MICROBIAL GROWTH MODELS: A GENERAL MATHEMATICAL APPROACH TO OBTAIN mu(max) AND lambda PARAMETERS FROM SIGMOIDAL EMPIRICAL PRIMARY MODELS

Longhi D. A.; Dalcanton F.; de Aragao G. M. F.; Carciofi B. A. M.; Laurindo J. B.

首页> 外文期刊>Brazilian journal of chemical engineering >MICROBIAL GROWTH MODELS: A GENERAL MATHEMATICAL APPROACH TO OBTAIN mu(max) AND lambda PARAMETERS FROM SIGMOIDAL EMPIRICAL PRIMARY MODELS

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MICROBIAL GROWTH MODELS: A GENERAL MATHEMATICAL APPROACH TO OBTAIN mu(max) AND lambda PARAMETERS FROM SIGMOIDAL EMPIRICAL PRIMARY MODELS

机译：微生物生长模型：从Sigmoidal经验初级模型获得MU（MAX）和Lambda参数的一般数学方法

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Empirical sigmoidal models have been widely applied as primary models to describe microbial growth in foods. In predictive microbiology, the maximum specific growth rate (mu(max)) and the lag phase (lambda) are the parameters of some models and have been considered as biological parameters. The objective of the current study was to propose mathematical equations to obtain the parameters mu(max) and. for any sigmoidal empirical growth model. In a case study, the performance was compared of two models based on empirical parameters and two models based on biological parameters. These models were fitted to experimental data for Lactobacillus plantarum in six isothermal conditions. Some advantages of the proposed approach were the practical and biological interpretation of these parameters, and the useful information of the secondary modeling describing the dependence of mu(max) and. with the temperature.

机译：经验型六样模型已被广泛应用于初级模型以描述食物中的微生物生长。在预测微生物学中，最大特异性生长速率（MU（最大））和滞后阶段（LABDA）是某种型号的参数，并且被认为是生物参数。目前研究的目的是提出数学方程来获得MU（MAX）和。对于任何六样素体经验生长模型。在一个案例研究中，将性能与基于生物参数的经验参数和两种模型的模型相比。这些模型适用于六等温条件下的乳酸杆菌的实验数据。所提出的方法的一些优点是对这些参数的实际和生物学解释，以及描述MU（MAX）和的依赖性的二级建模的有用信息。随着温度。

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来源
《Brazilian journal of chemical engineering》 |2017年第2期|共7页
作者
Longhi D. A.; Dalcanton F.; de Aragao G. M. F.; Carciofi B. A. M.; Laurindo J. B.;
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作者单位

Univ Fed Parana Food Engn Jandaia Do Sul PR Brazil;

Univ Fed Santa Catarina Dept Chem &

Food Engn Florianopolis SC Brazil;

Univ Fed Santa Catarina Dept Chem &

Food Engn Florianopolis SC Brazil;

Univ Fed Santa Catarina Dept Chem &

Food Engn Florianopolis SC Brazil;

Univ Fed Santa Catarina Dept Chem &

Food Engn Florianopolis SC Brazil;

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原文格式 PDF
正文语种 eng
中图分类化学工业;生物物理学;
关键词
predictive microbiology; mathematical modelling; secondary models; food safety;

机译：预测微生物学;数学建模;二级模型;食品安全;

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1. MICROBIAL GROWTH MODELS: A GENERAL MATHEMATICAL APPROACH TO OBTAIN mu(max) AND lambda PARAMETERS FROM SIGMOIDAL EMPIRICAL PRIMARY MODELS [J] . Longhi D. A., Dalcanton F., de Aragao G. M. F., Brazilian journal of chemical engineering . 2017,第2期

机译：微生物生长模型：从Sigmoidal经验初级模型获得MU（MAX）和Lambda参数的一般数学方法
2. Analysis of angular observables of |$Lambda_b o Lambda (o ppi)mu^{+}mu^{-}$| decay in the standard and |$Z^{prime}$| models [J] . Aqsa Nasrullah, M Jamil Aslam, Saba Shafaq Prog. Theor. Exp. Phys. . 2018,第4期

机译：| $ Lambda_b to Lambda（ to p pi） mu ^ {+} mu ^ {-} $ |的角可观分析和| $ Z ^ { prime} $ |中的值衰减楷模
3. Using ESStudios Microbial Growth Modeling Program to Improve Student Comprehension of Microbial Growth and Its Underlying Mathematics ? [J] . David E. Hogan, Matt J. Harmon, Kourtney A. Brown-Hogan, Microbiology Education Journal . 2018,第2期

机译：使用ESStudios微生物生长建模程序来提高学生对微生物生长及其基础数学的理解？
4. Absolute frequency measurements and intercomparisons of He-Ne/CH/sup 4/ (/spl lambda/=3.39 /spl mu/m), CO/sub 2//OsO/sub 4/ (/spl lambda/=10.6 /spl mu/m) frequency stabilized lasers and Cs primary standard [C] . Acef, O., Clairon, . 1998

机译：He-Ne / CH / sup 4 /（/ spl lambda / = 3.39 / spl mu / m），CO / sub 2 // OsO / sub 4 /（/ spl lambda / = 10.6 / spl mu的绝对频率测量和比对/ m）频率稳定的激光器和Cs主要标准
5. Development of a two-parameter model (K(max), delta-K) for fatigue crack growth analysis. [D] . NorooziSani, Amir Hossein. 2007

机译：开发用于疲劳裂纹扩展分析的两参数模型（K（max），delta-K）。
6. Using ESStudios Microbial Growth Modeling Program to Improve Student Comprehension of Microbial Growth and Its Underlying Mathematics [O] . David E. Hogan, Matt J. Harmon, Kourtney A. Brown-Hogan, 2018

机译：使用ESStudios微生物生长建模程序来提高学生对微生物生长及其基础数学的理解
7. Microbial growth models: A general mathematical approach to obtain μ max and λ parameters from sigmoidal empirical primary models [O] . Daniel Angelo Longhi, Francieli Dalcanton, Gláucia Maria Falcão de Aragão, 2017

机译：微生物生长模型：从s形经验主模型获得μmax和λ参数的一般数学方法
8. Evaluation of Chemical Reaction Mechanisms for Photochemical Smog. Part 3. Sensitivity of EKMA (Empirical Kinetic Modeling Approach) to Chemical Mechanism and Input Parameters [R] . Shafer, T. B. , Seinfeld, J. H. 1985

机译：光化学烟雾化学反应机理的评价。第3部分.EKma（经验动力学建模方法）对化学机理和输入参数的敏感性

MICROBIAL GROWTH MODELS: A GENERAL MATHEMATICAL APPROACH TO OBTAIN mu(max) AND lambda PARAMETERS FROM SIGMOIDAL EMPIRICAL PRIMARY MODELS

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