Hussien W. Albazzaz scite author profile

Serious problems will be presented due to using conventional chemical additives to regulate the drilling mud properties, as they have health, safety, and environmental side effects. Thus, there is a considerable necessity for alternative multifunctional bio-enhancer drilling mud additives, which can assist in optimizing the drilling fluid specifications and enhance its effectiveness with the least effects on the environment and the drilling personnel safety. The effects of adding two concentrations of palm tree leaves powder (PTLP) to water-based mud were conducted under fresh and aged conditions using standard API drilling fluids testing methods such as rheometer/viscometer, pH meter and temperature, and filter press. All tests results were minutely recorded to understand the influence of PTLP additives on the drilling mud properties. The results indicated that PTLP as an effective material to be used as pH reducer, viscosity reducer, and as an excellent filtration loss control agent under the surface and sub-surface conditions. Thus, PTLP has excellent feasibility to be utilized as biodegradable drilling mud additive replacing or at least supporting other conventional chemical additives, which have usually been used for the same purposes such as lignosulphonate, chrome-lignite, and Resinex. Finally, this work can serve as a practical guide for minimizing the cost of the drilling fluid and reducing the amount of non-biodegradable waste disposed to the environment.

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Insights into Eco-Friendly and Conventional Drilling Additives: Applications, Cost Analysis, Health, Safety, and Environmental Considerations

Al-Hameedi

Alkinani

Dunn-Norman

et al. 2019

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Drilling fluid additives play an important role in drilling engineering. Drilling fluids assist in transporting the cuttings to the surface, control formation pressure, and cool the bit. The most common fluid additives that are used in drilling fluids are the chemical additives such as barite, bentonite, caustic soda and many more. Each chemical additive has its own set of applications. Chemical additives are used for rheological properties, filtration controls, and many more. These traditional chemical additives give promising results, but they have some side effects that are commonly ignored. These side effects include cost, health, safety, and environmental concerns. This paper presents a new alternative for drilling fluid additives which are the food waste products that are discarded by people. The main objective is to be able to use food waste products as drilling fluid additives to improve the mud rheological properties and avoid any environmental issues that are commonly caused by conventional chemical additives. The food waste products are available everywhere and are easily accessible making them a good candidate for further investigation. The cost of food waste products is less compared to the cost of chemical additives and food waste products are friendlier to the environment. The average total cost of drilling operations is expensive, and part of that expense includes the cost of drilling fluids, which is also generally high. By using food waste products, the total cost for drilling operations reduces, providing a better economic solution. Food waste products account for about 8.2% of greenhouse gas emissions and they can be utilized for better uses such as drilling fluid additives. It is also generally safer to handle food waste in comparison with chemical additives as some chemical additives have hazards that require proper equipment in order to be handled. Food waste products have the potential to compete with traditional chemical additives and they might be a good alternative. Several investigations have been carried out by people using food waste products. From the previous work and experiments carried out by people, it has shown that food waste products generally improve the mud rheological properties and fluid loss control. From the previous work, there are several shortcomings that can be avoided suggesting more evaluations. Further investigation and experiments should be carried out to gain more information and results of food waste products as a drilling fluid additive in order to be used for future drilling projects.

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Environmental Friendly Drilling Fluid Additives: Can Food Waste Products be Used as Thinners and Fluid Loss Control Agents for Drilling Fluid?

Al-Hameedi

Alkinani

Dunn-Norman

et al. 2019

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Conventional chemical additives used in controlling drilling fluid properties have a severe drawback on the environment and personnel safety. The commercially available additives are non-biodegradable materials and have negative impacts when released to the environment. Thus, there is a great need for new environmental friendly biodegradable drilling fluid additives that can help to control the drilling fluid properties with the least effects on the environment and the workers’ health. This study investigates the introduction of biodegradable food waste product, which is Potato Peels Powder (PPP) to be used as environmental friendly drilling fluid additive. The effects of adding various concentrations of PPP on the chemical and the physical properties of the drilling mud (e.g. mud weight (MW), plastic viscosity (PV), yield point (YP), the filtration characteristics, and pH) were evaluated. The evaluation included conducting lab experiments with full-set measurements following the specifications of the American Petroleum Institute (API), such as filtration loss and corrosion control rate The effects of adding different concentrations of the bio-enhancer additive (PPP) were measured and recorded using mud balance, a standard API viscometer, a standard low-pressure and temperature (LPLT) filter press, chemical titration, and other drilling lab equipment. Then, all results of PPP were compared with the properties of the reference water-based mud (spud mud) in order to assess and validate the effects of biodegradable additives and their effectiveness in optimizing the performance of water-based mud. The results showed that PPP had a negligible effect on mud weight and solid content. However, PPP tangibly influenced the rheological properties in terms of maximizing plastic viscosity and minimizing yield point and gel strength. Also, PPP significantly improved the filtration characteristics by reducing the fluid loss and mud cake thickness, suggesting their applicability to be used as an excellent fluid loss control agent. Moreover, PPP additives resulted in increasing sodium chloride (NaCl); consequently, resistivity was reduced. Finally, PPP additives resulted in a reduction in alkalinity and calcium ions content (Ca++). These experimental results show that Potato Peels Powder (PPP) has the potential to be used as an alternative to some of the conventional chemical additives, and hence reducing the amount of non-biodegradable waste disposed to the environment, avoiding the personnel safety, and minimizing the drilling cost.

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Insights into the applications of waste materials in the oil and gas industry: state of the art review, availability, cost analysis, and classification

Al-Hameedi

Alkinani

Albazzaz

et al. 2020

J Petrol Explor Prod Technol

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This study investigates different types of waste materials and their applicability in the oil and gas industry as well as analyzing various applications of these waste materials in the petroleum industry. This study also explores the availability of these waste materials by performing a statistical analysis in a good number of countries worldwide. The statistical study was performed starting with a study on which countries generate waste the most overall, followed by examining multiple countries and investigating their top three most available waste. The results showed that the USA is the leading country in terms of municipal solid waste generation of 258 million metric tons, followed by China that generates around 220.4 million metric tons and then India that generates 168.4 million metric tons of municipal solid waste. The regions that generate the most food waste are North America and Oceania, providing the availability of food waste in those regions. Most of the palm tree wastes are available in the Middle East and some parts of the USA, while green waste can be found in the USA, China, and the UK. Sawdust wastes are mostly available in Europe and North America, while hay waste is abundant in the USA. Waste materials were also examined for various petroleum industry applications. Food wastes were found to be effective in drilling and completion fluids. Various food waste products were utilized to alter the drilling fluid properties such as potato peels and mandarin peels. Food wastes were also effective in altering the pH of the drilling fluids. Some plant-based wastes such as date trees were effective treatments used to stop lost circulation. Based on biodegradability and toxicity basis, waste materials were also classified into four main categories, which are eco-friendly, biodegradable, non-biodegradable, and toxic using color category classification. In summary, waste materials have the potential to be used in the petroleum industry, and they might as well be a good alternative for the future. As an example, the drilling fluid average cost approximately one-tenth of the total cost of the drilling operation, which is considered a tangible cost. By using waste materials as drilling fluid additives, the cost of the drilling fluid can be minimized. Further investigation and research should be carried out to get a better understanding of the importance of waste materials, and how they can be exploited for future applications in the oil and gas industry.

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