By John J. Carroll
Provides a whole remedy on of the most well liked subject matters within the strength region – acid fuel injection and carbon dioxide sequestration
This booklet presents the main accomplished and updated assurance of 2 thoughts which are swiftly expanding in value and utilization within the usual gasoline and petroleum — acid fuel injection and carbon dioxide sequestration. the writer, a well known and revered authority on either procedures, offers the speculation of the know-how, then discusses functional functions the engineer operating within the box can implement.
Both hot-button concerns within the undefined, those techniques might help businesses within the strength "go green," via making a more secure, cleanser surroundings. those suggestions additionally create a extra effective and ecocnomic strategy within the plant, slicing waste and making operations extra streamlined.
This remarkable new reference includes:
Uses of acid fuel injection, the tactic of selection for removing small amounts of acid gas
Coverage of applied sciences for training a zero-emission technique in normal fuel production
A sensible dialogue of carbon dioxide sequestration, an rising new subject, frequently defined as one of many attainable recommendations for reversing worldwide warming
Problems and suggestions for college students on the graduate point and path participants
Read or Download Acid Gas Injection and Carbon Dioxide Sequestration PDF
Best petroleum books
Computational Rheology for Pipeline and Annular movement develops and applies smooth analytical and computational finite distinction equipment for fixing circulation difficulties in drilling and creation. It additionally offers helpful insights into move coverage research in subsea pipeline layout. utilizing modeling strategies that simulate the movement of non-Newtonian fluids, e.
This e-book presents a lot info of curiosity to an individual operating within the petroleum or learning catalyst coaching and characterization in commercial or college laboratories. It includes either assessment articles and papers reporting growth relating hydrotreating catalysts which jointly offer an updated photograph of this fascinating box.
A few 35 years in the past i used to be a little precariously balanced in a drilling derrick aligning a whipstock right into a directional gap in North Holland by means of the Stokenbury procedure, and without doubt pondering to myself that i used to be on the very leading edge of expertise. through the intervening interval it has develop into noticeable to many folks that the most major technical advances within the oil enterprise were made in drilling, and especially within the fields of offshore and directional drilling.
Within the construction in place of the exploration enviornment, biostratigraphic and comparable ideas are used to deal with reservoir-scale difficulties akin to targeted correlation, interpretation of depositional setting, geometry, connectivity and compartmentalisation, and reserves estimation and optimisation of restoration.
- Petroleum Exploration: A Quantitative Introduction
- Petroleum Engineering: Principles and Practice
- Petroleum Engineering Handbook
- Computational Rheology for Pipeline and Annular Flow: Non-Newtonian Flow Modeling for Drilling and Production, and Flow Assurance Methods in Subsea Pipeline Design
- Elements of Petroleum Geology, Second Edition
- WELL PRODUCTION PRACTICAL HANDBOOK
Extra info for Acid Gas Injection and Carbon Dioxide Sequestration
Micro-Turbines Micro-turbines usually refers to units of less than 350 kW. These units are usually powered by either diesel fuel or natural gas. They utilize technology already developed. The micro-turbines can be either axial-flow or centrifugalradial inflow units. The initial cost, efficiency, and emissions will be the three most important criteria in the design of these units. The micro-turbines, to be successful, must be compact in size, have low manufacturing cost, high efficiencies, quiet operation, quick startups, and minimal emissions.
Figure 1-20 shows a multistage high-pressure axial-flow turbine rotor. The turbine rotor depicted in this figure has a low-pressure compressor followed by a high-pressure compressor. There are also two turbine sections, and the reason there is a large space between the two turbine sections is that this is a reheat turbine and the second set of combustors are located between the high-pressure and the low-pressure turbine sections. The compressor produces 30:1 pressure in 22 stages. The low-pressure increase per stage also simplifies calculations in Figure 1-20.
The use of internal coatings is getting popular due to the high temperature of the compressor discharge, which results in oxidation of the internal surfaces. Most of these coatings are aluminide type coatings. The choice is restricted due to access problems to slurry based, or gas phase/chemical vapor deposition. Care must be taken in production, otherwise internal passages may be blocked. The use of pyrometer technology on some of the advanced turbines has located blades with internal passages blocked causing these blades to operate at temperatures of 95-158 ~ (35-70 ~ Gas Turbine Heat Recovery The waste heat recovery system is a critically important subsystem of a cogeneration system.