Group Skills: Difference between revisions
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The purpose of this page is to serve as a list of skills that new group members need to either already have, or acquire as they start to work in the group. | The purpose of this page is to serve as a list of skills that new group members need to either already have, or acquire as they start to work in the group. | ||
== | == Tubing, fittings, flows, etc. == | ||
=== Tubing and Fittings === | === Tubing and Fittings === | ||
| Line 10: | Line 10: | ||
<br>___ How to tell whether a swagelok fitting is damaged | <br>___ How to tell whether a swagelok fitting is damaged | ||
<br>___ How to tell whether an ultratorr fitting has all the parts and is assembled right | <br>___ How to tell whether an ultratorr fitting has all the parts and is assembled right | ||
<br>___ Types of valves: ball 2-way, 3-way, needle | <br>___ How to make an NPT connection (only one that uses teflon tape) | ||
<br>___ Types of materials and when to use each: steel, brass, nylon, teflon, aluminum | <br>___ Types of manual valves: ball 2-way, 3-way, needle | ||
<br>___ Types of fitting materials and when to use each: steel, brass, nylon, teflon, aluminum | |||
<br>___ Types of tubing materials and when to use each: steel, copper, TSI silicone conductive, nylon, teflon, sulfinert, others | |||
<br>___ Avoid TSI black silicone conductive tubing ahead of chemical or hygroscopicity instruments | |||
<br>___ How to tell whether an ultratorr fitting has all the parts | <br>___ How to tell whether an ultratorr fitting has all the parts | ||
tube) | tube) | ||
<br>___ Tubing cutters for metal and plastic | <br>___ Tubing cutters for metal and how to cut | ||
<br>___ Tubing cutters for plastic | |||
<br>___ Can we use scissors for plastic tubing | |||
<br>___ Tubing benders for large copper and steel | <br>___ Tubing benders for large copper and steel | ||
| Line 20: | Line 25: | ||
___ Using the Gast air pumps / compressors (34 lpm free air displacement, only 1 use) | ___ Using the Gast air pumps / compressors (34 lpm free air displacement, only 1 use) | ||
<br>___ Measuring flows with a Drycal (intermittent) | |||
<br>___ Measuring flows with a rotameter (intermittent or continuous) | |||
<br>___ Measuring flows with a Gillibrator or bubble flowmeter (intermittent) | |||
<br>___ Measuring flows with a TSI mass flowmeter (continuous) | |||
<br>___ Controlling flows with a mass flow controller (continuous) | |||
<br>___ Measuring flows with a Differential P gage or transducer (intermittent or continuous) | |||
<br>___ Controlling flow with O'Keefe critical orifice set | <br>___ Controlling flow with O'Keefe critical orifice set | ||
<br>___ How to control larger flows (parallel orifices, drill orifices) | <br>___ How to control larger flows (parallel orifices, drill orifices) | ||
<br>___ How to control smaller flows (AMS style orifices) | <br>___ How to control smaller flows (AMS style orifices) | ||
<br>___ | <br>___ Using Computer-controlled ball valves | ||
<br>___ | <br>___ Using Computer-controlled solenoid valves | ||
=== Testing for Leaks === | === Testing for Leaks === | ||
| Line 34: | Line 46: | ||
<br>___ Using a Helium leak detector | <br>___ Using a Helium leak detector | ||
<br>___ Using the AMS mass spectrometer (for leaks in the AMS) | <br>___ Using the AMS mass spectrometer (for leaks in the AMS) | ||
== Electricity & Electronics, Simple Measurements == | |||
=== AC Power === | |||
___ Making a new AC plug or socket | |||
<br>___ Testing AC sockets with plug tester | |||
<br>___ Using a Kill-a-Watt for measurement | |||
<br>___ Knowing the current limit of a Kill-a-Watt | |||
<br>___ Identifying circuits with circuit tester | |||
=== Making electrical and electronic connections === | === Making electrical and electronic connections === | ||
___ | ___ Using a soldering iron | ||
<br>___ Making a new serial connector | <br>___ Making a new serial connector | ||
<br>___ Telling the difference between serial (9-pin), VGA (15-pin), and other connectors | <br>___ Telling the difference between serial (9-pin), VGA (15-pin), and other connectors | ||
| Line 67: | Line 89: | ||
<br>___ Connecting a thermocouple amplifier to a multimeter | <br>___ Connecting a thermocouple amplifier to a multimeter | ||
<br>___ Connecting a thermocouple amplifier to a computer | <br>___ Connecting a thermocouple amplifier to a computer | ||
<br>___ Using an infrared handheld thermometer | |||
<br>___ Using a Variac with heating tapes | |||
=== Measuring and controlling pressure === | |||
___ Measuring pressure with a passive gage | |||
<br>___ Measuring pressure with a baratron gage | |||
<br>___ Pressure limits of baratrons (do not overpressure) | |||
=== Measuring and controlling humidity === | === Measuring and controlling humidity === | ||
| Line 74: | Line 104: | ||
<br>___ Humitter 50Y T & RH probe | <br>___ Humitter 50Y T & RH probe | ||
<br>___ Salts for calibration of RH probe | <br>___ Salts for calibration of RH probe | ||
=== Using Computers for Data Acquisition === | |||
___ Making sure that Windows Update and Antivirus are updated | |||
<br>___ Serial to USB connectors | |||
<br>___ Working with USB hubs | |||
<br>___ Using KVM extenders | |||
<br>___ Using KVM switches | |||
<br>___ Synchronizing computer clocks at least every day | |||
<br>___ Getting external clock from serial or IRIG line | |||
<br>___ Data acquisition hardware: USB NI Card, Labjack, PCI cards | |||
<br>___ Data acquisition software: Labview | |||
<br>___ Data acquisition Software: Visual Basic | |||
<br>___ Daily backup of data using Viceversa | |||
<br>___ Backing up campaign data and notebooks in group server | |||
== Aerosol Measurements == | |||
=== Non-AMS Measurements === | |||
___ How to use a CPC 3010 | |||
<br>___ How to read a CPC 3010 in a computer | |||
<br>___ IMPORTANT: how to avoid flooding a CPC 3010 | |||
<br>___ How to use the water CPC | |||
<br>___ How to fill and empty a CPC | |||
<br>___ Safety procedures with butanol | |||
<br>___ Dry a CPC overnight before transport | |||
<br>___ How to use a DMA | |||
<br>___ How to use an SMPS | |||
<br>___ Radioactive chargers: Kr-85 vs Po-210 | |||
<br>___ How to tell if a charger is still active or has decayed | |||
<br>___ Safety and regulation of radioactive sources | |||
<br>___ How to read and analyze data from an SMPS | |||
<br>___ How to use the DustTrak | |||
<br>___ How to use the Grimm OPC | |||
<br>___ How to use the CO and CO2 probe | |||
<br>___ How to use the O3 analyzer (2b) | |||
<br>___ How to use the O3 analyzer (TECO) | |||
=== AMS Basic Use === | |||
___ Shutdown procedure in case of panic: close valve, shut down TPS, vaporizer | |||
<br>___ How to change the critical orifice (close valve first!) | |||
<br>___ How to clean a c.o. (isopropanol) | |||
<br>___ How to test a c.o. (microscope, flowmeter) | |||
<br>___ Proper positioning of a c.o. (larger side on high P side) | |||
<br>___ How to test the chopper servo | |||
<br>___ How to change the chopper servo | |||
<br>___ How to measure ambient temperature (plug thermocouple amplifier to channel 0) | |||
== Basic Experimental Laboratory and Campaign Tasks == | |||
___ Keeping a good notebook in a consistent format (electronic or paper) | |||
<br>___ Record any changes in the notebook, especially unusual or unexplained ones | |||
<br>___ Keep computer clocks synchronized | |||
Revision as of 20:53, 18 September 2009
The purpose of this page is to serve as a list of skills that new group members need to either already have, or acquire as they start to work in the group.
Tubing, fittings, flows, etc.
Tubing and Fittings
___ Types of fittings: swagelok, ultratorr (cajon), NPT, barbed, other pipe (ISO, FPT...), others
___ Ferrules: front and back, how to put them in (use tube trick)
___ How to swage a fitting: 1 1/4 turns when new (less when re-doing)
___ How to tell whether a swagelok fitting is damaged
___ How to tell whether an ultratorr fitting has all the parts and is assembled right
___ How to make an NPT connection (only one that uses teflon tape)
___ Types of manual valves: ball 2-way, 3-way, needle
___ Types of fitting materials and when to use each: steel, brass, nylon, teflon, aluminum
___ Types of tubing materials and when to use each: steel, copper, TSI silicone conductive, nylon, teflon, sulfinert, others
___ Avoid TSI black silicone conductive tubing ahead of chemical or hygroscopicity instruments
___ How to tell whether an ultratorr fitting has all the parts
tube)
___ Tubing cutters for metal and how to cut
___ Tubing cutters for plastic
___ Can we use scissors for plastic tubing
___ Tubing benders for large copper and steel
Controlling and Measuring Flows
___ Using the Gast air pumps / compressors (34 lpm free air displacement, only 1 use)
___ Measuring flows with a Drycal (intermittent)
___ Measuring flows with a rotameter (intermittent or continuous)
___ Measuring flows with a Gillibrator or bubble flowmeter (intermittent)
___ Measuring flows with a TSI mass flowmeter (continuous)
___ Controlling flows with a mass flow controller (continuous)
___ Measuring flows with a Differential P gage or transducer (intermittent or continuous)
___ Controlling flow with O'Keefe critical orifice set
___ How to control larger flows (parallel orifices, drill orifices)
___ How to control smaller flows (AMS style orifices)
___ Using Computer-controlled ball valves
___ Using Computer-controlled solenoid valves
Testing for Leaks
___ Making bubbles with Snoop (if system can be pressurized)
___ Pressurizing the system and checking rate of P loss (if system can be pressurized)
___ Evacuating the system (with hand or electrical pump) and checking rate of P loss (if system can tolerate vacuum)
___ Filtering the air into the system and using a CPC (for flow systems)
___ Using a Helium leak detector
___ Using the AMS mass spectrometer (for leaks in the AMS)
Electricity & Electronics, Simple Measurements
AC Power
___ Making a new AC plug or socket
___ Testing AC sockets with plug tester
___ Using a Kill-a-Watt for measurement
___ Knowing the current limit of a Kill-a-Watt
___ Identifying circuits with circuit tester
Making electrical and electronic connections
___ Using a soldering iron
___ Making a new serial connector
___ Telling the difference between serial (9-pin), VGA (15-pin), and other connectors
___ Straight-thru vs. null-modem cables and adaptors
___ Loopback plugs (serial)
___ BNC cables and connectors, and when to use them
___ MHV and SHV connectors
___ Using a multimeter: measuring AC, DC voltages
___ Using a multimeter: testing continuity and open circuit
___ Using a multimeter: measuring current
___ Using a multimeter: measuring capacitance and inductance
___ Using the high voltage probe
___ Using an oscilloscope
___ Using an oscilloscope dividing probe
___ Using the high voltage probe with the oscilloscope
___ When do you need to use a grounding strap
___ How to use a grounding strap
___ Measuring voltages with a computer (NI USB, Labjack)
___ Measuring voltages with a computer (PCI Cards)
___ Generating voltages with a computer (NI USB, Labjack, PCI)
___ Creating simple programs in Labview
Measuring and controlling temperature
___ Types of thermocouples (we normally use yellow = K)
___ Using a thermocouple display
___ Using a thermocouple amplifier (1 mV per degree, use in F for better SNR)
___ Changing the battery in a thermocouple amplifier (Lithium 3V, NOT AA 1.5V)
___ Connecting a thermocouple amplifier to a multimeter
___ Connecting a thermocouple amplifier to a computer
___ Using an infrared handheld thermometer
___ Using a Variac with heating tapes
Measuring and controlling pressure
___ Measuring pressure with a passive gage
___ Measuring pressure with a baratron gage
___ Pressure limits of baratrons (do not overpressure)
Measuring and controlling humidity
___ Relative humidity probes
___ Stand-alone T & RH probe (with display)
___ Humitter 50Y T & RH probe
___ Salts for calibration of RH probe
Using Computers for Data Acquisition
___ Making sure that Windows Update and Antivirus are updated
___ Serial to USB connectors
___ Working with USB hubs
___ Using KVM extenders
___ Using KVM switches
___ Synchronizing computer clocks at least every day
___ Getting external clock from serial or IRIG line
___ Data acquisition hardware: USB NI Card, Labjack, PCI cards
___ Data acquisition software: Labview
___ Data acquisition Software: Visual Basic
___ Daily backup of data using Viceversa
___ Backing up campaign data and notebooks in group server
Aerosol Measurements
Non-AMS Measurements
___ How to use a CPC 3010
___ How to read a CPC 3010 in a computer
___ IMPORTANT: how to avoid flooding a CPC 3010
___ How to use the water CPC
___ How to fill and empty a CPC
___ Safety procedures with butanol
___ Dry a CPC overnight before transport
___ How to use a DMA
___ How to use an SMPS
___ Radioactive chargers: Kr-85 vs Po-210
___ How to tell if a charger is still active or has decayed
___ Safety and regulation of radioactive sources
___ How to read and analyze data from an SMPS
___ How to use the DustTrak
___ How to use the Grimm OPC
___ How to use the CO and CO2 probe
___ How to use the O3 analyzer (2b)
___ How to use the O3 analyzer (TECO)
AMS Basic Use
___ Shutdown procedure in case of panic: close valve, shut down TPS, vaporizer
___ How to change the critical orifice (close valve first!)
___ How to clean a c.o. (isopropanol)
___ How to test a c.o. (microscope, flowmeter)
___ Proper positioning of a c.o. (larger side on high P side)
___ How to test the chopper servo
___ How to change the chopper servo
___ How to measure ambient temperature (plug thermocouple amplifier to channel 0)
Basic Experimental Laboratory and Campaign Tasks
___ Keeping a good notebook in a consistent format (electronic or paper)
___ Record any changes in the notebook, especially unusual or unexplained ones
___ Keep computer clocks synchronized
