Add to ORKGThis paper presents a simplified set of equations for calculating and optimizing regenerator geometries. A number of competing parameters must be accounted for in the design of a regenerator. To obtain high values of effectiveness, there is need for a large surface area for heat transfer and high heat capacity. The void volume should be small to maintain the pressure ratio in the entire system. Moreover, the pressure drop should be small compared to the absolute pressure. With the assumptions made here, the calculations can be done with a hand calculator. The equations show that the optimum regenerator length, hydraulic radius, and porosity are independent of mass flow rate and the gas cross sectional area is proportional to the mass flow r...
Rotary regenerators are used widely for energy recovery, both in industrial and air-conditioning app...
One way to improve the efficiency of a power plant is to preheat the air intake with heat from the e...
In this paper we provide a summary of accomplishments on phase I, and the early part of phase II, of...
WOS:000323902900009International audienceThis paper documents the fundamental problem of designing a...
The comparison of different heat transfer surfaces shows a large potential to improve regenerators, ...
To optimize a regenerator’s structure and its operation parameters and, consequently, to incre...
Heat transfer in a rotary regenerator subject to constant pressure drops or pumping power constraint...
An optimal internal geometry of a regenerator for gas refrigerators was to be found by numerical flo...
Desirable characteristics of a regenerator include a small dead volume, high heat capacity, high rat...
International audience<font face="arial, helvetica"><span style="font-size: 13px;">A regenerator...
The present study investigates eight design parameters such as seal coverage, core porosity, core vo...
The desirability of using a heat exchanger to improve the efficiency of gas-turbine plant of moderat...
Regenerative heat exchangers are established as a means of heat recovery in many industrial applicat...
The original project goals were to establish the viability of the proposed gas turbine regenerator c...
Regenerative cryocoolers such as Stirling, Gifford–McMahon, and pulse tube cryocoolers possess great...
Rotary regenerators are used widely for energy recovery, both in industrial and air-conditioning app...
One way to improve the efficiency of a power plant is to preheat the air intake with heat from the e...
In this paper we provide a summary of accomplishments on phase I, and the early part of phase II, of...
WOS:000323902900009International audienceThis paper documents the fundamental problem of designing a...
The comparison of different heat transfer surfaces shows a large potential to improve regenerators, ...
To optimize a regenerator’s structure and its operation parameters and, consequently, to incre...
Heat transfer in a rotary regenerator subject to constant pressure drops or pumping power constraint...
An optimal internal geometry of a regenerator for gas refrigerators was to be found by numerical flo...
Desirable characteristics of a regenerator include a small dead volume, high heat capacity, high rat...
International audience<font face="arial, helvetica"><span style="font-size: 13px;">A regenerator...
The present study investigates eight design parameters such as seal coverage, core porosity, core vo...
The desirability of using a heat exchanger to improve the efficiency of gas-turbine plant of moderat...
Regenerative heat exchangers are established as a means of heat recovery in many industrial applicat...
The original project goals were to establish the viability of the proposed gas turbine regenerator c...
Regenerative cryocoolers such as Stirling, Gifford–McMahon, and pulse tube cryocoolers possess great...
Rotary regenerators are used widely for energy recovery, both in industrial and air-conditioning app...
One way to improve the efficiency of a power plant is to preheat the air intake with heat from the e...
In this paper we provide a summary of accomplishments on phase I, and the early part of phase II, of...