Overview
Gas analysis is the measurement and characterization of the composition, concentration, and physicochemical behaviour of gases, applied across analytical chemistry, engineering, environmental science, and clinical physiology. In the laboratory and industrial setting it quantifies gaseous species and their ratios to monitor processes, characterize materials, and evaluate the performance of systems such as gas turbines, where simulation and demonstrative analysis support design and operation. In medicine, gas analysis is central to assessing respiratory and metabolic function through the measurement of oxygen, carbon dioxide, and acid-base parameters in blood and exhaled air. Clinically oriented applications include the use of the alveolar-arterial oxygen pressure difference to evaluate gas exchange and to help characterize conditions such as acute respiratory distress associated with pneumonia, and the interpretation of acid-base disturbances using concepts such as the strong ion difference, illustrated by hyperchloraemic acidosis following saline exposure. Related physiological work considers the role of carbon dioxide accumulation in altered states of consciousness, and gas-exchange assessment extends to comparative and veterinary anaesthesia, where cardiorespiratory parameters are monitored during ventilation. Techniques span spectroscopic, electrochemical, and chromatographic methods, often coupled with characterization of thin films and surfaces in sensor development. Across these domains, gas analysis provides quantitative insight into composition and exchange, informing diagnosis, process control, and the detection of abnormal or hazardous conditions.
Research published in this journal
7 peer-reviewed articles, ranked by relevance. Each links to its DOI.
The Role of Cerebral Hypercarbia in the Induction of the Near-Death Experience
The Design and Demonstrative Analysis of the Gas Turbine Operation’s Simulator
Evaluation of cardiorespiratory parameters in dogs undergoing laparoscopic versus open gonadectomy with spontaneous ventilation anaesthesia: a pilot study
Can Alveolar-Arterial Oxygen Pressure Difference be used to Diagnose Acute Respiratory Distress Syndrome in Pneumonia Patients?
‘A perfect Example of the Strong Ion Difference: Hyperchloraemic Acidosis due to 0.9% Normal Saline Irrigation, in a Patient with a Ruptured Bladder’
Physicochemical and Fatty Acids Composition of Barberry Integerrima Seed
How this research is being cited
The 7 articles above have been cited 29 times in the scholarly literature. Citation data via OpenAlex and Crossref, updated Jun 2026.
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2026 · Plants
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2025 · Food Science & Nutrition
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2025 · Transactions of Nonferrous Metals Society of China
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2025 · Surfaces and Interfaces
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2025 · Emergent Materials
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2025 · Metals
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2025 · Emergent Materials
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2025 · Metals
A sample of recent works citing this journal's research on Gas Analysis, linking to each citing work.