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Gas Exchange and Transport01:20

Gas Exchange and Transport

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Gas exchange, the intake of molecular oxygen (O2) from the environment and the outflow of carbon dioxide (CO2) into the environment, is necessary for cellular function. Gas exchange during respiration occurs largely via the movement of gas molecules along pressure gradients. Gas travels from areas of higher partial pressure to areas of lower partial pressure. In mammals, gas exchange occurs in the alveoli of the lungs, which are adjacent to capillaries and share a membrane with them.
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Carbon Dioxide Transport in the Blood01:19

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Carbon dioxide (CO2) transport in the blood is critical to human physiology. On average, our body cells produce around 200 mL of CO2 per minute, precisely the quantity expelled by the lungs. This process involves the transportation of CO2 from the tissue cells to the lungs in three primary forms.
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Carbon-dioxide Fixation01:28

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Carbon dioxide fixation in prokaryotes enables the assimilation of inorganic carbon into organic molecules, supporting biosynthetic pathways, sustaining ecosystems, and contributing to the global carbon cycle. It also has industrial applications in carbon capture and bioproduct synthesis. Autotrophic organisms rely on this process to utilize CO₂ as a carbon source in diverse environments.The Calvin CycleThe Calvin cycle is the most widespread carbon fixation mechanism, primarily used by...
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Inorganic Nitrogen Assimilation01:22

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Nitrogen is an essential element in biological systems, forming a crucial component of proteins, nucleic acids, and other cellular constituents. Many bacteria and archaea acquire nitrogen in the form of nitrate (NO₃⁻) or ammonia (NH₃), which are then assimilated into biomolecules through specific enzymatic pathways.Assimilatory Nitrate ReductionWhen nitrate enters the cell, it undergoes a two-step reduction process known as assimilatory nitrate reduction. Initially, the enzyme...
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Assessment of Respiration01:23

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The respiratory system's basic structures and primary functions lay the foundation for nurses' comprehensive respiratory assessments. This assessment includes subjective and objective data to gauge the patient's respiratory health.
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Efficiency of The Carnot Cycle01:16

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The hypothetical Carnot cycle consists of an ideal gas subjected to two isothermal and two adiabatic processes. Since the internal energy of an ideal gas depends only on its temperature, which is the same before and after the completion of the Carnot cycle, there is no change in its internal energy. Hence, using the first law of thermodynamics, the total heat exchanged by the ideal gas equals the total work done. Thus, we can quantify the efficiency of the Carnot cycle via the heat exchanged...
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Related Experiment Video

Updated: Feb 24, 2026

Design and Use of a Full Flow Sampling System FFS for the Quantification of Methane Emissions
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Design and Use of a Full Flow Sampling System FFS for the Quantification of Methane Emissions

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Comparative Carbon Intensity Assessment for Renewable Natural Gas Transportation Options.

Vatsal Bhatt1,2, Christopher A Noe2,3, Devinder Mahajan1,2

  • 1Department of Materials Science and Engineering, College of Engineering and Applied Science, Stony Brook University, Stony Brook, New York 11794, United States.

ACS Omega
|February 23, 2026
PubMed
Summary

Renewable natural gas (RNG) transport efficiency varies by mode. Pipeline is best for medium-long distances, compressed natural gas (CNG) for short hauls, and liquid natural gas (LNG) trailers for very long distances.

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Area of Science:

  • Environmental science
  • Energy systems analysis
  • Transportation engineering

Background:

  • Renewable natural gas (RNG) offers reduced emissions but requires efficient transport.
  • Life cycle assessment (LCA) is crucial for evaluating the environmental impact of different energy carriers.
  • Optimizing RNG logistics is key to maximizing its climate benefits.

Purpose of the Study:

  • To compare the carbon intensity (CI) of various renewable natural gas (RNG) transport modes.
  • To identify the most carbon-efficient transport method for RNG based on distance.
  • To provide data-driven insights for utilities and RNG producers on transport selection.

Main Methods:

  • Utilized the Greenhouse Gases, Regulated Emissions, and Energy Use in Transportation (GREET-2024) model and its California version (CA-GREET 4.0).
  • Calculated carbon intensity (CI) values for pipeline, compressed natural gas (CNG), and liquid natural gas (LNG) trailer transport.
  • Analyzed CI based on varying transport distances and associated energy efficiencies.

Main Results:

  • Pipeline transport exhibited the lowest CI for medium to long distances due to high transmission efficiency.
  • Compressed natural gas (CNG) trailers showed the lowest CI for short distances (up to 250 miles).
  • Liquid natural gas (LNG) trailers became more favorable for longer distances (above 650 miles) due to superior delivery efficiency, despite higher static emissions.

Conclusions:

  • Pipeline transmission is the most efficient RNG transport method for most distances.
  • Compressed natural gas (CNG) is optimal for short-haul transport, while LNG trailers are competitive for very long hauls (over 900 miles).
  • The study provides essential data for selecting the lowest carbon footprint transport options for RNG logistics.