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This document presents a feasibility study of integrating a gas turbine with a multi-effect distillation unit for simultaneous energy and freshwater production, focusing on its technical and economic implications.
Year: 2026
Region / City: Southern Tunisia
Theme: Energy and Water Sustainability
Document Type: Feasibility Study
Institution: Siemens Energy
Author: Not specified
Target Audience: Researchers, Engineers, Energy and Water Management Professionals
Period of Effect: Ongoing
Approval Date: Not specified
Modification Date: Not specified
Price: 8 / 10 USD
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Fractional Distillation of the Atmosphere – Examination Question and Mark Scheme
Subject: Chemistry
Topic: Fractional distillation of liquid air
Type of document: Examination question and assessment mark scheme
Educational level: Secondary education
Assessment focus: Scientific explanation and written communication
Maximum marks: 6
Content elements: Table of atmospheric gases with formulas, melting points and boiling points
Gases listed: Helium, Oxygen, Nitrogen, Argon, Carbon dioxide, Water vapour
Scientific process described: Separation of atmospheric gases by fractional distillation of liquid air
Evaluation criteria: Quality of written communication, use of specialist terminology, scientific accuracy, organisation of explanation
Grading levels: Poor Understanding; Basic Understanding (Grade 3–4); Clear Understanding (Grade 5–6); Detailed Understanding (Grade 7–8)
Distillation of Main Ideas about French Furniture & Textiles for Hillwood Estate Docent Training 2026
Year: 2026
Location: Hillwood Estate, Museum & Gardens, Washington D.C., USA
Topic: French Furniture and Textiles
Document Type: Educational Worksheet
Institution: Hillwood Estate, Museum & Gardens
Audience: Mansion docents in training
Deadline: February 17, 2026
Sections: Step 1 – Distilling, Step 2 – Integrating
Methodology: Style, Function, Production interpretive framework
Assignment Type: Homework and in-class application
Cold Water Meters/11⁄2” - 10” Class II Turbine Type
Year: 2020
Region / City: Tallassee, AL
Topic: Water Meter Specifications
Document Type: Technical Specification
Organization: Neptune Technology Group Inc.
Author: Neptune Technology Group Inc.
Target Audience: Utility Engineers, Procurement Managers
Period of Validity: Not specified
Approval Date: Not specified
Modification Date: Not specified
48 MW Gas Turbine Simple Cycle Power Barge
Year: 1996
Location: North Africa
Type of Document: Technical Document
Organization: Siemens-Westinghouse
Target Audience: Engineers, Power Plant Operators
Operating Hours: 29,937
Fuel Type: Distillate, Condensate, Kerosene (HFO/Gas possible)
Fuel for Start: No. 1 distillate
Fuel for Operation: Condensate/Kerosene
Turbine Model: W251B11/12
Turbine Type: Gas Turbine, Simple Cycle
Compressor: 19 stages axial flow
Turbine: 3 stages
Speed: 5418 rpm
Operating Voltage: 11.5 kV
Gross Tonnage: 2,876 tons
Net Tonnage: 863 tons
Classification: American Bureau of Shipping
Nominal Capacity: ~48 MW
Completion Date: 1996
Last Overhaul: 2011
Status: Rehabilitation Ongoing, Testing Pending
Wind Turbine Lab Report for Columbus, Ohio Residential Complex, 24 October 2019
Submitted to: Dr. Jessica Thomas
Created by: Team K — Eric Dye, Matt Olah, Isabella Gluzman, George Byrne
Course: Engineering 1181
Institution: The Ohio State University
Location: Columbus, OH, USA
Date: 24 October 2019
Type of document: Laboratory report
Topic: Wind turbine design and energy output analysis
Experimental focus: Blade number and pitch optimization, power generation calculations
Target: Residential neighborhood energy assessment
Efficiency considered: 25%
Technical Specifications for On-site Wind Turbine Installations
Note: Year
Topic: Renewable Energy, Wind Turbines
Document Type: Technical Specification
Target Audience: Federal government agencies, contractors
Design and production investigation – Wind turbine
Year: 2026
Region / City: New South Wales
Topic: Science and Technology, Energy Transformations
Document Type: Educational Material
Organization / Institution: NSW Education Standards Authority
Author: Not specified
Target Audience: Students, Teachers
Period of Action: 2026
Approval Date: 2017
Modification Date: Not specified
Note: Contextual description
Development of novel Ni-Co base P/M disk superalloy by redesigning based on turbine blade alloy, TM-47
Year: 2023
Region / City: Japan, Tsukuba
Theme: Material Science, Superalloys
Document Type: Research Article
Institution: National Institute for Materials Science (NIMS)
Authors: Toshio Osada, Makoto Osawa, Yuhi Mori, Ayako Ikeda, Hiroshi Harada, Takuma Kohata, Kyoko Kawagishi
Target Audience: Researchers in material science and high-temperature superalloys
Period of validity: N/A
Approval Date: N/A
Date of Changes: N/A
Suppression of Vibratory Stresses in Turbine Structural Components Subjected to Aerodynamic Loading
Author: ABC
Registration Number: 123
Degree: MS Mechanical Engineering
Institution: National University of Sciences and Technology
School: School of Mechanical & Manufacturing Engineering
Department: Department Name
Supervisor: XYZ
Place: Islamabad
Date: January, 2017
Document Type: Master’s Thesis
Sections Included: Declaration, Plagiarism Certificate (Turnitin Report), Copyright Statement, Acknowledgements, Abstract, Table of Contents, References
Key Words: Vibratory Stresses, Forced Response Analysis, Magneto Mechanical Material Coating
Study Focus: Numerical computation of aerodynamic loads and finite-element analysis of turbine blade vibration
Science Fair Project Timeline: Wind Turbine and Rubber Robot Development
Date: OCT 14 2022
Note: Region / City
Theme: Science fair, Renewable Energy, Robotics
Document Type: Project timeline, Research log
Virtual Tour Script for Whisper Wind Turbine
Year: 2009
Region / city: Southeastern section of the Sustainability Experience Center
Theme: Renewable energy, wind power, research
Document type: Virtual tour script
Institution: Penn State Sustainability Experience Center
Author: Rick Auhl
Target audience: Students, researchers, visitors
Research period: Ongoing
Approval date: N/A
Modification date: N/A
Questionnaire for alternator design data for “overhung” mounting of hydro turbine rotors
Note: Year
Adrian Pollard's Submission on Wind Turbine Projects near Oxley Wild Rivers National Park
Year: 2023
Region / City: Walcha, New South Wales, Australia
Topic: Environmental concerns regarding wind turbine projects
Document type: Personal submission
Organization: None (individual submission)
Author: Adrian Pollard
Target audience: Local community, environmental groups, government officials
Period of validity: N/A
Approval date: N/A
Modification date: N/A
Vertical turbine pumps extend the product range
Year: 2018
Region / City: Global
Topic: Industrial equipment
Document Type: Product description
Organization: KSB SE & Co. KGaA
Author: KSB Group
Target Audience: Industrial professionals, engineers, procurement managers
Period of validity: N/A
Approval date: N/A
Date of changes: N/A
Description: Product brochure for vertical turbine pumps offering detailed specifications and options for customization.
FLOWBEC: Assessing spatial variation in an epifaunal community in relation to the turbulent wake created by a tidal energy turbine
Year: 2016
Region / city: Strangford Lough, Northern Ireland
Topic: Marine energy, tidal turbines, epifaunal communities
Document type: Research article
Institution: Ryan Institute, School of Natural Sciences, National University of Ireland Galway
Authors: J.P.J O’Carroll, R.M. Kennedy, A. Creech, G. Savidge
Target audience: Researchers, marine scientists, environmental policymakers
Period of validity: 2016
Approval date: 2016
Date of revisions: N/A
Note: Description
Spare Parts List for Gas Turbine Components
Year: 2026
Region / City: Not specified
Subject: Spare parts inventory for gas turbine and associated equipment
Document type: Inventory List
Organization: General Electric
Author: Not specified
Target Audience: Equipment maintenance teams, parts procurement departments
Period of validity: Not specified
Approval date: Not specified
Modification date: Not specified
The world’s most modern turbine disk manufacturing: MTU Aero Engines opens a new production hall in Munich
Year: 2024
Region / City: Munich
Theme: Turbine disk manufacturing, automation, sustainable development
Document Type: Press release
Organization / Institution: MTU Aero Engines
Author: Martina Vollmuth
Target Audience: Industry professionals, aviation sector
Period of Action: 2024-2034
Approval Date: July 12, 2024
Modification Date: None
Investment: 120 million euros
Construction Time: 2.5 years
Key Technologies: Geared Turbofan, ERCoat coating process, Flying Fuel Cell™
Energy Efficiency: Green roof, solar panels, geothermal-compatible heating system
Future Developments: Military and commercial engine programs
Topics: Multi-Effect Distillation Turbine