Input–Output Linearization-Based Controller Design for Stand-Alone Solid Oxide Fuel Cell Power Plant

“…, 28,29 where v denotes the derivative of y and can obtain linear relationships between the inputs and outputs. 14 Supposing that all the ≡ L h 0 i g 1 j , it means that the derivative of y has no relationship with the control law u; then, the derivation needs to be continued. Let us assume that λ j is the minimum integer and at least one…”

“…If , the first derivative of y is connected to the control law u . The control law can be directly derived as , , where v denotes the derivative of y and can obtain linear relationships between the inputs and outputs . Supposing that all the , it means that the derivative of y has no relationship with the control law u ; then, the derivation needs to be continued.…”

“…Input−output feedback linearization control is well known for its ability to generate a nonlinear control input, which yields a linear relationship between the inputs and the outputs and eventually permits the use of the conventional linear control approach. 14 the motor, the distributed solar collectors, friction systems, and so forth. 15−20 However, the concrete study of input−output feedback linearization controller design for temperature gradient control of the SOFC has not been found in prior literature.…”

“…Input–output feedback linearization control is well known for its ability to generate a nonlinear control input, which yields a linear relationship between the inputs and the outputs and eventually permits the use of the conventional linear control approach . This makes the design of control law more flexible.…”

Temperature Gradient Control of the Solid Oxide Fuel Cell under Variable Load

“…, 28,29 where v denotes the derivative of y and can obtain linear relationships between the inputs and outputs. 14 Supposing that all the ≡ L h 0 i g 1 j , it means that the derivative of y has no relationship with the control law u; then, the derivation needs to be continued. Let us assume that λ j is the minimum integer and at least one…”

“…If , the first derivative of y is connected to the control law u . The control law can be directly derived as , , where v denotes the derivative of y and can obtain linear relationships between the inputs and outputs . Supposing that all the , it means that the derivative of y has no relationship with the control law u ; then, the derivation needs to be continued.…”

“…Input−output feedback linearization control is well known for its ability to generate a nonlinear control input, which yields a linear relationship between the inputs and the outputs and eventually permits the use of the conventional linear control approach. 14 the motor, the distributed solar collectors, friction systems, and so forth. 15−20 However, the concrete study of input−output feedback linearization controller design for temperature gradient control of the SOFC has not been found in prior literature.…”

“…Input–output feedback linearization control is well known for its ability to generate a nonlinear control input, which yields a linear relationship between the inputs and the outputs and eventually permits the use of the conventional linear control approach . This makes the design of control law more flexible.…”

Temperature Gradient Control of the Solid Oxide Fuel Cell under Variable Load

Maximizing performance of fuel cell using artificial neural network approach for smart grid applications