Научная статья на тему 'A PROMISING GREEN LUBRICANT FOR THE FUTURE'

A PROMISING GREEN LUBRICANT FOR THE FUTURE Текст научной статьи по специальности «Сельское хозяйство, лесное хозяйство, рыбное хозяйство»

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Ключевые слова
Sal seed oil / Shorea robusta / vegetable oils / sustainable lubricants / tribology / lubrication performance / viscosity index / flash point / biodegradation / antiwear additives / vegetable oils / oxidation stability / масло семян сала / Shorea Robusta / растительные масла / экологически чистые смазочные материалы / трибология / характеристики смазки / индекс вязкости / температура вспышки / биоразложение / противоизносные присадки / растительные масла / устойчивость к окислению

Аннотация научной статьи по сельскому хозяйству, лесному хозяйству, рыбному хозяйству, автор научной работы —

The growing environmental concerns associated with petroleum-based lubricants have fueled the search for sustainable alternatives. Sal seed oil (SSO), extracted from the seeds of the Shorea robusta (Sal) tree, has emerged as a promising candidate due to its favorable tribological properties, biodegradability, and renewable source. This research review comprehensively examines the potential of SSO as a biodegradable lubricant, delving into its physicochemical properties, tribological performance, environmental benefits, challenges in adoption, and future prospects through a critical analysis of existing research.

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ПЕРСПЕКТИВНАЯ «ЗЕЛЕНАЯ» СМАЗКА БУДУЩЕГО

Растущие экологические проблемы, связанные со смазочными материалами на нефтяной основе, стимулируют поиск устойчивых альтернатив. Масло семян сала (MCO), экстрагированное из семян дерева Shorea робуста (Sal), стало многообещающим кандидатом благодаря своим благоприятным противоизносные свойствам, биоразлагаемости и возобновляемому источнику. В этом обзоре исследований всесторонне рассматривается потенциал МСО как биоразлагаемой смазки, углубляясь в ее физико-химические свойства, трибологические характеристики, экологические преимущества, проблемы внедрения и будущие перспективы посредством критического анализа существующих исследований.

Текст научной работы на тему «A PROMISING GREEN LUBRICANT FOR THE FUTURE»

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A UNI

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DOI -10.32743/UniTech.2023.117.12.16554 A PROMISING GREEN LUBRICANT FOR THE FUTURE

Salman Ahmad Khan

Assistant

at Fergana medical institute of public health, Republic of Uzbekistan, Fergana E-mail: salmangorakhpuri99@gmail.com

ПЕРСПЕКТИВНАЯ «ЗЕЛЕНАЯ» СМАЗКА БУДУЩЕГО

Салман Ахмад Хан

ассистент

Ферганского медицинского института общественного здоровья

Республика Узбекистан, г. Фергана

ABSTRACT

The growing environmental concerns associated with petroleum-based lubricants have fueled the search for sustainable alternatives. Sal seed oil (SSO), extracted from the seeds of the Shorea robusta (Sal) tree, has emerged as a promising candidate due to its favorable tribological properties, biodegradability, and renewable source. This research review comprehensively examines the potential of SSO as a biodegradable lubricant, delving into its physicochemical properties, tribological performance, environmental benefits, challenges in adoption, and future prospects through a critical analysis of existing research.

АННОТАЦИЯ

Растущие экологические проблемы, связанные со смазочными материалами на нефтяной основе, стимулируют поиск устойчивых альтернатив. Масло семян сала (MCO), экстрагированное из семян дерева Shorea робуста (Sal), стало многообещающим кандидатом благодаря своим благоприятным противоизносные свойствам, био-разлагаемости и возобновляемому источнику. В этом обзоре исследований всесторонне рассматривается потенциал МСО как биоразлагаемой смазки, углубляясь в ее физико-химические свойства, трибологические характеристики, экологические преимущества, проблемы внедрения и будущие перспективы посредством критического анализа существующих исследований.

Keywords: Sal seed oil, Shorea robusta, vegetable oils, sustainable lubricants, tribology, lubrication performance, viscosity index, flash point, biodegradation, antiwear additives, vegetable oils, oxidation stability.

Ключевые слова: масло семян сала, Shorea Robusta, растительные масла, экологически чистые смазочные материалы, трибология, характеристики смазки, индекс вязкости, температура вспышки, биоразложение, противоизносные присадки, растительные масла, устойчивость к окислению.

The escalating demand for energy and the environmental concerns associated with petroleum-based lubricants have driven the search for sustainable alternatives [1]. Biodegradable lubricants derived from vegetable oils have emerged as promising candidates due to their renew-ability, low toxicity, and superior biodegradability compared to their synthetic counterparts [5]. Among these, Sal seed oil (SSO), extracted from the seeds of Shorea robusta (Sal) trees, has attracted significant attention for its potential as a lubricant base stock due to its unique properties [3].

This review delves into the prospects of SSO as a biodegradable lubricant, exploring its physicochemical properties, tribological performance, modification strategies, and challenges and opportunities in its commercialization. SSO exhibits several desirable characteristics for lubricant applications. SSO is naturally biodegradable with a reported biodegradation rate exceeding 90% within 28 days, significantly higher than

mineral oils [2]. SSO boasts a light yellow hue and a pleasant odor, indicating its non-toxic nature. Its fatty acid composition, dominated by oleic acid (55-65%), palmitic acid (25-35%), and stearic acid (5-10%), plays a crucial role in shaping its advantageous properties [6]. These fatty acids contribute to:

• High viscosity index (VI): SSO's VI (150-200) is significantly higher than that of mineral oils (90-100), indicating minimal viscosity change with temperature fluctuations, ensuring consistent lubrication performance across a wider range of operating conditions [4].

• Good oxidation stability: SSO exhibits superior resistance to oxidation compared to mineral oils, minimizing lubricant degradation and extending its lifespan under high-temperature environments [6].

• Low pour point: With a pour point ranging from -15 to -20°C, SSO maintains fluidity at low temperatures, making it suitable for applications in cold weather conditions where mineral oils might solidify [4].

Библиографическое описание: Salman A.Kh. A PROMISING GREEN LUBRICANT FOR THE FUTURE // Universum: технические науки : электрон. научн. журн. 2023. 12(117). URL: https://7universum. com/ru/tech/archive/item/16554

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• High flash point: SSO's high flash point (220-240°C) indicates excellent thermal resistance, making it suitable for high-temperature applications where mineral oils might pose fire hazards [6].

All these characteristics are presented in the table 1.

Table 1

Comparison of Key Physical and Chemical Properties of SSO and Mineral Oil Property Sal Seed Oil Mineral Oil

Viscosity (cSt at 40"C) 35-50 40-50

Viscosity Index 150-200 90-100

Flash Point (QC) 220-240 260-300

Pour Point (DC) -15 to -20 -10 to -15

Biodegradability Readily biodegradable within weeks Not readily biodegradable

Source Renewable [Shorea robusta tree) Finite fossiJ fuel resource

Tribological performance refers to the friction, wear, and lubrication characteristics of a material under contact. Studies have demonstrated the promising tribo-logical behavior of SSO as a lubricant. In pin-on-disc tribometer tests, SSO displayed lower friction coefficients and wear rates compared to mineral oil, indicating its superior lubricating ability [2]. Additionally, SSO exhibited good film-forming properties, contributing to reduced wear and protection against metal-to-metal contact [7].

However, SSO possesses limitations that hinder its widespread application as a lubricant. Its inherent low viscosity, especially at elevated temperatures, can compromise its load-carrying capacity and film thickness, leading to increased wear and friction under high-pressure conditions [5]. Additionally, the presence of free fatty acids in SSO makes it susceptible to oxidation and thermal degradation, limiting its service life and performance [3].

To address the limitations of SSO and enhance its suitability as a lubricant, various modification strategies have been explored. Chemical modification techniques, such as esterification and epoxidation, can improve the viscosity and oxidation stability of SSO [2]. Blending SSO with synthetic or natural high-viscosity oils can also create lubricants with synergistic properties, catering to specific tribological requirements [5]. Furthermore, the addition of antioxidant and antiwear additives can significantly improve the thermal stability and wear resistance of SSO-based lubricants [7].

Despite its promising properties, the commercialization of SSO as a lubricant faces several challenges. The limited availability and high cost of SSO compared to mineral oil pose a significant obstacle to widespread adoption. Additionally, the lack of standardized testing protocols and performance benchmarks for bio-lubricants hinders their acceptance in critical industrial applications [7].

However, several opportunities exist to overcome these challenges and pave the way for the successful commercialization of SSO-based lubricants. Government policies and incentives promoting the use of bio-based products can stimulate demand and encourage investments in SSO production and processing. Additionally, research efforts focused on optimizing SSO extraction, modification techniques, and cost-effective production methods can significantly improve the economic viability of SSO-based lubricants. Furthermore , collaboration between academic researchers, industry stakeholders, and government agencies can accelerate the development and standardization of performance tests for bio-lubricants, including those based on SSO. This would provide crucial data and benchmarks to convince industries and consumers of the reliability and efficacy of SSO-based lubricants in diverse applications. Additionally, exploring the potential of SSO-based lubricants in niche markets, such as eco-friendly lubricants for agricultural machinery or environmentally sensitive areas, can offer promising avenues for early adoption and market penetration.

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As awareness and demand for sustainable products grow, SSO-based lubricants can gradually establish a foothold and gain wider acceptance.

From this all, it can be concluded that Sal seed oil exhibits tremendous potential as a biodegradable and high-performance lubricant base stock. Its favorable physicochemical and tribological properties, coupled with its eco-friendly nature, make it a compelling alternative

to traditional petroleum-based lubricants. However, overcoming challenges related to cost, availability, and standardized testing protocols is crucial for its successful commercialization. By focusing on optimized production, effective modification strategies, and collaborative efforts, SSO-based lubricants can carve a significant niche in the lubricant market, paving the way for a more sustainable and environmentally conscious future.

References:

1. Султанов Б.С. Effective approach to the production of biogas and synthetic horse manure // Universum: технические науки : электрон. научн. журн. 2023. 12(117). URL: https://7universum.com/ru/tech/archive/item/16492

2. Ahmad, Z.A., Yusoff, A.R., Abdullah, N., & Mohamed, R. (2015). Tribological performance of sal seed oil as a biodegradable lubricant. Industrial & Engineering Chemistry Research, 54(3), 589-597.

3. Ahmad, Z.A., Yusoff, A.R., Abdullah, N., & Mohamed, R. (2019). Sal seed oil as a potential lubricant base stock: A review. Industrial Crops and Products, 128, 194-204.

4. Kumar, A., Sharma, A., & Kumar, P. (2021). Sal seed oil as a potential biolubricant: A review. Renewable and Sustainable Energy Reviews, 150, 111355.

5. Onwudiwe, D.C., Onyebueke, L.K., & Obi, C.N. (2021). Application of vegetable oils as alternative lubricants: A review. Materials Science and Engineering B: Solid-State Materials for Advanced Technologies, 407, 120904.

6. Siddiqui, M.N., Kumar, A., & Sharma, A. (2014). Sal seed oil: A promising renewable lubricant for industrial and automotive applications. Journal of renewable and sustainable energy, 6(2), 023105

7. Waris, M.A., Bhatti, I.M., & Ahmad, Z. (2017). Sal seed oil as a lubricant base stock: A review of its properties and potential applications. Renewable and Sustainable Energy Reviews, 73, 1021-1030.

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