# header_lines : 156 # # ------------------------------------------------------------->>>> # DATA SET NAME # # dataset_name: iC5H12_neb_surface-pfp_97_hats_event # # ------------------------------------------------------------->>>> # DESCRIPTION # # dataset_description: Atmospheric Dry Air Mole Fractions of iC5H12 from the NOAA GML Surface and Aircraft Vertical Profile Network. All data in this file is PRELIMINARY. # # ------------------------------------------------------------->>>> # CITATION # # dataset_citation: Vimont, I., Montzka, S., Crotwell, M., Andrews, A., Baier, B., Hall, B., Handley, P., Higgs, J., Kofler, J., Legard, T., McKain, K., Miller, J., Moglia, E., Mund, J., Neff, D., Newberger, T., Petron, G., Sweeney, C., Turnbull, J., Wolter, S., & NOAA Global Monitoring Laboratory. (2022). Atmospheric Dry Air Mole Fractions of iC5H12 from the NOAA GML Surface and Aircraft Vertical Profile Network. [Data set]. NOAA GML. Version 2023-05-16. https://doi.org/10.15138/1yhs-rg94 # # ------------------------------------------------------------->>>> # FAIR USE POLICY # # dataset_fair_use: These data are made freely available to the public and the scientific community in the belief that their wide dissemination will lead to greater understanding and new scientific insights. The availability of these data does not constitute publication of the data. NOAA relies on the ethics and integrity of the user to ensure that GML receives fair credit for their work. If the data are obtained for potential use in a publication or presentation, GML should be informed at the outset of the nature of this work. If the GML data are essential to the work, or if an important result or conclusion depends on the GML data, co-authorship may be appropriate. This should be discussed at an early stage in the work. Manuscripts using the GML data should be sent to GML for review before they are submitted for publication so we can ensure that the quality and limitations of the data are accurately represented. # # ------------------------------------------------------------->>>> # WARNING # # dataset_warning: Every effort is made to produce the most accurate and precise measurements possible. However, we reserve the right to make corrections to the data based on recalibration of standard gases or for other reasons deemed scientifically justified. We are not responsible for results and conclusions based on use of these data without regard to this warning. # # ------------------------------------------------------------->>>> # GLOBAL ATTRIBUTES # # site_code : NEB # site_name : NE Baltimore, Maryland # site_country : United States # site_country_flag : https://gml.noaa.gov/webdata/ccgg/ObsPack/images/flags/UNST0001.GIF # site_latitude : 39.3154 # site_longitude : -76.583 # site_elevation : 44.0 # site_elevation_unit : masl # site_position_comment : This is the nominal location of the site. The sampling location at many sites has changed over time, and we report here the most recent nominal location. The actual sampling location for each observation is not necessarily the site location. The sampling locations for each observation are reported in the latitude, longitude, and altitude variables. # site_utc2lst : -5.0 # site_utc2lst_comment : Add 'site_utc2lst' hours to convert a time stamp in UTC (Coordinated Universal Time) to LST (Local Standard Time). # dataset_creation_date : 2023-05-16T09:43:27.400015 # dataset_num : 652 # dataset_name : iC5H12_neb_surface-pfp_97_hats_event # dataset_parameter : iC5H12 # dataset_parameter_name : isopentane # dataset_parameter_IUPAC_name : 2-Methylbutane # dataset_parameter_industrial_name : isopentane # dataset_parameer_chemical_name : C5H12 # dataset_parameter_sources : Petroluem, heat pumps # dataset_project : surface-pfp # dataset_platform : fixed # dataset_selection : event # dataset_selection_tag : event # dataset_comment : Urban; small representativeness except in certain cases. # dataset_calibration_scale : NOAA-2015-PR1 # dataset_start_date : 2018-04-04T19:00:00Z # dataset_stop_date : 2020-06-21T19:00:00Z # dataset_reciprocity : Use of these data implies an agreement to reciprocate. Laboratories making similar measurements agree to make their own data available to the general public and to the scientific community in an equally complete and easily accessible form. Modelers are encouraged to make available to the community, upon request, their own tools used in the interpretation of the GML data, namely well documented model code, transport fields, and additional information necessary for other scientists to repeat the work and to run modified versions. Model availability includes collaborative support for new users of the models. # dataset_usage_description : Please cite the product's citation when using data from this dataset. # dataset_reference_total_listed : 0 # dataset_contribution : These data are provided by NOAA-HATS AND NOAA. Principal investigators include Isaac Vimont (NOAA). # lab_total_listed : 2 # lab_1_number : 97 # lab_1_abbr : NOAA-HATS # lab_1_name : NOAA GML Halocarbons and Other Atmospheric Trace Species # lab_1_address1 : National Oceanic and Atmospheric Administration (NOAA), Global Monitoring Laboratory (GML) # lab_1_address2 : 325 Broadway, R/GML1 # lab_1_address3 : Boulder, CO 80305-3328 # lab_1_country : United States # lab_1_url : http://gml.noaa.gov/hats/ # lab_1_parameter : Lab has contributed measurements for: iC5H12 # lab_1_country_flag : https://gml.noaa.gov/webdata/ccgg/ObsPack/images/flags/UNST0001.GIF # lab_1_logo : https://gml.noaa.gov/webdata/ccgg/ObsPack/images/logos/noaa_medium.png # lab_1_ongoing_atmospheric_air_comparison : T # lab_2_number : 1 # lab_2_abbr : NOAA # lab_2_name : NOAA Global Monitoring Laboratory # lab_2_address1 : 325 Broadway # lab_2_address2 : NOAA R/GML-1 # lab_2_address3 : Boulder, CO 80305-3328 # lab_2_country : United States # lab_2_url : https://gml.noaa.gov/ccgg/ # lab_2_parameter : Lab has contributed measurements for: iC5H12 # lab_2_country_flag : https://gml.noaa.gov/webdata/ccgg/ObsPack/images/flags/UNST0001.GIF # lab_2_logo : https://gml.noaa.gov/webdata/ccgg/ObsPack/images/logos/noaa_medium.png # provider_total_listed : 1 # provider_1_name : Isaac Vimont # provider_1_address1 : NOAA GML # provider_1_address2 : 325 Broadway R/GML-1 # provider_1_address3 : Boulder, CO 80305-3328 # provider_1_country : United States # provider_1_affiliation : National Oceanic and Atmospheric Administration # provider_1_email : isaac.vimont@noaa.gov # provider_1_parameter : Provider has contributed measurements for: iC5H12 # ------------------------------------------------------------->>>> # VARIABLE ATTRIBUTES # # site_code:long_name : site_name_abbreviation. # site_code:comment : Site code is an abbreviation for the sampling site name. # time_components:_FillValue : -9 # time_components:long_name : integer_components_of_UTC_date/time # time_components:order : year, month, day, hour, minute, second # time_components:comment : Calendar time components as integers. Times and dates are UTC. Time-averaged values are reported at the start of the averaging interval. # datetime:long_name : air_sample_date_and_time_in_UTC # datetime:comment : Air sample date and time in UTC ISO 8601 format. Time-averaged values are reported at the start of the averaging interval. # time_decimal:_FillValue : -999.999 # time_decimal:long_name : sample_decimal_year_in_UTC # time_decimal:comment : decimal year in UTC. Time-averaged values are reported at the start of the averaging interval. # air_sample_container_id:long_name : Air_Sample_Container_ID # air_sample_container_id:comment : ID of air sample container. See provider_comment if available. # value:_FillValue : -999.999 # value:long_name : 10^-12 mol per mol # value:units : pmol mol-1 # value:scale_comment : NOAA-2015-PR1 # latitude:_FillValue : -999.999 # latitude:standard_name : latitude # latitude:long_name : sample_latitude_in_decimal_degrees # latitude:units : degrees_north # latitude:comment : Latitude at which air sample was collected. # longitude:_FillValue : -999.999 # longitude:standard_name : longitude # longitude:long_name : sample_longitude_in_decimal_degrees # longitude:units : degrees_east # longitude:comment : Longitude at which air sample was collected using a range of -180 degrees to +180 degrees. # altitude:_FillValue : -999.999 # altitude:standard_name : altitude # altitude:long_name : sample_altitude_in_meters_above_sea_level # altitude:units : m # altitude:comment : Altitude (in meters above sea level). See provider_comment if available. # altitude:provider_comment : Altitude for this dataset is the sum of surface elevation (masl) and sample intake height (magl). # elevation:_FillValue : -999.999 # elevation:standard_name : elevation # elevation:long_name : surface_elevation_in_meters_above_sea_level # elevation:units : m # elevation:comment : Surface elevation in meters above sea level. See provider_comment if available. # intake_height:_FillValue : -999.999 # intake_height:long_name : sample_intake_height_in_meters_above_ground_level # intake_height:units : m # intake_height:comment : Sample intake height in meters above ground level (magl). See provider_comment if available. # method:long_name : air_sample_collection_method # method:comment : Air sample collection method. See provider_comment if available. # method:provider_comment : A single-character code is used to identify the sample collection method. The codes are: A - The automated or manual filling of a whole air sample using the Programmable Flask Package (PFP) and Programmable Compressor Package (PCP)air sampling devices. The air sample is contained in a 0.7 liter borosilicate glass container (flask) fitted with two Glass Expansion high vacuum glass piston valves sealed with PTFE O-rings. The flasks are typically flushed with 10 liters (aircraft samples) or 75 liters (tower samples) of ambient air and then pressurized to 40 psia. Air is delivered through an intake tube using two diaphragm pumps connected in series and controlled with a microprocessor. The flow rate is approximately 15 L/min at sea level. See Sweeney et al. 2015 and Andrews et al. 2014 for more details. B - Air samples are collected as with method ‘R’, but with an additional drying step using one of several techniques. In one method, e.g. site=ACT, air samples were dried with a two-stage chiller cooled to 5 degrees C; those taken below 3000 m MSL were also pressurized to 40 psia to further facilitate air sample drying (Baier et al. 2019). At tower sampling sites, M&C chillers with temperatures set to approximately 3 degrees C and sub-ambient pressure due to high flow are used (Andrew et al. 2014). At CRV tower, a two-stage chiller set to -26 degrees C is used. C - Air samples are collected as with method ‘A’, but the sample air is dried before sample collection. Flasks are not pre-filled with ambient air before flushing and collecting the air sample. I - Air is sampled from a 15L spherical stainless steel mixing volume after being filled with ambient air that was pulled through an M&C Techgroup Model ECP 20-2 gas chiller using an integrating compressor and mass flow controller. The two stainless steel dryer traps are plumbed in series, held at approximately 5 degrees C and the condensed water is removed with a peristaltic pump. The integration starts with a high flow rate of 3.8 SLM and decreases over time to 0.29 SLM over 1 hour. The resulting one hour time averaged ambient air sample is compressed into a 0.75 liter borosilicate glass container (flask) fitted with 2 Glass Expansion high vacuum glass valves and PTFE O-rings. The flask is typically filled to 40 psia. (See Turnbull, J.C., Guenther, D., Karion, A., Sweeney, C., Anderson, E., Andrews, A.E., Kofler, J., Miles, N.L., Newberger, T., Richardson, S.J., Tans, P.P., 2012. An integrated flask sample collection system for greenhouse gas measurements. Atmos. Meas. Tech. 5, 2321-2327.) R - Air samples are collected as with method 'A', but with an additional glass conditioning step known as “prefilling”. During prefilling, the glass containers are flushed and filled with ambient air and then vented and flushed immediately before air sample collection. This is a glass conditioning step that addresses glass wall effects of the gasses of interest (Andrews et al. 2014). # event_number:long_name : Unique_Air_Sample_Event_Number # event_number:comment : Identifies each discrete air sample collected at some time and location with a unique sample event number. The event number (reported as a string) can be used to relate measurements of different trace gases and isotopes from the same sample. # instrument:long_name : instrument_ID_to_detect_atmospheric_parameter # instrument:comment : Instrument ID used to detect atmospheric parameter. See provider_comment if available. # analysis_datetime:long_name : air_sample_measurement_date_and_time_in_LT # analysis_datetime:comment : Air sample measurement date and time in LT. See provider_comment if available. # qcflag:long_name : quality_control_flag # qcflag:comment : This quality control flag is provided by the contributing PIs. See provider_comment if available. # qcflag:provider_comment : This is the NOAA 3-character quality control flag. Column 1 is the REJECTION flag. An alphanumeric other than a period (.) in the FIRST column indicates a sample with obvious problems during collection or analysis. This measurement should not be interpreted. Column 2 is the SELECTION flag. An alphanumeric other than a period (.) in the SECOND column indicates a sample that is likely valid but does not meet selection criteria determined by the goals of a particular investigation. For example, it might not have been obtained during 'background' conditions. Column 3 is the INFORMATION flag. An alphanumeric other than a period (.) in the THIRD column provides additional information about the collection or analysis of the sample. A P in the 3rd column of the QC flag indicates the measurement result is preliminary and has not yet been carefully examined by the PI. The P flag is removed once the quality of the measurement has been determined. # # VARIABLE ORDER # site_code year month day hour minute second datetime time_decimal air_sample_container_id value latitude longitude altitude elevation intake_height method event_number instrument analysis_datetime qcflag NEB 2018 4 4 19 0 0 2018-04-04T19:00:00Z 2018.2569634703195 3116-01 218.636 39.3154 -76.583 110.95 44.0 66.95 I 444049 PR1 2018-05-31T10:55:00 ..P NEB 2018 4 5 19 0 0 2018-04-05T19:00:00Z 2018.2597031963471 3116-03 123.578 39.3154 -76.583 110.95 44.0 66.95 I 444051 PR1 2018-05-31T12:25:00 ..P NEB 2018 4 6 19 0 0 2018-04-06T19:00:00Z 2018.2624429223745 3116-05 373.377 39.3154 -76.583 110.95 44.0 66.95 I 444053 PR1 2018-05-31T12:47:00 ..P NEB 2018 4 29 19 0 0 2018-04-29T19:00:00Z 2018.3254566210046 3116-07 77.201 39.3154 -76.583 110.95 44.0 66.95 I 444055 PR1 2018-05-31T13:10:00 ..P NEB 2018 5 3 19 0 0 2018-05-03T19:00:00Z 2018.3364155251143 3116-09 530.12 39.3154 -76.583 110.95 44.0 66.95 I 444057 PR1 2018-05-31T13:32:00 ..P NEB 2018 5 7 19 0 0 2018-05-07T19:00:00Z 2018.3473744292237 3116-11 365.28 39.3154 -76.583 110.95 44.0 66.95 I 444059 PR1 2018-05-31T14:17:00 ..P NEB 2018 5 20 19 0 0 2018-05-20T19:00:00Z 2018.38299086758 3503-03 231.364 39.3154 -76.583 110.95 44.0 66.95 I 446081 PR1 2018-07-11T01:07:00 ..P NEB 2018 5 23 19 0 0 2018-05-23T19:00:00Z 2018.391210045662 3503-09 114.062 39.3154 -76.583 110.95 44.0 66.95 I 446087 PR1 2018-07-11T02:38:00 ..P NEB 2018 5 25 19 0 0 2018-05-25T19:00:00Z 2018.3966894977168 3503-01 320.547 39.3154 -76.583 110.95 44.0 66.95 I 446079 PR1 2018-07-11T00:45:00 ..P NEB 2018 5 26 19 0 0 2018-05-26T19:00:00Z 2018.3994292237444 3503-05 1047.383 39.3154 -76.583 110.95 44.0 66.95 I 446083 PR1 2018-07-11T01:30:00 ..P NEB 2018 6 1 19 0 0 2018-06-01T19:00:00Z 2018.4158675799088 3503-11 648.085 39.3154 -76.583 110.95 44.0 66.95 I 446089 PR1 2018-07-11T03:00:00 ..P NEB 2018 6 5 19 0 0 2018-06-05T19:00:00Z 2018.4268264840182 3503-07 146.602 39.3154 -76.583 110.95 44.0 66.95 I 446085 PR1 2018-07-11T01:53:00 ..P NEB 2018 7 6 19 0 0 2018-07-06T19:00:00Z 2018.5117579908676 3086-05 180.512 39.3154 -76.583 110.95 44.0 66.95 I 447869 PR1 2018-09-06T17:58:00 ..P NEB 2018 7 10 19 0 0 2018-07-10T19:00:00Z 2018.522716894977 3086-01 248.91 39.3154 -76.583 110.95 44.0 66.95 I 447865 PR1 2018-09-06T17:13:00 ..P NEB 2018 7 15 19 0 0 2018-07-15T19:00:00Z 2018.536415525114 3086-03 604.61 39.3154 -76.583 110.95 44.0 66.95 I 447867 PR1 2018-09-06T17:36:00 ..P NEB 2018 7 19 19 0 0 2018-07-19T19:00:00Z 2018.5473744292237 3086-07 720.232 39.3154 -76.583 110.95 44.0 66.95 I 447871 PR1 2018-09-06T18:21:00 ..P NEB 2018 7 20 19 0 0 2018-07-20T19:00:00Z 2018.550114155251 3086-09 195.975 39.3154 -76.583 110.95 44.0 66.95 I 447873 PR1 2018-09-06T19:06:00 ..P NEB 2018 7 21 19 0 0 2018-07-21T19:00:00Z 2018.5528538812785 3086-11 241.607 39.3154 -76.583 110.95 44.0 66.95 I 447875 PR1 2018-09-06T19:29:00 ..P NEB 2018 8 23 17 40 0 2018-08-23T17:40:00Z 2018.643112633181 3101-01 74.557 39.3154 -76.583 110.95 44.0 66.95 I 449274 PR1 2018-09-28T15:50:00 ..P NEB 2018 8 27 18 20 0 2018-08-27T18:20:00Z 2018.6541476407915 3101-03 689.112 39.3154 -76.583 110.95 44.0 66.95 I 449276 PR1 2018-09-28T16:13:00 ..P NEB 2018 8 31 19 0 0 2018-08-31T19:00:00Z 2018.665182648402 3101-05 207.217 39.3154 -76.583 110.95 44.0 66.95 I 449278 PR1 2018-09-28T16:35:00 ..P NEB 2018 9 4 19 40 0 2018-09-04T19:40:00Z 2018.676217656012 3101-07 541.558 39.3154 -76.583 110.95 44.0 66.95 I 449280 PR1 2018-09-28T16:58:00 ..P NEB 2018 9 8 20 20 0 2018-09-08T20:20:00Z 2018.6872526636225 3101-09 268.131 39.3154 -76.583 110.95 44.0 66.95 I 449282 PR1 2018-09-28T17:43:00 ..P NEB 2018 9 12 21 0 0 2018-09-12T21:00:00Z 2018.698287671233 3101-11 653.919 39.3154 -76.583 110.95 44.0 66.95 I 449284 PR1 2018-09-28T18:05:00 ..P NEB 2018 9 25 19 0 0 2018-09-25T19:00:00Z 2018.7336757990868 3067-01 1174.596 39.3154 -76.583 110.95 44.0 66.95 I 451895 PR1 2018-11-28T20:47:00 ..P NEB 2018 9 29 19 0 0 2018-09-29T19:00:00Z 2018.7446347031964 3067-03 201.867 39.3154 -76.583 110.95 44.0 66.95 I 451897 PR1 2018-11-28T21:09:00 ..P NEB 2018 9 29 19 0 0 2018-09-29T19:00:00Z 2018.7446347031964 3067-03 208.973 39.3154 -76.583 110.95 44.0 66.95 I 451897 PR1 2018-11-28T22:18:00 ..P NEB 2018 10 3 19 0 0 2018-10-03T19:00:00Z 2018.7555936073059 3067-05 277.155 39.3154 -76.583 110.95 44.0 66.95 I 451899 PR1 2018-11-28T21:32:00 ..P NEB 2018 10 7 19 0 0 2018-10-07T19:00:00Z 2018.7665525114155 3067-07 1166.786 39.3154 -76.583 110.95 44.0 66.95 I 451901 PR1 2018-11-28T21:54:00 ..P NEB 2018 10 11 19 0 0 2018-10-11T19:00:00Z 2018.7775114155252 3067-09 878.769 39.3154 -76.583 110.95 44.0 66.95 I 451903 PR1 2018-11-28T23:03:00 ..P NEB 2018 10 15 19 0 0 2018-10-15T19:00:00Z 2018.7884703196346 3067-11 695.779 39.3154 -76.583 110.95 44.0 66.95 I 451905 PR1 2018-11-28T23:25:00 ..P NEB 2018 12 10 19 0 0 2018-12-10T19:00:00Z 2018.9418949771689 3034-01 243.007 39.3154 -76.583 110.95 44.0 66.95 I 455425 PR1 2019-03-12T09:49:00 ..P NEB 2018 12 14 19 0 0 2018-12-14T19:00:00Z 2018.9528538812785 3034-03 727.666 39.3154 -76.583 110.95 44.0 66.95 I 455427 PR1 2019-03-12T10:12:00 ..P NEB 2018 12 18 19 0 0 2018-12-18T19:00:00Z 2018.9638127853882 3034-05 144.747 39.3154 -76.583 110.95 44.0 66.95 I 455429 PR1 2019-03-12T10:34:00 ..P NEB 2018 12 22 19 0 0 2018-12-22T19:00:00Z 2018.9747716894976 3034-07 344.7 39.3154 -76.583 110.95 44.0 66.95 I 455431 PR1 2019-03-12T10:57:00 ..P NEB 2018 12 26 19 0 0 2018-12-26T19:00:00Z 2018.9857305936073 3034-09 343.48 39.3154 -76.583 110.95 44.0 66.95 I 455433 PR1 2019-03-12T11:42:00 ..P NEB 2018 12 30 19 0 0 2018-12-30T19:00:00Z 2018.996689497717 3034-11 827.038 39.3154 -76.583 110.95 44.0 66.95 I 455435 PR1 2019-03-12T12:05:00 ..P NEB 2019 3 8 19 0 0 2019-03-08T19:00:00Z 2019.18299086758 3100-01 1.312 39.3154 -76.583 110.95 44.0 66.95 I 457621 PR1 2019-05-02T10:19:00 M.P NEB 2019 3 12 19 0 0 2019-03-12T19:00:00Z 2019.1939497716894 3100-03 0.675 39.3154 -76.583 110.95 44.0 66.95 I 457623 PR1 2019-05-02T10:42:00 M.P NEB 2019 3 16 19 0 0 2019-03-16T19:00:00Z 2019.204908675799 3100-05 0.448 39.3154 -76.583 110.95 44.0 66.95 I 457625 PR1 2019-05-02T11:04:00 M.P NEB 2019 3 20 19 0 0 2019-03-20T19:00:00Z 2019.2158675799087 3100-07 0.707 39.3154 -76.583 110.95 44.0 66.95 I 457627 PR1 2019-05-02T11:27:00 M.P NEB 2019 3 24 19 0 0 2019-03-24T19:00:00Z 2019.2268264840184 3100-09 1.263 39.3154 -76.583 110.95 44.0 66.95 I 457629 PR1 2019-05-02T12:12:00 M.P NEB 2019 3 28 19 0 0 2019-03-28T19:00:00Z 2019.2377853881278 3100-11 0.68 39.3154 -76.583 110.95 44.0 66.95 I 457631 PR1 2019-05-02T12:34:00 M.P NEB 2019 7 2 19 0 0 2019-07-02T19:00:00Z 2019.500799086758 3023-01 263.797 39.3154 -76.583 110.95 44.0 66.95 I 463012 PR1 2019-08-13T19:02:00 ..P NEB 2019 7 6 19 0 0 2019-07-06T19:00:00Z 2019.5117579908676 3023-03 1528.424 39.3154 -76.583 110.95 44.0 66.95 I 463014 PR1 2019-08-13T19:25:00 ..P NEB 2019 7 10 19 0 0 2019-07-10T19:00:00Z 2019.522716894977 3023-05 427.613 39.3154 -76.583 110.95 44.0 66.95 I 463016 PR1 2019-08-13T20:56:00 ..P NEB 2019 7 14 19 0 0 2019-07-14T19:00:00Z 2019.5336757990867 3023-07 233.037 39.3154 -76.583 110.95 44.0 66.95 I 463018 PR1 2019-08-13T21:19:00 ..P NEB 2019 7 18 19 0 0 2019-07-18T19:00:00Z 2019.5446347031964 3023-09 217.906 39.3154 -76.583 110.95 44.0 66.95 I 463020 PR1 2019-08-13T21:41:00 C.P NEB 2019 7 22 19 0 0 2019-07-22T19:00:00Z 2019.555593607306 3023-11 303.798 39.3154 -76.583 110.95 44.0 66.95 I 463022 PR1 2019-08-13T22:04:00 C.P NEB 2019 9 6 19 0 0 2019-09-06T19:00:00Z 2019.6816210045663 3083-01 422.625 39.3154 -76.583 110.95 44.0 66.95 I 468525 PR1 2019-12-16T17:22:00 C.P NEB 2019 9 8 19 0 0 2019-09-08T19:00:00Z 2019.687100456621 3083-05 122.328 39.3154 -76.583 110.95 44.0 66.95 I 468529 PR1 2019-12-16T18:52:00 C.P NEB 2019 9 11 19 0 0 2019-09-11T19:00:00Z 2019.6953196347033 3083-11 781.058 39.3154 -76.583 110.95 44.0 66.95 I 468535 PR1 2019-12-16T19:15:00 C.P NEB 2020 2 16 19 0 0 2020-02-16T19:00:00Z 2020.1278460837887 3062-01 836.625 39.3154 -76.583 110.95 44.0 66.95 I 472872 PR1 2020-04-09T09:33:00 ..P NEB 2020 2 20 19 0 0 2020-02-20T19:00:00Z 2020.1387750455374 3062-03 175.031 39.3154 -76.583 110.95 44.0 66.95 I 472874 PR1 2020-04-09T09:55:00 ..P NEB 2020 2 24 19 0 0 2020-02-24T19:00:00Z 2020.149704007286 3062-05 496.102 39.3154 -76.583 110.95 44.0 66.95 I 472876 PR1 2020-04-09T10:40:00 ..P NEB 2020 2 28 19 0 0 2020-02-28T19:00:00Z 2020.1606329690346 3062-07 216.188 39.3154 -76.583 110.95 44.0 66.95 I 472878 PR1 2020-04-09T11:03:00 ..P NEB 2020 3 4 19 0 0 2020-03-04T19:00:00Z 2020.1742941712205 3062-09 165.883 39.3154 -76.583 110.95 44.0 66.95 I 472880 PR1 2020-04-09T11:25:00 ..P NEB 2020 3 8 19 0 0 2020-03-08T19:00:00Z 2020.185223132969 3062-11 217.268 39.3154 -76.583 110.95 44.0 66.95 I 472882 PR1 2020-04-09T11:48:00 ..P NEB 2020 4 22 17 40 0 2020-04-22T17:40:00Z 2020.3080221615057 3144-01 97.046 39.3154 -76.583 110.95 44.0 66.95 I 474298 PR1 2020-06-01T17:42:00 ..P NEB 2020 4 24 18 20 0 2020-04-24T18:20:00Z 2020.3135625379477 3144-03 304.894 39.3154 -76.583 110.95 44.0 66.95 I 474300 PR1 2020-06-01T18:04:00 ..P NEB 2020 4 26 19 0 0 2020-04-26T19:00:00Z 2020.3191029143898 3144-05 209.635 39.3154 -76.583 110.95 44.0 66.95 I 474302 PR1 2020-06-01T18:27:00 ..P NEB 2020 4 28 19 40 0 2020-04-28T19:40:00Z 2020.3246432908318 3144-07 350.082 39.3154 -76.583 110.95 44.0 66.95 I 474304 PR1 2020-06-01T18:49:00 ..P NEB 2020 4 30 20 20 0 2020-04-30T20:20:00Z 2020.3301836672738 3144-09 311.621 39.3154 -76.583 110.95 44.0 66.95 I 474306 PR1 2020-06-01T19:34:00 ..P NEB 2020 5 2 21 0 0 2020-05-02T21:00:00Z 2020.3357240437158 3144-11 228.883 39.3154 -76.583 110.95 44.0 66.95 I 474308 PR1 2020-06-01T19:57:00 ..P NEB 2020 5 6 19 0 0 2020-05-06T19:00:00Z 2020.3464253187615 3128-01 215.487 39.3154 -76.583 110.95 44.0 66.95 I 475318 PR1 2020-06-09T01:42:00 ..P NEB 2020 5 8 19 0 0 2020-05-08T19:00:00Z 2020.3518897996357 3128-03 705.979 39.3154 -76.583 110.95 44.0 66.95 I 475320 PR1 2020-06-09T02:05:00 ..P NEB 2020 5 10 19 0 0 2020-05-10T19:00:00Z 2020.35735428051 3128-05 179.971 39.3154 -76.583 110.95 44.0 66.95 I 475322 PR1 2020-06-09T02:50:00 ..P NEB 2020 5 12 19 0 0 2020-05-12T19:00:00Z 2020.3628187613842 3128-07 102.776 39.3154 -76.583 110.95 44.0 66.95 I 475324 PR1 2020-06-09T03:12:00 ..P NEB 2020 5 14 19 0 0 2020-05-14T19:00:00Z 2020.3682832422587 3128-09 628.894 39.3154 -76.583 110.95 44.0 66.95 I 475326 PR1 2020-06-09T03:35:00 ..P NEB 2020 5 16 19 0 0 2020-05-16T19:00:00Z 2020.373747723133 3128-11 217.634 39.3154 -76.583 110.95 44.0 66.95 I 475328 PR1 2020-06-09T03:57:00 ..P NEB 2020 6 11 19 0 0 2020-06-11T19:00:00Z 2020.4447859744992 3098-01 250.141 39.3154 -76.583 110.95 44.0 66.95 I 491633 PR1 2021-07-22T00:44:00 ..P NEB 2020 6 13 19 0 0 2020-06-13T19:00:00Z 2020.4502504553734 3098-03 115.833 39.3154 -76.583 110.95 44.0 66.95 I 491635 PR1 2021-07-22T01:07:00 ..P NEB 2020 6 15 19 0 0 2020-06-15T19:00:00Z 2020.4557149362477 3098-05 367.688 39.3154 -76.583 110.95 44.0 66.95 I 491637 PR1 2021-07-22T01:29:00 ..P NEB 2020 6 17 19 0 0 2020-06-17T19:00:00Z 2020.4611794171221 3098-07 471.424 39.3154 -76.583 110.95 44.0 66.95 I 491639 PR1 2021-07-22T01:52:00 ..P NEB 2020 6 19 19 0 0 2020-06-19T19:00:00Z 2020.4666438979964 3098-09 265.969 39.3154 -76.583 110.95 44.0 66.95 I 491641 PR1 2021-07-22T02:37:00 ..P NEB 2020 6 21 19 0 0 2020-06-21T19:00:00Z 2020.4721083788706 3098-11 485.182 39.3154 -76.583 110.95 44.0 66.95 I 491643 PR1 2021-07-22T02:59:00 ..P