Views
3 years ago

Preface - kmutt

Preface - kmutt

KMUTT Annual Research

KMUTT Annual Research Abstracts 2005 mixing coil length and injection volumes on the FIA signal were investigated. The plot of calibration graph between absorbance and concentration of Fe(II) was found to be linear in the range of 0.005 -10.0 ppm within 1.3 ppb detection limit. A relative standard deviation was 1.5 % (n = 10). The method was applied to tap water and natural water. IC-127 USE OF OFF-LINE SPE-HPLC IN ANALYSIS OF NONIONIC SURFACTANTS AND THEIR DEGRADATION PRODUCTS FROM WATER SAMPLES Nisakorn Thongkon, Krittima Chairatnikorn, Warunya Phaijit The 11 th Asian Chemical Congress (11th ACC), August 24-26, 2005, Korea University, Seoul, Korea, pp. 293-294 An applicable method based on solid phase extraction and RP-HPLC coupled to fluorescence detector, has been developed for the simultaneous determination of nonionic surfactants, nonylphenol polyethoxylate (NPEO; n = 9) and octylphenol polyethoxylate (OPEO; n = 12), and their degradation products such as nonylphenol (NP) and octyl phenol (OP) in water samples. Complete separation of OP, OPEO, NP and NPEO was achieved by using C18 analytical column and using acetonitrilemethanol-water as eluent. For HPLC, detection limit of OP, OPEO, NP and NPEO was 15.00, 15.28, 20.68, and 25.18 µg/l, respectively. Extraction and preconcentration of samples were performed on octadecyl-functionalized silica gel cartridge. Recoveries for OP, OPEO, NP and NPEO from SPE ranged between 95.1 and 119.4 %. The results show that OP, NP and OPEO in water samples from Bangkok area were found in the range 0.5 - 1.2 µg/l. IC-128 QUALITATIVE AND QUANTITATIVE ANALYSIS OF ANIONIC AND NONIONIC SURFACTANTS BY REVERSED-PHASE HIGH PERFORMANCE LIQUID CHROMATOGRAPHY Nisakorn Thongkon, Junjarus Tubprasert, Jiraporn Khamkaew The 11 th Asian Chemical Congress (11th ACC), August 24-26, 2005, Korea University, Seoul, Korea, p. 294 119 In this paper a study is made of qualitative and quantitative analysis of anionic and nonionic surfactants, linear alkylbenzene sulfonate (LAS), octylphenol polyethoxylate (OPEO) and nonylphenol polyethoxylate (NPEO) in various household detergents and cleaning chemicals. The concentrations of LAS, OPEO and NPEO in detergents were determined by HPLC with C18 reversed-phase column and equipped with fluorescence detector. Detection limit of LAS, OPEO and NPEO was 50.00, 25.41 and 53.53 microgram/liter, respectively. The results show that LAS was detected in 83% of 18 detergent and cleaning chemical products at concentrations range 1.2 - 22.3 % w/w. OPEO was found only in toilet washing powder. NPEO was found in some dish washing liquid, stain remover and toilet washing powder at concentrations range 1.7 - 6.9 % w/w. IC-129 INCREASE RESOLUTION OF NUMERICAL PRIMITIVE EQUATION OCEAN MODEL APPLIED TO FLOW IN THE FAROE BANK CHANNEL Usa Humphries International Conference on Scientific Computing (ICSC’05), June 4-8, 2005, Nanjing Normal University, Nanjing, China, p. 96 The main aim of this research is to develop the increase resolution technique, employing it in a realistic ocean model environment rather than an idealized set-up. It was decided to use the model to simulate at a relatively fine scale the flows in the Faroe- Shetland Channel without losing the influence of the far-field flow and without the computational expense of a large fine grid model. The variables are in the horizontal using a B grid. The ratio of the horizontal and vertical grid lengths of the coarse grid model to that of the fine grid model is 3:1. This comparison with various observations is intended to show that this technique produces oceanographically acceptable results as well as being stable over the periods of integration required. It is proposed that this technique is suitable for use in shortterm local area forecasting. IC-130 SOME RANDOM FIXED POINT FOR MULTIVALUED NONEXPANSIVE RANDOM OPERATOR Poom Kumam International Conference

120 The 7 th International Conference on Fixed Point Theorem and its Applications, July 17-23, 2005, Parador San Javier Guanajuato, Guanajuato, Mexico Let (- ; §) be a measurable space, X a Banach space whose characteristic of noncompact convexity is less than 1, C a bounded closed convex subset of X, KC (C) the family of all compact convex subsets of C: We prove that a multivalued nonexpansive mappings T : C ! KC (C) has a …xed point. Furthermore, if X is separable then we also prove that a set-valued nonexpansive operator T : £ C ! KC (C) has a random …xed point. IC-131 SOME RANDOM FIXED POINT THEOREM FOR SET-VALUED NON- EXPANSIVE NON-SELF OPERATOR Poom Kumam The 4 th International Conference on Nonlinear Analysis and Convex Analysis (NACA 2005), June 30 - July 4, 2005, Okinawa, Japan In this talk, we consider a measurable space (Ω, Σ), with Σ a sigma-algebra of subset of Ω, and let C be a nonempty bounded closed convex and separable subset of a Banach space X, whose characteristic of noncompact convexity is less than 1, KC(X) the family of all compact convex subsets of X. We prove that a set-valued nonexpansive non-self mappings from C into K C (X) satisfying a inwardness condition has a fixed point. Furthermore, we also prove that a set-valued nonexpansive operator T : Ω x C → K C (X) has a random fixed point. IC-132 THE FRACTIONAL STEPS METHOD FOR 2D-DMBVP Anirut Luadsong International Conference on Scientific Computing (ICSC’05), June 4-8, 2005, Nanjing Normal University, Nanjing, China, p. 108 In this research, 2D problem of shapepreserving splines is formulated as the Differential Multipoint Boundary Value Problem (DMBVP) for thin plate tension splines. For a numerical treatment of this problem, we consider its finite-difference schemes in fractional steps. This method splits the original 2D problem into a set of 1D KMUTT Annual Research Abstracts 2005 problems. At each step one has to solve m linearly independent 1D systems of linear equations where m is the number of 1D problems in appropriate direction. Therefore, we can solve each of these systems of linear equations at every step by m independent parallel processors. This method is preferable for both single- and multi-processing computers. IC-133 A MATHEMATICAL MODEL OF WATER POLLUTION USING FINITE ELEMENT METHOD Nopparat Pochai, Suwon Tangmanee International Conference in Mathematics and Applications (ICMA-MU 2005), December 15- 17, 2005, Chaophya Park Hotel, Bangkok, Thailand, p. 357 The numerical solution of water pollutant transport problems arises in many important applications in environmental science. In this research, the finite element method for solving the one-dimension and two-dimension of steady state convection-diffusion equation with constant coefficients of nearly closed water area is presented. The present mathematical model as COD1DIM1 and COD2DIM1 are developed in MATLAB code. The validity of numerical model is obtained by comparing the results with analytical solutions of testing problems. IC-134 QUASI-LAGRANGIAN CUBIC SPLINE METHOD FOR ADVECTION EQUATION Montri Thongmoon, Suwon Tangmanee International Conference in Mathematics and Applications (ICMA-MU 2005), December 15- 17, 2005, Chaophya Park Hotel, Bangkok, Thailand, p. 453 The movement of pollutants through water and air is modelled by transport equations, that is, equations which describe the advection, diffusion of pollutants within the environment. These equations are often advection-dominated. In this research we use a quasi- Lagrangian cubic spline to solve the advection part of the model using the concept that: the concentration of the point χ i at time (n + l)∆t is equal to the concentration at point χ = χ i ± u∆t (for u < 0 and u > 0, respectively) at time n∆t. The concentration at the point χ is calculated from the spline interpolation for χ i-1 ≤ χ ≤ χ i . A International Conference

  • Page 2:

    ISBN 974-456-652-3

  • Page 6:

    CONTENTS Page Preface International

  • Page 10 and 11:

    KMUTT Annual Research Abstracts 200

  • Page 12 and 13:

    KMUTT Annual Research Abstracts 200

  • Page 14 and 15:

    KMUTT Annual Research Abstracts 200

  • Page 16 and 17:

    KMUTT Annual Research Abstracts 200

  • Page 18 and 19:

    KMUTT Annual Research Abstracts 200

  • Page 20 and 21:

    KMUTT Annual Research Abstracts 200

  • Page 22 and 23:

    KMUTT Annual Research Abstracts 200

  • Page 24 and 25:

    KMUTT Annual Research Abstracts 200

  • Page 26 and 27:

    KMUTT Annual Research Abstracts 200

  • Page 28 and 29:

    KMUTT Annual Research Abstracts 200

  • Page 30 and 31:

    KMUTT Annual Research Abstracts 200

  • Page 32 and 33:

    KMUTT Annual Research Abstracts 200

  • Page 34 and 35:

    KMUTT Annual Research Abstracts 200

  • Page 36 and 37:

    KMUTT Annual Research Abstracts 200

  • Page 38 and 39:

    KMUTT Annual Research Abstracts 200

  • Page 40 and 41:

    KMUTT Annual Research Abstracts 200

  • Page 42 and 43:

    KMUTT Annual Research Abstracts 200

  • Page 44 and 45:

    KMUTT Annual Research Abstracts 200

  • Page 46 and 47:

    KMUTT Annual Research Abstracts 200

  • Page 48 and 49:

    KMUTT Annual Research Abstracts 200

  • Page 50 and 51:

    KMUTT Annual Research Abstracts 200

  • Page 52 and 53:

    KMUTT Annual Research Abstracts 200

  • Page 54 and 55:

    KMUTT Annual Research Abstracts 200

  • Page 56 and 57:

    KMUTT Annual Research Abstracts 200

  • Page 58:

    National Journals

  • Page 61 and 62:

    54 นอยกวาแบบต

  • Page 63 and 64:

    56 (Least Square Matching Method)

  • Page 65 and 66:

    58 อุณหภูมิ 30 แ

  • Page 67 and 68:

    60 สเปกตรัม จา

  • Page 69 and 70:

    62 ขอมูลดานทร

  • Page 71 and 72:

    64 22.8 มาตรฐานเป

  • Page 73 and 74:

    66 2545 NJ-033 EFFECTS OF ELEVATED

  • Page 75 and 76: 68 เปลือกที่ม
  • Page 77 and 78: 70 ของการดูดซ
  • Page 79 and 80: 72 การสกัดดวย
  • Page 81 and 82: 74 collection of authentic texts th
  • Page 83 and 84: 76 รอยละ 32 มีสา
  • Page 86 and 87: KMUTT Annual Research Abstracts 200
  • Page 88 and 89: KMUTT Annual Research Abstracts 200
  • Page 90 and 91: KMUTT Annual Research Abstracts 200
  • Page 92 and 93: KMUTT Annual Research Abstracts 200
  • Page 94 and 95: KMUTT Annual Research Abstracts 200
  • Page 96 and 97: KMUTT Annual Research Abstracts 200
  • Page 98 and 99: KMUTT Annual Research Abstracts 200
  • Page 100 and 101: KMUTT Annual Research Abstracts 200
  • Page 102 and 103: KMUTT Annual Research Abstracts 200
  • Page 104 and 105: KMUTT Annual Research Abstracts 200
  • Page 106 and 107: KMUTT Annual Research Abstracts 200
  • Page 108 and 109: KMUTT Annual Research Abstracts 200
  • Page 110 and 111: KMUTT Annual Research Abstracts 200
  • Page 112 and 113: KMUTT Annual Research Abstracts 200
  • Page 114 and 115: KMUTT Annual Research Abstracts 200
  • Page 116 and 117: KMUTT Annual Research Abstracts 200
  • Page 118 and 119: KMUTT Annual Research Abstracts 200
  • Page 120 and 121: KMUTT Annual Research Abstracts 200
  • Page 122 and 123: KMUTT Annual Research Abstracts 200
  • Page 124 and 125: KMUTT Annual Research Abstracts 200
  • Page 128 and 129: KMUTT Annual Research Abstracts 200
  • Page 130 and 131: KMUTT Annual Research Abstracts 200
  • Page 132 and 133: KMUTT Annual Research Abstracts 200
  • Page 134 and 135: KMUTT Annual Research Abstracts 200
  • Page 136 and 137: KMUTT Annual Research Abstracts 200
  • Page 138 and 139: KMUTT Annual Research Abstracts 200
  • Page 140 and 141: KMUTT Annual Research Abstracts 200
  • Page 142 and 143: KMUTT Annual Research Abstracts 200
  • Page 144 and 145: KMUTT Annual Research Abstracts 200
  • Page 146 and 147: KMUTT Annual Research Abstracts 200
  • Page 148 and 149: KMUTT Annual Research Abstracts 200
  • Page 150 and 151: KMUTT Annual Research Abstracts 200
  • Page 152 and 153: KMUTT Annual Research Abstracts 200
  • Page 154 and 155: KMUTT Annual Research Abstracts 200
  • Page 156 and 157: KMUTT Annual Research Abstracts 200
  • Page 158 and 159: KMUTT Annual Research Abstracts 200
  • Page 160 and 161: KMUTT Annual Research Abstracts 200
  • Page 162 and 163: KMUTT Annual Research Abstracts 200
  • Page 164 and 165: KMUTT Annual Research Abstracts 200
  • Page 166 and 167: KMUTT Annual Research Abstracts 200
  • Page 168 and 169: KMUTT Annual Research Abstracts 200
  • Page 170 and 171: KMUTT Annual Research Abstracts 200
  • Page 172 and 173: KMUTT Annual Research Abstracts 200
  • Page 174 and 175: KMUTT Annual Research Abstracts 200
  • Page 176 and 177:

    KMUTT Annual Research Abstracts 200

  • Page 178 and 179:

    KMUTT Annual Research Abstracts 200

  • Page 180 and 181:

    KMUTT Annual Research Abstracts 200

  • Page 182 and 183:

    KMUTT Annual Research Abstracts 200

  • Page 184 and 185:

    KMUTT Annual Research Abstracts 200

  • Page 186 and 187:

    KMUTT Annual Research Abstracts 200

  • Page 188 and 189:

    KMUTT Annual Research Abstracts 200

  • Page 190 and 191:

    KMUTT Annual Research Abstracts 200

  • Page 192 and 193:

    KMUTT Annual Research Abstracts 200

  • Page 194 and 195:

    KMUTT Annual Research Abstracts 200

  • Page 196 and 197:

    KMUTT Annual Research Abstracts 200

  • Page 198 and 199:

    KMUTT Annual Research Abstracts 200

  • Page 200 and 201:

    KMUTT Annual Research Abstracts 200

  • Page 202 and 203:

    KMUTT Annual Research Abstracts 200

  • Page 204 and 205:

    KMUTT Annual Research Abstracts 200

  • Page 206 and 207:

    KMUTT Annual Research Abstracts 200

  • Page 208 and 209:

    KMUTT Annual Research Abstracts 200

  • Page 210 and 211:

    KMUTT Annual Research Abstracts 200

  • Page 212 and 213:

    KMUTT Annual Research Abstracts 200

  • Page 214:

    National Conferences

  • Page 217 and 218:

    210 จอมเทียนปา

  • Page 219 and 220:

    212 การสกัดสาร

  • Page 221 and 222:

    214 ไดแก อุณหภู

  • Page 223 and 224:

    216 โดยกลไกของ

  • Page 225 and 226:

    218 เคลือบเมื่

  • Page 227 and 228:

    220 สําเริง จัก

  • Page 229 and 230:

    222 ลดเวลาตลอด

  • Page 231 and 232:

    224 อุณหภูมิสู

  • Page 233 and 234:

    226 NC-043 การวิเคร

  • Page 235 and 236:

    228 เกิดพฤติกร

  • Page 237 and 238:

    230 เดียว เพื่อ

  • Page 239 and 240:

    232 มากนอยเพีย

  • Page 241 and 242:

    234 หลักที่พบใ

  • Page 243 and 244:

    236 NC-073 การออกแบ

  • Page 245 and 246:

    238 บทความนี้น

  • Page 247 and 248:

    240 นําเอาเวคเ

  • Page 249 and 250:

    242 งานวิจัยนี

  • Page 251 and 252:

    244 การอบแหงลด

  • Page 253 and 254:

    246 แยกเฟสต่ํา

  • Page 255 and 256:

    248 กลบ โดยเปรี

  • Page 257 and 258:

    250 นํามาใช คือ

  • Page 259 and 260:

    252 วิเคราะหหา

  • Page 261 and 262:

    254 NC-123 การวิเคร

  • Page 263 and 264:

    256 NC-129 เครื่องผ

  • Page 265 and 266:

    258 สามารถขยาย

  • Page 267 and 268:

    260 ครั้งที่ 43, 1-

  • Page 269 and 270:

    262 calculated with the use of the

  • Page 271 and 272:

    264 Version 1.3.1 และ Softwar

  • Page 273 and 274:

    266 ขนไกได จากก

  • Page 275 and 276:

    268 โครงสรางขอ

  • Page 277 and 278:

    270 การปลูกพืช

  • Page 279 and 280:

    272 ระดับพึงพอ

  • Page 281 and 282:

    274 ของแกสโซฮอ

  • Page 283 and 284:

    276 1) สภาพทั่วไ

  • Page 285 and 286:

    278 อนุปริญญา แ

  • Page 287 and 288:

    280 อาชีวศึกษา

  • Page 289 and 290:

    282 กระทบตอคุณ

  • Page 291 and 292:

    284 ตั้งกลไกแข

  • Page 293 and 294:

    286 นุชจรินทร เ

  • Page 295 and 296:

    288 โดยรวมผูบร

  • Page 297 and 298:

    290 แนนกระแสไฟ

  • Page 299 and 300:

    292 NC-222 ผลงานตีพ

  • Page 301 and 302:

    294 NC-227 เตาเผาไห

  • Page 303 and 304:

    296 จําเพาะรวม

  • Page 305 and 306:

    298 NC-238 จลนพลศาส

  • Page 307 and 308:

    300 ทนงเกียรติ

  • Page 309 and 310:

    302 ดีเซลนั้นม

  • Page 311 and 312:

    304 NC-254 การใชเทค

  • Page 313 and 314:

    306 อาคารศูนยก

  • Page 315 and 316:

    308 กระบวนการร

  • Page 317 and 318:

    310 บรรยากาศขอ

  • Page 319 and 320:

    312 metal ions on 2-AP biosyntheis

  • Page 321 and 322:

    314 total clones while the ethanol

  • Page 323 and 324:

    316 การประชุมท

  • Page 325 and 326:

    318 BioThailand (The 16 th Annual M

  • Page 327 and 328:

    320 สูงที่สุดพ

  • Page 329 and 330:

    322 นัยสําคัญท

  • Page 331 and 332:

    324 ความเขมขนร

  • Page 333 and 334:

    326 ปลูกแบบพรา

  • Page 335 and 336:

    328 นี้ทําใหทร

  • Page 337 and 338:

    330 ดุลชาติ มาน

  • Page 339 and 340:

    332 ไมโครเมตร ส

  • Page 341 and 342:

    334 In this study, we collected seq

  • Page 343 and 344:

    336 กนกรัตน นาค

  • Page 345 and 346:

    338 การพัฒนาสื

  • Page 347 and 348:

    340 one of the causes of difficulty

  • Page 349 and 350:

    342 ทวีรัตน วิจ

  • Page 351 and 352:

    344 program, Cytoscape. This model

  • Page 353 and 354:

    346 production demand. Nevertheless

  • Page 355 and 356:

    348 อุลตราไวโอ

  • Page 357 and 358:

    350 นี้อยูในชว

  • Page 359 and 360:

    352 เพื่อนําสว

  • Page 361 and 362:

    354 trichloroacetic acid (TCA) ม

  • Page 363 and 364:

    356 ทรัพยากรที

  • Page 365 and 366:

    358 ในประเทศสห

  • Page 367 and 368:

    360 8-9 ธันวาคม 2548,

  • Page 369 and 370:

    362 ซึ่งเกิดขอ

  • Page 371 and 372:

    364 NC-391 การวิเคร

  • Page 373 and 374:

    366 การประชุมว

  • Page 375 and 376:

    368 2547) พบวามหาว

  • Page 377 and 378:

    370 กนกพร ลีลาเ

  • Page 380:

    Authors Index

  • Page 383 and 384:

    376 จงจิตร หิรั

  • Page 385 and 386:

    378 ธ ธนธร ทองส

  • Page 387 and 388:

    380 พยุงศักดิ์

  • Page 389 and 390:

    382 วรรณพ วิเศษ

  • Page 391 and 392:

    384 สุดารัตน จิ

  • Page 393 and 394:

    386 อุลาวัณย กุ

  • Page 395 and 396:

    388 138, 141, 142 Jarunya Narangaja

  • Page 397 and 398:

    390 Panida Kongsawadworakul 191 Pan

  • Page 399 and 400:

    392 Sorakrich Maneewan 124, 136 Sor

  • Page 401 and 402:

    394 KMUTT Annual Research Abstracts

  • Page 404 and 405:

    KMUTT Annual Research Abstracts 200

  • Page 406 and 407:

    KMUTT Annual Research Abstracts 200

  • Page 408 and 409:

    KMUTT Annual Research Abstracts 200

  • Page 410 and 411:

    KMUTT Annual Research Abstracts 200

  • Page 412 and 413:

    KMUTT Annual Research Abstracts 200

  • Page 414 and 415:

    KMUTT Annual Research Abstracts 200

  • Page 416 and 417:

    KMUTT Annual Research Abstracts 200

  • Page 418 and 419:

    KMUTT Annual Research Abstracts 200

  • Page 420 and 421:

    KMUTT Annual Research Abstracts 200

  • Page 422 and 423:

    KMUTT Annual Research Abstracts 200

  • Page 424 and 425:

    KMUTT Annual Research Abstracts 200

  • Page 426 and 427:

    KMUTT Annual Research Abstracts 200

  • Page 428 and 429:

    KMUTT Annual Research Abstracts 200

  • Page 430 and 431:

    KMUTT Annual Research Abstracts 200

  • Page 432 and 433:

    KMUTT Annual Research Abstracts 200

  • Page 434 and 435:

    KMUTT Annual Research Abstracts 200

  • Page 436 and 437:

    KMUTT Annual Research Abstracts 200

  • Page 438 and 439:

    KMUTT Annual Research Abstracts 200

  • Page 440 and 441:

    KMUTT Annual Research Abstracts 200

  • Page 442 and 443:

    KMUTT Annual Research Abstracts 200

  • Page 444 and 445:

    KMUTT Annual Research Abstracts 200

  • Page 446 and 447:

    KMUTT Annual Research Abstracts 200

  • Page 448:

    KMUTT Annual Research Abstracts 200

  • Page 452:

    KMUTT Annual Research Abstracts 200