Search Results - Standard Oil

Fruit Oils: Chemistry and Functionality

Table of Contents: “…Part 1: General aspects -- chap1-Chemistry and functionality of fruit oils-An introduction -- Chap 02-Grading, labeling and standardization of edible oils -- Chap 03-Fruit oils in Kosovo: chemistry and functionality -- Chap04-Olive oil properties from technological aspects to dietary and health claims -- Part 2: Oils from fruit nuts -- Chap 05-Virgin walnut (Juglans regia L.) oil -- Chap 06-Almond (Prunus dulcis) oil -- Chap 07-Virgin pistachio (Pistachia vera L.) oil -- Chap 08-Chestnut (Castanea sativa) oil -- Chap 09-Coconut (Cocos nucifera) oil -- Chap 10-Hazelnut (Corylus avellana) oil -- Chap 11- Tiger nut (Cyperus esculentus L.) oil -- Part 3:Fats from fruit seeds and pulp -- Chap 12-Rambutan (Nephelium lappaceum) fats -- Chap13 -- Chyuri butter (Diploknema butyracea) seed fat -- Chap 14-Madhuca longifolia butter -- Part 4: Oils from fruit seeds and pulp -- Chap 15: Chia (Salvia hispanica) oil -- Chap 16-Argan [Argania spinosa (L.) …”
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Vegetable Oil based Bio-lubricants and Transformer Fluids Applications in Power Plants / by Gnanasekaran, Dhorali, Chavidi, Venkata Prasad

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Risk Analysis of Vapour Cloud Explosions for Oil and Gas Facilities by Ma, Guowei, Huang, Yimiao, Li, Jingde

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Peanut Processing Characteristics and Quality Evaluation by Wang, Qiang

Table of Contents: “….- Chapter 5 Peanut Processing Suitability Evaluation Standards.- Chapter 6 Functional Improvement of Peanut Protein Concentrate -- Chapter 7 Improvement of Gelation of Peanut Protein Isolate -- Chapter 8 Gelation Improvement of Peanut Protein Component -- Chapter 9 Preparation of Functional Peanut Oligopeptide and its Biological Activity -- Chapter 10 Oxidation Stability Improvement of Peanut Oil.…”
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Postharvest Management Approaches for Maintaining Quality of Fresh Produce

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Environment and social justice an international perspective /

Table of Contents: “…Taylor -- Environmental perceptions and action : villagers' response to oil and gas drilling in the wetlands of rural Trinidad / A. …”
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Vibrations of Rotating Machinery Volume 2. Advanced Rotordynamics: Applications of Analysis, Troubleshooting and Diagnosis / by Matsushita, Osami, Tanaka, Masato, Kobayashi, Masao, Keogh, Patrick, Kanki, Hiroshi

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Transforming the rural : global processes and local futures /

Table of Contents: “…Canada, dairy supply management and the Trans-Pacific Partnership negotiations / Bruce Muirhead -- Standards and their problems from technical specifications to world-making / Lawrence Busch -- Creating actionable knowledge for sustainability: a case of "standards in the making" / Allison Loconto and Marc Barbier -- Legitimation and de-legitimation in non-state governance: Leo-4000 and sustainable agriculture in the United States / Maki Hatanaka and Jason Konefal -- Farmer's freedom in the productive world order: standard takers, contesters and negotiators, or dissenters? …”
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Sustainable Shipping : A Cross-Disciplinary View. by Psaraftis, Harilaos N.

Table of Contents: “…1.1 Background -- 2 Sustainable Vessel Design, Production, Operation, and Maintenance -- 2.1 Sustainable Vessel Design -- 2.2 Sustainable Production -- 2.3 Sustainable Operation -- 2.4 Sustainable Maintenance -- 3 Sustainable Maritime Supply Chain -- 3.1 Operational Knowledge -- 3.2 Technological Knowledge -- 4 Key Enabling Technologies for Sustainable Shipping -- 4.1 Key Enabling Technologies Adapted to Shipping Domain -- 4.2 Communication -- 5 Maritime ICT Outlook -- 6 Summary -- References -- 5 Oil Pollution: Sustainable Ships and Shipping -- Abbreviations -- 1 Introduction -- 2 Regulatory Framework -- 2.1 The Evolution of the Marine Pollution International Law -- 2.1.1 OILPOL 54 -- 2.1.2 The Intervention Convention 1969 -- 2.1.3 MARPOL 73/78 -- 2.1.4 Pollution Preparedness and Response -- 2.1.5 EU Regulations -- 3 Risk Control Options to Prevent Oil Pollution from Ships -- 3.1 Active Safety Measures -- 3.1.1 Crude Oil Washing (COW) -- 3.1.2 Oily Water Separator (OWS) -- 3.1.3 Fast Oil Recovery (FOR) System -- 3.2 Passive Safety Measures -- 3.2.1 Segregated Ballast Tanks -- 3.2.2 Double-Hull Construction -- 4 Estimating the Total Cost of Oil Pollution -- 4.1 Components of Oil Spill Cost -- 4.2 Factors That Influence the Cost of Oil Spills -- 4.2.1 Location -- 4.2.2 Oil Spill Size -- 4.3 Oil Spill Cost Modeling -- 4.3.1 Models That Estimate Clean-Up Costs -- 4.3.2 Estimating Socio-economic Losses -- 4.3.3 Estimating Environmental Damages -- 4.3.4 Models That Estimate the Total Cost -- 4.4 Limitations of the IOPCF Dataset -- 5 Environmental Risk Evaluation Criteria -- 5.1 History of the Discussion at the IMO -- 5.2 An Alternative Approach -- 5.3 FSA Guidelines Status -- 5.3.1 Open Issues -- 6 Sustainable Maritime Transport of Oil -- References -- 6 Ship Recycling -- Abbreviations -- 1 Introduction -- 1.1 The World Fleet and Ship Recycling.…”
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Emerging and Traditional Technologies for Safe, Healthy and Quality Food

Table of Contents: “…-- Whey Protein Edible Coatings: Recent Developments and Applications -- Physical and Sensory Properties of High Added Value Rice Extrudates -- Quality Standardization of Traditional Dry Fermented Sausages: Case of Petrovská Klobása -- Part III: Food Biotechnology -- Traditional and Emerging Technologies for Autochthonous Lactic Acid Bacteria Application -- Effect of Cell Immobilization on Properties of Presumptive Probiotics -- The Biocide and Antibiotic Resistance in Campylobacter Jejuni and Campylobacter Coli -- Microbial Polysaccharides: Between Oil Wells, Food and Drugs -- Part IV: Food Engineering -- Food Cold Chain Management and Optimization -- Encapsulation Technologies for Food Industry -- Innovations in Food Packaging Materials -- Food Processing using Supercritical Fluids -- Aqueous Fractionation of Dry-milled Corn Germ for Food Protein Production.…”
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SAE International's Dictionary for Automotive Engineers. by Kershaw, John F.

Table of Contents: “…Air Disc Brakes (Truck and Bus) -- Air Flow -- Air Flow Meter -- Air Flow Types -- Air-Fuel Charge -- Air-Fuel Ratio -- Air-Fuel Ratio Sensor -- Air Gap -- Air-Over-Hydraulic Brake System -- Air Spring (Bag) Suspension -- Air Standard Dual Cycle -- Air Turbulence -- ALCL (Assembly Line Communications Link) -- ALDL (Assembly Line Diagnostic Link) -- Align -- ALLDATA -- All-Electric Drive Mode -- Alloy -- Alphanumeric Code -- Alternative Fuels -- Alternator -- Aluminum Bearing Material -- Ambient Air Temperature -- Amboid Gearset -- Amplitude -- Ammeter -- Ammeter Shunt -- Amperage -- Ampere-Hour -- Ampere-Turn -- Amperes -- Ampere's Rule -- Amplifier Piston -- Anaerobic Sealant -- Analog -- Analog Multimeter -- Analog Signal -- Anemometer -- Aneroid -- Annealing -- Annulus -- Anode -- Anti-dive -- Antifreeze -- Antioxidants -- Anti-rattle Clips -- Anti-roll Bar -- Anti-squat -- Anti-sway Bar (Sway Bar) -- A-Pillar -- Apex -- API (American Petroleum Institute) Oil Service Classification -- API Donut -- API Service Classification -- API Starburst -- A-Post -- APP (Accelerator Pedal Position) Sensor -- Application Valve -- Aramid -- Armature -- Articulated -- Articulated Bus -- Articulation Test -- Asbestosis -- ASD (Automatic Shutdown) -- ASE (Automotive Service Excellence) -- Ash Content -- ASME (American Society of Mechanical Engineers) -- Aspect Ratio (Tire) -- Assist Hybrid -- Asymmetrical -- ATA (American Trucking Associations) Connector -- ATC (Automatic Traction Control) Heavy Truck -- ATC (Automatic Transfer Case) -- ATCM (Automatic Transfer Case Control Module) -- ATDC (After Top Dead Center) -- ATF (Automatic Transmission Fluid) -- Atmospheric Pressure -- Atom -- Atomization -- Atomize -- AUTO-4WD (Automatic Four Wheel Drive) -- Auto Ranging -- Automatic Locking Differential -- Automatic Locking Hubs -- Automatic Transaxle.…”
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Mixing of Rubber Compounds. by Limper, Andreas

Table of Contents: “…Intro -- Table of Contents -- 1 Internal Mixer - Configuration and Design -- 1.1 Machine Design -- 1.1.1 Overall Features -- 1.1.2 Mixing Chamber -- 1.2 Types of Internal Mixers -- 1.2.1 Tangential Rotors -- 1.2.2 Intermeshing Rotors -- 1.2.3 Technological Comparison -- 1.2.4 Intermeshing Rotors with Variable Clearance (VIC) -- 1.2.5 Tandem Mixing -- 1.3 Feeding Hopper -- 1.3.1 Design Considerations -- 1.3.2 Pneumatic Feeding Hopper -- 1.3.3 Hydraulic Feeding Hopper -- 1.3.4 Comparative Aspects -- Low Noise Levels -- Rapid Ram Movement -- Precise Ram Force Adjustment -- Reproducible Pro­cess Conditions -- Reduced Operating Costs -- 1.4 Digital Ram Position Control -- 1.5 Mixing Chamber -- 1.5.1 Hard-Coating -- 1.5.2 Dust Sealing -- 1.5.3 Spring Loaded Dust Seals -- 1.5.4 Hydraulic Dust Seals with Yoke -- 1.5.5 Hydraulic Dust Seals with Cylinders (CH) -- 1.5.6 Comparison of Spring Loaded and Hydraulic Dust Seal Systems -- 1.6 Temperature Sensor -- 1.7 Plasticizer Oil Injection -- 1.8 Rotors -- 1.8.1 Assembly and Cooling -- 1.8.2 Rotor Bearings -- 1.8.3 Rotors for Tangential Internal Mixers -- Basics -- Two-Wing Rotors -- Four-Wing Rotors -- N-Rotor (Normal Rotor -- also Called Standard-Rotor) -- Full-4-Wing (F-4-W)-Rotor -- ST -Rotor (Synchronous Technology) -- ZZ 2-Rotor -- HDSC-Rotor (High Dispersion Super Cooled) -- MDSC-Rotor (Maximum Dispersion Super Cooled) [10] -- Six-Wing Rotor [11] -- 1.8.4 Rotors for Intermeshing Internal Mixers -- History of Development -- Interlocking Technology -- PES-Technology -- 1.9 Mixer Base Plate -- 1.9.1 Design -- 1.9.2 Drop Door and Latch Assembly -- 1.9.3 Drop Door and Toggle -- References -- 2 Processing Aspects of Rubber Mixing -- 2.1 Mixing Principles -- 2.2 Pro­cess Description -- 2.3 Influence of Raw Material Properties -- 2.4 Influences of Process Parameters.…”
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Seismic Evaluation and Design of Petrochemical and Other Industrial Facilities. by Facilities, Task Committee on Seismic Evaluation and Design of Petrochemical

Table of Contents: “…Intro -- Contents -- Chapter 1: Introduction -- 1.1 Objective -- 1.2 Related Industry Codes, Standards, and Specifications -- 1.3 Organization of the Book -- References -- Chapter 2: Design and Evaluation Philosophy -- 2.1 Introduction -- 2.2 Considerations for New Design -- 2.3 Considerations for the Evaluation of Existing Facilities -- 2.4 Cautions Regarding Design and Evaluation -- 2.5 Performance Objectives and Risk Categories -- 2.5.1 Performance Objectives -- 2.5.2 Risk Categories -- 2.5.3 Relationships between Performance Objectives and Risk Categories -- 2.5.4 Basis for the Recommended Performance Objectives -- 2.6 Design Approach for New Facilities -- 2.7 Evaluation of Existing Structure/Replacement in Kind -- 2.8 Considerations for Regulatory Requirements -- 2.9 Considerations for Temporary Facilities -- 2.10 Structural Observation and Inspection -- 2.11 Quality Assurance -- 2.12 Peer Review -- References -- Chapter 3: Seismic Hazards -- 3.1 Introduction -- 3.2 Earthquake Basics -- 3.2.1 Earthquake Mechanism -- 3.2.2 Earthquake Magnitude and Intensity -- 3.3 Ground Shaking -- 3.3.1 Measures of Ground Shaking for Use in Design and Evaluation -- 3.3.2 Factors Affecting Ground Shaking -- 3.4 Design Ground Motions -- 3.4.1 Design Response Spectrum-Standard Code Approach -- 3.4.2 Site-Specific Design Response Spectrum -- 3.4.3 Earthquake Time Histories -- 3.5 Ground Failure -- 3.5.1 Surface Fault Rupture -- 3.5.2 Liquefaction -- 3.6 Tsunami And Seiche -- References -- Appendix 3.A Ground Shaking -- Appendix 3.B Earthquake-Related Coastal Inundation -- Chapter 4: Seismic Analysis -- 4.1 Introduction -- 4.2 Structural Systems in a Petrochemical Facility -- 4.2.1 General -- 4.2.2 Building Structures -- 4.2.3 Nonbuilding Structures -- 4.2.4 Nonstructural Components and Systems -- 4.3 Selection of Analysis Procedures -- 4.3.1 General.…”
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Knowledge, Information and Creativity Support Systems Selected Papers from KICSS'2014 - 9th International Conference, held in Limassol, Cyprus, on November 6-8, 2014 /

Table of Contents: “…-- When Engineering and Design Students Collaborate:The Case of Website Development Workshop -- Knowledge-Managing Organizational Change Effectors, Affectors and Modulators in an Oil and Gas Sector Environment -- From Computational Creativity Metrics to the Principal Components of Human Creativity -- ASocial Creativity Support Tool Enhanced by Recommendation Algorithms: The Case of Software Architecture Design -- The Approach to the Extension of the CLAVIRE Cloud Platform for Researchers' Collaboration -- iDAF-drum: Supporting Practice of Drumstick Control by Exploiting Insignificantly Delayed Auditory Feedback -- Novel Methods for Analyzing Random Effects on ANOVA and Regression Techniques -- nVidia CUDA Platform in Graph Visualization -- A Method for Opinion Mining of Coffee Service Quality and Customer Value by Mining Twitter -- Using Wiki as a Collaboration Platform for Software Requirements and Design -- Enhancing Software Architecture via a Knowledge Management and Collaboration Tool -- Collaborative Requirement Prioritization for an E-Recruitment Platform for Qualifies but Disadvantaged Individuals -- Text Comparison Visualization from Two Information Sources by Network Merging and Integration -- Collective Knowledge and Creativity: The Future of Citizen Science in the Humanities -- Aligning Performance Assessments with Standards: A Practical Framework for Improving Student Achievement in Vocational Education.…”
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Fuel cell systems explained / by Dicks, Andrew, Rand, D. A. J. (David Anthony James), 1942-

Table of Contents: “…5.2 System Designs -- 5.2.1 Circulating Electrolyte Solution -- 5.2.2 Static Electrolyte Solution -- 5.2.3 Dissolved Fuel -- 5.2.4 Anion-Exchange Membrane Fuel Cells -- 5.3 Electrodes -- 5.3.1 Sintered Nickel Powder -- 5.3.2 Raney Metals -- 5.3.3 Rolled Carbon -- 5.3.4 Catalysts -- 5.4 Stack Designs -- 5.4.1 Monopolar and Bipolar -- 5.4.2 Other Stack Designs -- 5.5 Operating Pressure and Temperature -- 5.6 Opportunities and Challenges -- Further Reading -- Chapter 6 Direct Liquid Fuel Cells -- 6.1 Direct Methanol Fuel Cells -- 6.1.1 Principles of Operation -- 6.1.2 Electrode Reactions with a Proton-Exchange Membrane Electrolyte -- 6.1.3 Electrode Reactions with an Alkaline Electrolyte -- 6.1.4 Anode Catalysts -- 6.1.5 Cathode Catalysts -- 6.1.6 System Designs -- 6.1.7 Fuel Crossover -- 6.1.8 Mitigating Fuel Crossover: Standard Techniques -- 6.1.9 Mitigating Fuel Crossover: Prospective Techniques -- 6.1.10 Methanol Production -- 6.1.11 Methanol Safety and Storage -- 6.2 Direct Ethanol Fuel Cells -- 6.2.1 Principles of Operation -- 6.2.2 Ethanol Oxidation, Catalyst and Reaction Mechanism -- 6.2.3 Low-Temperature Operation: Performance and Challenges -- 6.2.4 High-Temperature Direct Ethanol Fuel Cells -- 6.3 Direct Propanol Fuel Cells -- 6.4 Direct Ethylene Glycol Fuel Cells -- 6.4.1 Principles of Operation -- 6.4.2 Ethylene Glycol: Anodic Oxidation -- 6.4.3 Cell Performance -- 6.5 Formic Acid Fuel Cells -- 6.5.1 Formic Acid: Anodic Oxidation -- 6.5.2 Cell Performance -- 6.6 Borohydride Fuel Cells -- 6.6.1 Anode Catalysts -- 6.6.2 Challenges -- 6.7 Application of Direct Liquid Fuel Cells -- Further Reading -- Chapter 7 Phosphoric Acid Fuel Cells -- 7.1 High-Temperature Fuel-Cell Systems -- 7.2 System Design -- 7.2.1 Fuel Processing -- 7.2.2 Fuel Utilization -- 7.2.3 Heat-Exchangers -- 7.2.3.1 Designs -- 7.2.3.2 Exergy Analysis -- 7.2.3.3 Pinch Analysis.…”
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