About this Dataset

Bicyclohexyl: Experimental And Derived Thermodynamic Properties

This document is part of a series of reports describing experimental property measurements completed at the National Institute for Petroleum and Energy Research (NIPER) in Bartlesville, Oklahoma, in the 1980s and 1990s. Members of the Bartlesville Thermodynamics Group included William D. "Bill" Good, William V. "Bill" Steele, Bruce E. Gammon, Norris K. Smith, Stephen E. Knipmeyer, An "Andy" Nguyen, Timothy D. Klots, I. A. "Alex" Hossenlopp, Aaron P. Rau, William B. Collier, John F. Messerly, Ann G. Osborn, Susan Lee-Bechtold, Donald G. Archer, Ian R. Tasker, Allan B. Cowell, Michael M. Strube, and the author of this report.A summary of the measurements reported here is given in Table 1.
Organization: National Institute of Standards and Technology
Last updated: 2024-09-11T04:32:28.495448
Tags: density, enthalpy-of-formation, heat-capacity, thermodynamic-functions, vapor-pressure

Tables

Table 4. Measured Densities

@usgov.national_institute_of_standard_bicyclohexyl_experiment_8d397d83.table_4_measured_densities

3.27 kB
9 rows
3 columns

CREATE TABLE table_4_measured_densities (
  "t_k" DOUBLE  -- T / K,
  "n__rho_sat_kg_m_3" DOUBLE  -- .rho. {sat} / (kg M^{-3}),
  "u_rho_sat_kg_m_3" DOUBLE  -- U(.rho. {sat}) / (kg M^{-3})
);

Table 5. Derived Enthalpies Of Vaporization

@usgov.national_institute_of_standard_bicyclohexyl_experiment_8d397d83.table_5_derived_enthalpies_of_vaporization

4.62 kB
47 rows
4 columns

CREATE TABLE table_5_derived_enthalpies_of_vaporization (
  "t_k" DOUBLE,
  "unnamed_1" VARCHAR  -- Unnamed: 1,
  "n__delta_l_g_h_m_kj_mol_1" DOUBLE  -- .Delta. {l}^{g}H M / (kJ Mol-1),
  "u_delta_l_g_h_m_kj_mol_1" DOUBLE  -- U(.Delta. {l}^{g}H M) / (kJ Mol-1)
);

Table 6. Measured Heat Capacities By DSC

@usgov.national_institute_of_standard_bicyclohexyl_experiment_8d397d83.table_6_measured_heat_capacities_by_dsc

4.2 kB
59 rows
4 columns

CREATE TABLE table_6_measured_heat_capacities_by_dsc (
  "m_g" DOUBLE  -- M / G,
  "v_cell_cm_3" DOUBLE  -- V {cell} / Cm^3,
  "t_k" DOUBLE  -- T / K,
  "c_x_m_ii_r" DOUBLE  -- C {x,m}^{II} / R
);

Table 7. Derived Heat Capacities Based On DSC Measurements

@usgov.national_institute_of_standard_bicyclohexyl_experiment_8d397d83.table_7_derived_heat_capacities_based_on_dsc_measurements

3.29 kB
14 rows
3 columns

CREATE TABLE table_7_derived_heat_capacities_based_on_dsc_measurements (
  "t_k" DOUBLE  -- T / K,
  "c_sat_m_r" DOUBLE  -- C {sat,m} / R,
  "u_c_sat_m_r" DOUBLE  -- U(C {sat,m}) / R
);

Table 8. Derived Thermodynamic Functions

@usgov.national_institute_of_standard_bicyclohexyl_experiment_8d397d83.table_8_derived_thermodynamic_functions

8.37 kB
25 rows
9 columns

CREATE TABLE table_8_derived_thermodynamic_functions (
  "phase" VARCHAR,
  "t_k" DOUBLE  -- T / K,
  "unnamed_2" VARCHAR  -- Unnamed: 2,
  "c_sat_m_r" DOUBLE  -- C {sat,m} / R,
  "u_c_sat_m_r" DOUBLE  -- U(C {sat,m}) / R,
  "n__delta_0_t_s_m_r" DOUBLE  -- .Delta. {0}^{T}S M / R,
  "u_delta_0_t_s_m_r" DOUBLE  -- U(.Delta. {0}^{T}S M) / R,
  "n__delta_0_t_h_m_rt" DOUBLE  -- .Delta. {0}^{T}H M / (RT),
  "u_delta_0_t_h_m_rt" DOUBLE  -- U(.Delta. {0}^{T}H M) / (RT)
);

Table 9. Derived Ideal-gas Properties

@usgov.national_institute_of_standard_bicyclohexyl_experiment_8d397d83.table_9_derived_ideal_gas_properties

15.48 kB
47 rows
16 columns

CREATE TABLE table_9_derived_ideal_gas_properties (
  "t_k" DOUBLE  -- T / K,
  "unnamed_1" VARCHAR  -- Unnamed: 1,
  "unnamed_2" VARCHAR  -- Unnamed: 2,
  "n__delta_0_t_h_o_m_rt" DOUBLE  -- .Delta. {0}^{T}H^{o} {m} / (RT),
  "n__delta_imp_h_m_rt" DOUBLE  -- .Delta. {imp}H {m} / (RT),
  "n__delta_0_t_s_o_m_r" DOUBLE  -- .Delta. {0}^{T}S^{o} {m} / R,
  "n__delta_imp_s_m_r" DOUBLE  -- .Delta. {imp}S {m} / R,
  "n__delta_f_h_o_m_rt" DOUBLE  -- .Delta. {f}H^{o} {m} / (RT),
  "n__delta_f_s_o_m_r" DOUBLE  -- .Delta. {f}S^{o} {m} / R,
  "n__delta_f_g_o_m_rt" DOUBLE  -- .Delta. {f}G^{o} {m} / (RT),
  "unnamed_10" VARCHAR  -- Unnamed: 10,
  "u_delta_0_t_h_o_m_rt" DOUBLE  -- U(.Delta. {0}^{T}H^{o} {m}) / (RT),
  "u_delta_0_t_s_o_m_r" DOUBLE  -- U(.Delta. {0}^{T}S^{o} {m}) / R,
  "u_delta_f_h_o_m_rt" DOUBLE  -- U(.Delta. {f}H^{o} {m}) / (RT),
  "u_delta_f_s_o_m_r" DOUBLE  -- U(.Delta. {f}S^{o} {m}) / R,
  "u_delta_f_g_o_m_rt" DOUBLE  -- U(.Delta. {f}G^{o} {m}) / (RT)
);