№ files_lp_4_process_3_063926
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This SOP provides guidelines for the safe handling, storage, and disposal of flammable solid chemicals in laboratory settings.
Year:
2023
Region / City:
Global
Topic:
Safety Procedures for Handling Flammable Solids
Document Type:
Standard Operating Procedure (SOP)
Institution:
WSU
Author:
WSU Chemical Hygiene Officer
Target Audience:
Laboratory personnel, researchers
Effective Period:
Ongoing
Approval Date:
2023
Date of Last Revision:
Not specified
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The product description is provided for reference. Actual content and formatting may differ slightly.
Year:
N/A
Region / city:
N/A
Topic:
Explosive and flammable hazards in HUD-assisted projects
Document type:
Legislation
Author:
N/A
Target audience:
Project developers, environmental reviewers
Period of validity:
N/A
Approval date:
N/A
Date of changes:
N/A
Document Type:
Technical form
Subject:
Alternative release scenario analysis for flammable substances
Facility Information:
Name; County; Date; Topography
Chemical Information:
Name; CAS Number; Physical State
Scenario Categories:
Hose release; Process piping failure; Vessel or pump failure; Overfill or overpressurization; Shipping container damage
Risk Assessment Elements:
Previous accidental releases; Process Hazard Analysis scenarios; Scenario selection criteria
Release Characteristics:
Release type; Temperature conditions; Heat of combustion basis; Mixture composition
Equipment Data:
Equipment name; Equipment ID; Drawing number; Capacity or flow; Site location
Release Conditions:
Upset condition; Release rate determination; Administrative controls; Release duration determination
Mitigation Measures:
Passive mitigation; Active mitigation; Functional verification
Meteorological Data:
Atmospheric stability class; Wind speed; Ambient temperature; Relative humidity
Modeling Tools:
RMP Comp; OCA Guidance Reference; ALOHA; Other specified model
Off-site Impact Data:
Quantity released; Release rate; Duration; Distance to endpoint; Residential population affected; Public receptors; Environmental receptors; Data sources
Year:
2011
Jurisdiction:
Australia
Legislation Referenced:
Work Health and Safety (National Uniform Legislation) Act 2011
Related Legislation:
Ozone Protection and Synthetic Greenhouse Gas Management Act 1989
Regulations Referenced:
Ozone Protection and Synthetic Greenhouse Gas Management Regulations 1995
Issuing Body:
Heads of Workplace Safety Authorities (HWSA)
Administering Authority:
NT WorkSafe
Document Type:
Position Paper
Subject:
Work health and safety obligations regarding flammable refrigerant gases
Scope:
Use, storage and handling of flammable refrigerant gases in workplace environments
Hazard Classification:
Division 2.1 Flammable Gases; Flammable Gas Category 1 (GHS)
Target Audience:
Duty holders under WHS legislation including importers, manufacturers, designers, suppliers, technicians, employers and persons conducting a business or undertaking
Geographical Coverage:
Australian jurisdictions including state, territory and Commonwealth levels
Licence:
Creative Commons Attribution 3.0 Australia
Focus:
Fire and explosion risks associated with refrigeration and air-conditioning systems containing flammable refrigerant gases
Year:
2026
Region / City:
Aberdeenshire, UK
Subject:
Storage and safety of camping gas and flammable liquids
Document Type:
Safety guidance
Organization:
Aberdeenshire Council
Author:
Health and Safety Department
Target Audience:
Council employees, volunteers, and campers
Hazard Classification:
Flammable gas and liquid
Storage Recommendations:
Limited quantities, ventilated area, away from heat and sunlight
Disposal Instructions:
Hazardous waste disposal at licensed sites
Transport Guidelines:
Upright, secure, ventilated vehicle transport
Home Storage Guidelines:
Correct storage conditions required when kept at home
Document type:
Standard Operating Procedure
Subject area:
Water quality monitoring
Parameters measured:
Turbidity; Total Suspended Solids
Measurement units:
NTU; FNU; mg/L
Measurement methods:
Nephelometry; In situ optical sensing
Instrumentation:
Turbidimeter; Nephelometer; Infrared turbidity probes; In-line TSS sensors
Applicable standards:
FT 1610; FT 1620; FT 1630; Standard Methods 2130B (2011)
Applicable facilities:
Domestic wastewater treatment facilities
Regulatory references:
Rule 62-610.320, F.A.C.
Monitoring context:
Field measurements; Continuous monitoring; Screening measurements
Calibration requirements:
Instrument calibration and verification required
Source type:
Technical procedure documentation
Organization:
North Carolina Department of Environmental Resources
Division:
Division of Water Resources
Program:
Wastewater/Groundwater Laboratory Certification
Document type:
Laboratory compliance checklist
Analyte:
Residue, Suspended (Aqueous)
Method reference:
Standard Methods 2540 D-2015
Regulatory references:
40 CFR Part 136; 15A NCAC 2H .0805
Jurisdiction:
North Carolina
Subject area:
Water and wastewater analysis
Intended users:
Certified environmental laboratories
Equipment scope:
Filtration, drying, and gravimetric measurement apparatus
Quality system elements:
SOP review, quality assurance, quality control, documentation
Sample handling requirements:
Preservation, storage, holding time
Measurement range:
2.5–200 mg/L
Reporting limit basis:
Minimum weight gain and sample volume
Subject:
Solid-state physics
Topic:
Electrical conductivity of solids
Key Concepts:
Valence band, Conduction band, Forbidden energy gap
Materials Covered:
Insulators, Semiconductors, Conductors
Subtopics:
Intrinsic semiconductor, Extrinsic semiconductor, n-type semiconductor, p-type semiconductor, P–N junction
Physical Parameters:
Electrical conductivity (S/cm), Energy gap (eV)
Examples Mentioned:
Diamond, Silicon, Germanium, Silver, Copper, Aluminum
Processes Discussed:
Doping, Thermal excitation, Charge carrier conduction
Applications Referenced:
Diodes, Transistors, Solar cells, LEDs, Integrated circuits
Source Type:
Educational physics notes
Note:
Year
Subject:
Science
Document Type:
Worksheet
Target Audience:
Students
Year:
2018
Region / City:
Chicago, Illinois
Topic:
Guide Specification
Document Type:
Technical Specification
Organization / Institution:
MIFAB, Inc.
Author:
MIFAB, Inc.
Target Audience:
Architects, Engineers, Contractors
Effective Period:
Not specified
Approval Date:
Not specified
Amendment Date:
Not specified
Note:
Year
Certification:
CE, TÜV GS, ETLATEX certification for Model TSS Ex1 sc: 94/9/EC, ATEX Directive, CE 0035 // IBExU 09ATEX1156, CE certified to EN 61326-1:2006-05
Environmental Requirements:
Flow rate: 3 m/s (9.8 ft./s) maximum
Warranty:
The product includes a 24 month warranty, extendable to 5 years fulfilling the requested servicing intervals.
Maintenance Service:
Scheduled maintenance: 1. Clean measurement windows: monthly 2. Check calibration: monthly (depending on the environmental conditions)
Context:
Technical specification document for turbidity and suspended solids measurement equipment, including product details, environmental requirements, installation instructions, and maintenance guidelines.
Note:
Year
Context:
This document outlines basic concepts in chemistry, particularly related to states of matter, solvents, and exposure risks in various environments.
Subject:
Measurement of mass, volume, and density
Discipline:
Chemistry / Physical Science
Document Type:
Laboratory worksheet
Purpose:
Determination of mass, volume, and density using direct and indirect measurement techniques
Measurement Methods:
Graduated cylinder readings, water displacement, balance measurement
Measured Substances:
Water and glass marbles
Equipment:
Graduated cylinder, dropper, electronic or triple-beam balance, beaker
Units of Measurement:
Milliliter (mL), gram (g), liter (L)
Experimental Sections:
Direct measurement of liquid volume; indirect measurement of solid volume by water displacement; direct measurement of solid mass; indirect measurement of liquid mass
Calculated Quantities:
Average number of drops per milliliter, volume of a marble, mass of a marble, density of a marble, density of water
Target Audience:
Students performing laboratory measurements
Year:
2023
Region / City:
Magdeburg, Erlangen
Subject:
Convective drying, Adaptive control
Document type:
Research article
Institution:
MPI for Dynamics of Complex Technical Systems, Otto von Guericke University, Friedrich Alexander University
Authors:
Robert Dürr, Carsten Seidel, Christoph Neugebauer, Andreas Bück
Target audience:
Researchers and engineers in chemical, pharmaceutical, and food industries
Period of validity:
N/A
Approval date:
N/A
Modification date:
N/A
Year:
2016–2017
Subject:
Chemistry
Topic:
Properties of liquids and solids; intermolecular forces; vapor pressure; evaporation; boiling; heat of fusion and vaporization
Document type:
Educational worksheet set
Course:
Honors Chemistry
Section titles:
WS 12.1 Properties of Liquids and Solids; WS 12.2–12.4 Intermolecular Forces; WS 12.5 Evaporation and Boiling
Educational level:
Secondary education (advanced / honors level)
Content format:
Conceptual questions and calculation problems
Number of pages:
8
Key concepts:
Viscosity; surface tension; volatility; vapor pressure; hydrogen bonding; London dispersion forces; dipole interactions; boiling point trends; phase change energetics
Scientific topics referenced:
Kinetic molecular theory; intermolecular attraction strength; thermodynamic quantities of phase changes
Year:
2020
Region / City:
Florida
Topic:
Field Testing, Field Sampling, Environmental Monitoring
Document Type:
Standard Operating Procedures (SOP)
Organization / Institution:
Florida Department of Environmental Protection (FDEP)
Author:
Not specified
Target Audience:
Field technicians, environmental scientists, laboratories
Effective Period:
Ongoing
Approval Date:
Not specified
Date of Changes:
2020
Note:
Year
Topic:
Household Hazardous Waste, Battery Management, Safety
Document Type:
Standard Operating Procedure
Agency / Institution:
MPCA (Minnesota Pollution Control Agency)
Target Audience:
Household Hazardous Waste Program Staff, Facility Managers
MMU Human Tissue Act Document Control Standard Operating Procedure (SOP), Version 1.2, February 2025
Institution:
Manchester Metropolitan University
Regulatory framework:
Human Tissue Act 2004
Document type:
Standard Operating Procedure
SOP number:
MMUHTA_017
Version:
1.2
Effective date:
February 2025
Review due date:
February 2027
Superseded version:
1.1
Superseded version date:
3 March 2023
Author:
Jake Pogson
Author role:
Person Designated
Author date:
18 July 2024
Reviewer:
Garry Pheasey
Reviewer role:
Person Designated
Reviewer date:
24 February 2025
Approver:
Hans Degens
Approver role:
Designated Individual
Approval date:
28 February 2025
Read groups:
Staff, Visitors, Students and Participants
Scope:
Manchester Metropolitan University staff involved in work with relevant material
Subject area:
Human tissue governance and document control
Associated documents:
HTA Codes of Practice and Standards
Period covered by changes:
2023–2025
Note:
Year
Note:
Year
Contextual description of the document:
Instructions for reviewing, updating, and printing a Standard Operating Procedure (SOP) document for safety and operational guidelines regarding the use of machinery.
Note:
Year
Topic:
Safety and Operational Guidelines
Document Type:
Standard Operating Procedure
Target Audience:
Users operating bandsaw equipment