TY - GEN
T1 - Environmental friendly drilling fluid additives
T2 - SPE Symposium: Asia Pacific Health, Safety, Security, Environment and Social Responsibility 2019
AU - Al-Hameedi, Abo Taleb T.
AU - Alkinani, Husam H.
AU - Dunn-Norman, Shari
AU - Alashwak, Nawaf A.
AU - Alshammari, Abdullah F.
AU - Alkhamis, Mohammed M.
AU - Albazzaz, Hussien W.
AU - Mutar, Rusul A.
AU - Alsaba, Mortadha T.
N1 - Publisher Copyright:
Copyright 2019, Society of Petroleum Engineers.
PY - 2019
Y1 - 2019
N2 - 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.
AB - 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.
UR - https://www.scopus.com/pages/publications/85088761276
U2 - 10.2118/195410-ms
DO - 10.2118/195410-ms
M3 - Conference contribution
AN - SCOPUS:85088761276
T3 - Society of Petroleum Engineers - SPE Symposium: Asia Pacific Health, Safety, Security, Environment and Social Responsibility 2019
BT - Society of Petroleum Engineers - SPE Symposium
PB - Society of Petroleum Engineers
Y2 - 23 April 2019 through 24 April 2019
ER -