with 26%, and Thailand with 5%. There are more than 1,000 palm oil mills in Indonesia and approximately 500 in Malaysia. 

Wood Pellet Production, Solution to Urban Wood Biomass Waste Problems

Sorting is 50% of the solution to the problem of urban waste. The best sorting is at the location where the waste is generated, such as in households in housing or residential areas. With sorting, further waste processing will be much easier. The better the sorting is done, the easier the waste processing can be done. The reluctance of the community to sort waste makes the waste problem more complicated, prone to social conflict and protracted. Although difficult and complicated, cultivating waste sorting must continue to be done because if not handled it will become a serious environmental problem. The paradigm of waste processing also continues to change according to conditions, namely related to environmental impacts, availability of landfills, types and volumes of waste, as below.

If urban waste or MSW (municipal solid waste) can be sorted and processed properly, the environment will be clean and healthy. For example, such sorting is leaf waste made into compost, organic waste from the kitchen and leftover food for maggot feed or farming, wood waste in the form of twigs, pieces of wood and so on for wood pellet production, and plastic waste to be pyrolyzed into fuel or naphtha. And to be processed adequately, the volume of waste must also be sufficient and continuous. This is because the procurement of units for waste processing is also quite expensive. Waste processing should also be decentralized, so that it does not pile up in one place. The production capacity of the village or sub-district scale seems quite good and suitable for the manufacture of such waste processing units.

Among the urban waste is wood waste in the form of twigs, pieces of wood and so on that can be used for the production of wood pellets or wood pellets. The wood waste can come from pruning and felling trees, wood processing industry waste or wood that clogs waters such as rivers. The use of wood pellets or wood pellets can be for household cooking or SME industries. The use of wood pellets in addition to being a fuel or renewable energy that is environmentally friendly, easy to store and use and a solution to overcome biomass waste and reduce LPG imports which are worth around IDR 63.5 trillion each year.

Along with the innovation that continues to be done, wood pellet cooking stoves are becoming easier to use, efficient, clean and safe. For local governments, the production of wood pellets from wood waste also provides many benefits, namely as a solution to handling the waste, creating jobs and socializing the use of environmentally friendly renewable energy for the community. If this is successfully done, in the future the utilization of wood waste can continue to be developed.

Cogeneration in Palm Oil Mills with Pyrolysis, Initial Steps in Biochar Production and Implementation

The analogy is like cofiring carried out in coal-fired power plants by mixing biomass fuels with a certain ratio as an effort to decarbonize the energy sector in power plants. While in palm oil mills, cogeneration with pyrolysis is an innovative initial step to enter the carbon negative era with the application of biochar, the main product of pyrolysis. And because all palm oil mills use biomass fuel for their mill operations, they are already based on carbon neutral fuel, unlike coal-fired power plants which are based on carbon positive fuels because they come from fossils.

Unlike cofiring which mixes coal and biomass fuels with a certain ratio and then burns them together in a furnace such as pulverized combustion, cogeneration is done by producing energy separately but the energy output is for the same use or especially the same boiler. This is done because the types of fuels may be different, such as solid fuels with liquid fuels or the technology for producing the energy is different. With this cogeneration, it means that not all energy is produced from one energy source or energy from cogeneration is a secondary energy source to meet total energy needs, and in the case of cogeneration in this palm oil mill, energy from combustion is still the primary energy.

Then why not just do full pyrolysis? It is easier, gradually for palm oil mills to adopt pyrolysis technology and its characteristics. Because (slow) pyrolysis aims to maximize solid / biochar, the by-products in the form of excess energy (syngas and biooil) as a source of boiler fuel, the calorific value is not as much as combustion which is indeed intended to maximize heat. Only about 1/3 of the excess energy contributes (cogeneration) as boiler fuel. In other words, if full pyrolysis is carried out directly, the amount of biomass as raw material for pyrolysis becomes 3 times greater or the pyrolysis unit becomes very large so that all palm oil mill biomass waste is used, and the mill cannot sell its palm kernel shells.

What are the benefits obtained by palm oil mills if they carry out cogeneration with pyrolysis for biochar production? Among the biochar products, it can save fertilizer use in oil palm plantations, overcome the problem of empty oil palm bunches (EFB) so that palm oil mills can achieve zero waste, palm kernel shells (PKS) that have been used for boiler fuel can be sold to increase income, the productivity of fresh fruit bunches (FFB) of palm oil increases, the application of biochar in palm oil plantations is also a climate solution (carbon sequestration / carbon sink) so that it can get carbon credit compensation and with good waste management, even zero waste and the application of biochar in palm oil plantations, palm oil companies will get a good image in terms of the environment and sustainability.
 

Selling Wood Processing Machines and include Wood Waste Processing Machines

Various wood processed products are increasingly diverse and developing today. The utilization of wood is optimized for its function, especially those originating from production forests. To improve the quality and usefulness of the wood, it needs to be processed specifically, which is carried out in wood processing factories. This also includes the selection of wood plant species that are suitable for the purpose of their use or the product to be made. A number of wood processing products are plywood, blockboard, LVL, barecore, FJLB (Finger Joint Laminated Board), MDF (Medium Density Fiberboard), and pulp & paper.

Wood processing in the industry always requires a number of equipment ranging from the simplest, namely sawmills to complex processes such as pulp and paper mills. In addition to the physical or mechanical processing or production process, there is also a chemical process depending on the product to be produced. Sellers or providers of processing equipment or production machines are generally a complete set (complete line) so that they can be used directly and produce when the raw materials are ready. The more efficient and quality the equipment will be comparable to its price which is a fixed investment in the wood processing industry. The cost and benefit ratio factor is very important in selecting the machine or equipment, especially those that are export-oriented with large production volumes.

The concept of zero waste in the wood processing industries has not been fully implemented. There are still many wood processing industries whose waste pollutes the environment and can have social impacts. This includes sellers or providers of these machines, most of whom are still focused on providing machines or production equipment for the main product but not on the aspect of handling and processing waste. In fact, with the potential for waste produced being quite large, processing this waste is important. Pellet and briquette production is one solution to overcome this. Wood waste in the form of wood chips, offcuts, sawdust, slab and bark can be processed into briquettes and pellets. Sellers or providers of machines or production equipment that are innovative and environmentally sustainable will implement this concept. 

Briquette and pellet production will not only solve the waste problem but will also provide economic benefits. With raw materials for briquettes and pellets coming from waste itself, the cost of raw materials can be said to be zero so that in the end it will provide great benefits. Waste production of up to 1000 tons/month is very suitable for the production of briquettes, while if the waste is very large, for example 5000 tons/month or more, pellet production is more recommended. Briquettes can also be charcoaled to become charcoal briquette products which are in high demand from Turkey, Saudi Arabia and the Middle East. Meanwhile, wood pellets are widely used for power plants abroad, the need for which is expected to continue to increase along with the decarbonization trend. If the seller of wood production or processing machines also offers waste processing equipment such as pellet machines and briquette engines, it will make it easier for wood product producers to manage their environmentally friendly industry, namely zero waste and maximize profits because all parts of the wood can be utilized optimally.

Optimizing Wood Pellet Production from Wood Waste

The volume of wood waste from the woodworking industry in Indonesia is estimated to reach 25 million tons every year. Every wood processing will produce waste such as sawdust, wood shavings, wood chips and so on, the volume of which is around 40% of the raw materials used. However, there is still a lot of waste that has not been processed so it pollutes the environment. Meanwhile, the development of the Indonesian timber industry continues to increase due to high export demand, even though actual realization of the timber industry is still low.

It is estimated that the Indonesian wood industry can actually be optimized until its production capacity reaches 91 million cubic meters per year, but in reality in 2022 the forest products industry will only be able to produce 42.19 million cubic meters per year or around 48.7% of its optimum capacity. There are 3 factors that cause the low realization of the wood industry, namely, efficiency of the wood industry, problems related to raw materials and market availability.

The low efficiency of the woodworking industry is due to the use of old machines or traditional methods for production. Meanwhile, problems related to raw materials are caused by the reduction in forest areas due to the large amount of development that causes forest land to change its function. Efforts to maintain a stable and sustainable supply of wood raw materials need to be made, including land rehabilitation programs and coaching for community forest farmers. National mapping of wood potential also needs to be carried out so that industry can obtain information regarding the supply of raw materials needed. Market availability is also an important factor in the development of the timber industry, so the ability to access information and identify market aspects, both domestic and international, is needed.

As the wood industry increases, wood waste also increases. An environmentally conscious industry certainly pays great attention to waste issues so that ideally it can achieve zero waste. These wastes are raw materials for wood pellets. The need for wood pellets continues to increase in line with the global decarbonization trend. Just as the woodworking industry requires consistency to maintain its products, so does wood pellet production. The consistency of the wood pellet raw material mixture is the key to the quality of wood pellets, including making production optimal.

In large woodworking factories, wood pellet production can be carried out simply by using its own waste, so that apart from solving the waste problem according to the zero waste concept, it can also be used as a new business development. Meanwhile, in the small - medium woodworking industry, because there is insufficient wood waste, some wood waste as raw material for wood pellets needs to be sourced from other places. A wood pellet factory can also be made independently, namely with raw materials that come 100% from other people's woodworking factory waste, meaning that the wood pellet factory is not owned by a wood processing industry. So basically a wood pellet factory is a factory or installation for processing wood waste that produces products with high selling value and is in line with the global decarbonization trend.

Production of Cow Dung Briquettes / Pellets as Fuel and Bioeconomy

The use of renewable energy is increasing along with global awareness of environmental and climate issues. Materials that used to be considered waste and polluted the environment, now with the concept of zero waste and circular economy, many have been converted into alternative energy or renewable energy. Large industries such as power plants, cement industry and so on have started to use this renewable energy in the framework of CO2 emission reduction or decarbonization programs. This decarbonization program is increasingly popular and is applied to various lines of life. 

As a real example is the cement industry in the UAE, namely Gulf Cement Co., which uses renewable energy from camel dung. From the results of operational trials it was found that every 2 tons of camel dung can replace 1 ton of coal. The use of animal dung as fuel is actually not a new thing for them, from ancestral stories cow dung has been used as heating or fuel, but many have not thought of camel dung. Gulf Cement Co currently uses 50 tons/day of camel dung as fuel. The UAE has a population of around 9000 camels for milk production, racing and beauty contests. Each camel produces 8 kg of manure per day, more or more than the farmer needs. Through a government program, camel breeders collect the camel dung at collection points. 

Cow dung has also been used as an energy source from the United States, Zimbabwe to China. In Indonesia this should also be done. With each cow producing an average of 15 kg of dung per day (about 2 times that of a camel), this is the same as the conditions in the UAE above, the volume of dung is more or more than what farmers need. The excess of this waste becomes an environmental problem and even has to be thrown into rivers and so on. Hundreds of tons of cow dung every day are not utilized in a number of areas in Indonesia, even though the dung can be used as fuel, especially when processed into briquettes or pellets (dried first). Compaction of cow dung into briquettes or pellets aims to obtain uniform size and shape, compactness, ease of storage and use, as well as saving on transportation costs. And to meet the needs of cement factory materials, such as briquettes / cow dung pellets are needed in large quantities, so large capacity production equipment is needed that works continuously. It is estimated that the need for pellets or briquettes is thousands to tens of thousands of tons every month.

In a cement plant there are 2 places that need heat energy: 1. calciner (where the calcination process occurs), 2. Rotary kiln (the heart of the cement factory, where the clinker is made). Renewable energy, such as briquettes or cow dung pellets, will usually be used in calciners with separate feeding points. Meanwhile, in rotary kilns that require higher heat, cement plants generally still use fossil fuels. The gradual use of renewable energy will reduce environmental pollution and accelerate the global decarbonization program. The cement plant itself can be said to be an industry that processes and destroys waste. This is because the cement plant can process waste such as slag and fly ash as an additive to the cement it produces - more details can be read here and also destroys waste, such as using cow dung as the fuel.