Summary

This document describes the process of petroleum refining, focusing on chemical reactions and operations. It covers various aspects of petroleum refining, including petroleum characteristics, pitch composition, sulphur content in petroleum, paraffins, and different types of hydrocarbons. The document also discusses the different processes and their properties and characteristics.

Full Transcript

## Petroleum Refining ### Processes * **Chemical Reactions:** include chemical reactions. * **Operations:** do not include chemical reactions. Examples include distillation. ### Petroleum Refining/Distillation * Represents an operation. * In India, 18% production and 180MMT imported from other c...

## Petroleum Refining ### Processes * **Chemical Reactions:** include chemical reactions. * **Operations:** do not include chemical reactions. Examples include distillation. ### Petroleum Refining/Distillation * Represents an operation. * In India, 18% production and 180MMT imported from other countries. * 60% of oilfields are offshore, 40% onshore. * Mature oilfields are known as "Brown oilfields." * 3 petrochemical industries are located in Dibrugarh: BCPL, NPE, PE. * **Virion 2080** (Hydrocarbon mission 2030). * **Reasons for declining oil production in Assam:** * Mature old fields * Limited Technology * Using the same old fields. * Solid state of Petroleum: Pitch (semi-solid form), Bitumen (finished product) ### Petroleum * Occurs in Earth's crust in all possible states. * Ranges in color from light brown to dark brown, or black. * Mixture of various hydrocarbons, primarily of homologous series: paraffins, napthenes (cyclo alkenes), aromatics (PAN). * Main elements are C (84-86%), H (11-16%). * Other elements include oxygen, nitrogen, and sulfur. * Metal constituents are about 8%. * Metals + SON -> 8% (hardly). * Inorganic Compounds in crude oil: SON * More homogeneous than coal and occur mainly in sedimentary rocks. ### Pitch * A solid or semi-solid petroleum is called Pitch. * The famous pitch lake in Trinidad is an example of this kind of petroleum. (Located in the Caribbean Sea; 5th largest island of the West Indies) * **Composition:** * Not only depends on the origin of formation, but also changes with the time of formation, storage, and migration * Impurities: other properties like color, odor, and corrosiveness ### Petroleum and Hydrocarbons * Bulk of petroleum is made up of hydrocarbons (saturated compounds like paraffins and napthenes, and unsaturated aromatics). * Highest carbon atom present in a group is C70 but generally up to C35. * **Hydrocarbon range:** * C1-C2: Gas * C3-C5: Gas (contain all 3 states and so on distillation, we get all different types of products) * C6-C7: Liquid * C8: Liquid * C9..... * C70: Solid or semi-solid * C1 and C2: dry gas * C3 and C4: wet gas * Upon increasing weight, atmospheric pressure changes to liquid and vice versa. When pressure is released, the liquid turns into gas. ### Sulphur Content in Petroleum * **Depends on the:** * Crude to crude * Country to country * Reservoir to reservoir * Assam Crude oil: very low sulfur which is good crude. * Gulf Countries: Russian crude contains up to 5% of sulfur (very high) * East: crude oils from East possess very less amount of sulfur, e.g. Indian, Indonesian, Libyan (contains up to 0.5%); whereas Assam contains in terms of PPM. ### Paraffins * Up to 3 carbon atoms have an inclination to form hydrates (ice line solid structures) by reacting methane, ethane, propane with water vapor. * Blockage on clogging oil lines, causing slush forming. * Structures: * C1H4 - 7H20 between methane and water vapor. * C1H6 - 10H20 between ethane and water vapor ### Paraffin Properties * **Viscosity**: Lower than aromatics, but Viscosity Index is high * **Rate of change of viscosity** with respect to temperature is low. * **Pour Point**: The minimum temperature which crude oil stops flowing. * **General formula**: CnHan ### Other properties of hydrocarbons * The first 4 core gases, up to C19, are liquids and beyond C19 are solids or semisolid. * Unsaturates are mainly formed during cracking. ### Refining vs Petrochemicals | | Refining | Petrochemicals | | -------- | -------- | -------- | | Products | Saturated | Unsaturated | | Example | LPG | Pen, Bagpains al | ### Thermal Cracking * **Process**: Use around 1000°C heat to crack higher hydrocarbons. * **Result**: Gasoline produced by BCPL has some unsaturated compounds mixed with it as they are produced from the cracking process. * **Use**: 100% saturated petrol in cars * **Sulfur in Crude Oil**: Occurs in different forms: * Elemental sulfur (solid) * Free sulfur * H2S (gaseous) * Mercaptan * Thiophenes ### Sulfur's role in refining * Occupies a prominent position due to problems with pet corrosion. ### Acid Gas * **Composition**: N2, H2S, CO2 plus brines in contact with H2O forming carbonic acid. ### Natural Gas (NG) * Elements: * CO (84-92%) * C2 * C3-C4 (LPG WET) * C5+ * C6+ * CO2 * H2S * H2O * Types of N.G: * Dry * Wet * Type of coil: * Dry * Wet ### Steam reforming reaction * **CH4 +1/2O-> CO + CO2 + 4H2** * Reaction of N.G. with steam: N.G. hydrates when methane enters the void space of water vapor particles, forming some ice-like structures called hydrates. ### Crude Oil Classification * Classified into 3 categories: * Paraffinic * Intermediate/ Mixed * Napthenic * **Assam Crude Oil** - Intermediate/Mixed base ### API Gravity * **Formula:** API = 141.5 - 131.5 / specific gravity * **Units:** degrees * **Method of classification:** * **Basis**: Residuum. * **Steps:** 1. Reduced crude oil (RLO) that is not defined or distilled: Distill in two-stages, one atmospheric and one vacuum. 2. Products from atmospheric distillation are further distilled in vacuum. * **Major components produced in ADU**: * Residuum * Naptha, Kerosene, Diesel are produced in VDU #### Residuum * Contains more than 5% of paraffins - paraffinic base * Contains less than 2% of paraffins - napthenic base * Contains between 2-5% of paraffins - intermediate or mixed base **US Bureau of Mines' Technique/Method** * **Basis:** Key Fraction I and II * **Study**: Chosen products out of the 5 products of ADU * **Key Fraction I (Kerosene):** 250-278°C at 760 mmHg (ADU) * **Key Fraction II (Kerosene ):** 275 to 300°C at 40 mm of Hg. (ADU) * API gravity of AFI and KFD are worked out and then characterization of crude oil is done. * **API gravity for KF-I:** * 40 or more - Paraffinic * Less than 33 - Napthenic * Between 33-40 - Intermediate/mixed * **API gravity for KF-II:** * 30 or more - Paraffinic * 20 or less - Napthenic * Between 20-30 - Intermediate/mixed ### UOP Characterization (Salon) * **Formula:** UOP = 3√R = 6.8278 * specific gravity/156/150°C. * **Classification**: * 12.5 and above: Paraffinic base. * Less than 10: Napthenic base. * 10-12.5: Intermediate/Mixed ### UOP Correlation Index * **Formula:** CI = 48640 + 473.75 - 456 * 6^8 / (Specific Gravity * Boiling point in °K) * **Classification:** * 0-15: Predominantly PB. * 15-50: Napthenic base. * 50: Aromatic **True Boiling Point (TBP) Experiment** * **Purpose:** to access distillation characteristics of crude oil. * **Benefits:** * Enlightens refiners with all possible information; * Identifies the quantum of fraction, and * Highlights difficulties to be faced during refining. * **Process**: * Determine the range of compounds/products that can be obtained from a batch of crude oil ~100ml crude oil is taken: * 20 ml petrol * 2 ml oil * 10 ml distillate **ASTM Distillation** * **Purpose**: to test crude oil * **Key terms:** * **Viscosity:** * Absolute * Kinematic * **Viscosity Index** (refinery product, cut, fraction, distillates) **Refining Products** * **Volatile Products:** C1 - C4 [C1H4 (LPG)] * **Light Distillates:** * MS/Naphtha/ Solvent / Spirit/ Spilood/ Raw Somm * Raw material for bags, raincoats, water bottles, etc. and other finished products. * **J.P - Written:** * In water bottles in polyethylene terephthalate (PET) * from 0.7 ortho -> 6% styrene * then polystyrene, naptha, polyester, and other materials. * **Aromatic:** * From para * **HBPA source:** bisphenol A (added in plastics to increase strength, but when it comes in contact with sunlight, it emits vapor which causes cancer. * **Middle Distillates:** * ATF/ Diesel / Kerosene (HSA/LSA) * High speed diesel/low speed diesel (based on RPM of vehicle) * **Lube Base Stock:** engine oil, gear oil, lube oil * **Wax:** food grade, monocrystalline, needle type * **Lactolose 50/77:** contains food-grade wax and is related to constipation medications. * **Residue/Heavy Products:** fuel oil/bitumen, 151/s (low sulfur heavy stick). ### Dehydration & Desalting of Crude Oil * **Description:** All crude oils contain moisture and salts to varying degrees. * **Problem:** Water in crude oil is likely to occur in emulsion when crude oils are basically naphthenic and sulfurous. * **No harm to distillation column:** due to the presence of moisture; there is always steam in distillation. * **Solution:** crude oils have to be dehydrated to remove salts. Water is a very good solvent for salts. Salt removal is very crucial. * **Salts:** chlorides of calcium and magnesium play an inevitable role in overhead corrosion * **Salts Present in Crude:** * Na2CO3, NaCl, CaCl2, MgCl2, FeSO4, Na2/CO3 * **Other salts (Ca,Mg) in presence of steam:** * easily hydrolyze generating hydrochloric vapor, causing corrosion. * **Salt content:** * crude oil that contains more than 5 gallons of total salts per 1000 barrels can be regarded as salty crude oil. * 1,59,000 liters of CO. ### Dehydration * **Purpose:** To remove water. * **Stages:** 1. Site of mine 2. Refinery * **Long standing of crude oil:** * may permit separation of the aqueous phase along with some amount of salts and other suspended impurities. * Free water * Emulsified water ### Dehydration Methods * **Methods:** 1. **Gravity Setting/Settling:** 2. **Chemical Treatment:** 3. **Centifugal Separation:** 4. **Electrical Resalting:** **Salt Removal from the Oilfield** * **Method:** Settling or by a combination of two. * **Problem:** Crude oil processing and emulsifying characteristics are not responsive to the settling method. * **Solution:** Emulsifying agents are necessary to increase the coalescence of water droplets. NaOH, salts of fatty acids, and petroleum sulphonates are such chemicals. * **Process:** 1. Add the chemicals and water to the crude mixture. 2. Allow it to stand at 75 to 80°C, and a pressure of 15 kg force per cm² in huge tall tanks * **Results:** * High pressure ensures the retention of volatiles in the crude oil. * Good separation into hydrocarbon and aqueous phase results when crude oil is allowed to stand for 48 hours. * **Centifugal Separation:** * Not economically viable due to high energy consumption and less quantity to handle. ### Electrical Desalting * **Process:** * Simultaneous desalting and dehydration * **Results:** Spectacular removal of more than 90% of salts from crude oil within half an hour. * **Description**: * Apply a potential difference of 20-30kV between electrodes through which crude oil is passed. * Water present in the form of emulsion forms ions that move toward the steam and trap all the salts. * **Results:** Salts collect at the bottom of the desalting column and form separate steam. * **Benefits:** * Compactness * Efficiency * Ease of operation, which induce refinery operations to adopt such desalting techniques **Pumping of Wary Crude Oil:** * **Process:** * Crude from the desalting column collects at the bottom of the desalting column and forms a separate steam. * This process is compact, efficient, and easy to operate. This makes it a desirable technique for refineries.

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