Sunday, November 7, 2010

Seismic Threat to Mullaperiyar Dam

Within a span of 2 days, two tremors of mild intensity on 5/11/10 (M2.0) and 6/11/2010 (M2.9) occurred in the 50KM range of Mullaperiyar Dam suddenly caused great anxiety in the minds of people, earthquake scientists and dam engineers. Even though, these earthquakes are minor in nature, the above earthquakes are seen as indication of the increased seismicity of the region surrounding Mullaperiyar Dam, which was once thought completely dormant. These warning signals by nature must taken very seriously, even though the present tremors are not able to create any significant damage to the dam due to its low intensity and large distance from the Mullaperiyar Dam.

Upstream face of Mullaperiyar Dam before the recent repairs

The above tremors are coincident with the cosmetic beautification done by Tamil Nadu authorities to the grandma Mullaperiyar Dam to conceal its chronic ailments from the naked eyes. But the ailments of Mullaperiyar Dam are inherent and deep rooted. This dam was constructed during 1886-1895, when the dam engineering was at infancy. The dam is a composite structure with rubble masonry in lime surkhi mortar as facing on upstream and downstream and a lime surkhi concrete inner core. Later in 1980s, a concrete backing of 10 M width was added to the downstream of the old dam.

Structural Weakeness of Mullaperiyar Dam

The Mullaperiyar Dam, aged 116 years, was built of lime surkhi concrete, which occupies almost two-third of its volume. The above concrete is a very low strength concrete. The ‘History of Periyar Project’ by A. T. Mackenzie (1898) illustrate the tests conducted on determining the strength of this concrete “...the block generally beginning to disintegrate with a pressure of from 40 to 50 tons on the square foot...” ie, it is evident that its strength is almost equal to M5 concrete (This designation the letter M refers to the mix and the number to the specified 28 day cube strength of mix in N/mm2), which is having one third of the strength of the roofing concrete (M15) we are using for our homes This must be compared with the M30 concrete we used for Idukki Arch Dam, which is almost having six times the strength of the lime surkhi concrete used in Mullaperiyar dam. The strength of this concrete has further reduced due to the continuous leaching of lime reported from its inception. Even though two attempts of grouting were attempted in 1930s and 1960s, it was not able to completely fill the cavities formed due to the leaching of lime.

History of Earthquake Design of Dams

While constructing Mullaperiyar dam, the dam engineers were not aware of the how to design the dams against the effect of seismic forces. The first seismic forces were taken care in a preliminary manner in the design of the dam by engineers only in the 1920s . The classic paper by H. M. Westergaard entitled "Water Pressure on Dams During Earthquakes" was published in 1933. In the period 1930-1970, design practice usually considered earthquake effects by simply incorporating in the stability or stress analysis for a dam a static lateral force intended to represent the inertia force induced by the earthquake. Most often this force was expressed as the product of a lateral force coefficient and the force of gravity. The coefficient generally varied, depending on the seismicity of the area in which the dam was located and the judgment of the engineer involved, between values of about 0.05 and 0.15. This method of approach was termed the pseudostatic analysis method, in recognition of the fact that the static lateral forces were only intended to represent the effects of the actual dynamic earthquake forces, which effects could well be substantially different from those of the static forces used in the analysis procedure.

In the 1960s and early 1970s a number of events occurred that caused engineers to reevaluate the adequacy of this approach:

·         The observation was made that the pseudostatic method of analysis would not adequately predict the slope failures that occurred at many places in Alaska in the 1964 Alaska earthquake (M 8.3).
·         Major cracking occurred in the Koyna Dam, in India, a 340-foot-high concrete gravity dam, subjected to a near-field M 6.4 earthquake in 1967.
·         Major cracking developed near the top of the Hsingfengkiang Dam, a 345-foot-high concrete buttress dam in China, as a result of a near-field M 6.1 earthquake in 1962.
·         A near failure occurred at the Lower Van Norman (San Fernando) Dam, and significant sliding occurred in the Upper Van Norman (San Fernando) Dam as a result of the San Fernando earthquake of 1971. In spite of the fact that both of these dams were judged to be adequately safe on the basis of pseudostatic analyses made before the earthquake, their performance east doubt on the validity of this approach.
·         Accelograph records showed peak accelerations during earthquake shaking greater than 0.3g.

These events, and others, led to an increasing concern that the pseudostatic method of analysis could not always predict the safety of dams against earthquake shaking.

The Earthquake Committee of the International Commission on Large Dams (ICOLD, 1975) recommended that: “As regards low dams in remote areas, they may be designed by the conventional (pseudostatic) method for any type of dam. As regards high gravity or arch dams or embankment dams whose failure may cause loss-of-life or major damage, they should be designed by the conventional method at first and they should then be subjected to dynamic analyses in order to investigate the deficiencies which might be involved in the seismic design of the dam in case the conventional method is used.”

These requirements and recommendations led to a major review of design procedures by many design agencies, as a result of which increasing emphasis was given to the use of dynamic analysis methods.

Need for Site Specific Seismic Hazard Assessment and Dynamic Analysis

Mullaperiyar dam and the site lies in seismic zone-III as per the seismic zoning map of India. This area is close to a large number of major faults in this region, some of which are active and others having the potential to become active. Earthquakes of intensities around 5.0 in Richter scale were experienced in this region in the recent past (5.0 on Richter Scale on 12/12/2000 and 4.8 on 7/01/2001 in the Palai/Erattupetta region, concurrent multiple events called doublets).

This is a high hazard dam as per the hazard potential classification considering the human and economic loss as per the criteria fixed by the Central Water Commission (CWC). In this context, it is highly necessary to get the structural stability of this dam must be verified by proper estimation of the seismic parameters and carrying out detailed dynamic analysis. This becomes imperative considering the high hazard nature of this century old weak dam and consequent catastrophe, if it fails.

As per CWC guidelines itself, stability assessments are to be done utilising in situ properties of the structure and its foundation and pertinent geologic information. It also recommends dynamic analysis and higher seismic coefficient, if the structure is in the proximity of major faults.

CWC’s Certification in 1986

In spite of the above clear guidelines, the CWC in 1986 rushed to the conclusion in the ‘Memorandum of Rehabilitation of Mullaperiyar Dam’ that the Mullaperiyar dam is safe for an FRL of 152 ft after carrying out simple pseudo-statistical method of analysis meant only for preliminary design of dams. Neither the CWC had carried out dynamic analysis taking into consideration the present actual in situ properties of the structure, its foundation, geology and the site specific seismic parameters till date.

In this context, it is worth to note that IS: 1893, ‘The Criteria for Earthquake Resistant Design of Structures’ was revised in the year 1984. As per clause the horizontal seismic co-efficient to be considered in the case of pseudo static analysis is 0.12g in Seismic Zone III for the preliminary analysis of dams. As per clause 7.3.1, this value must be multiplied by 1.5 times in the case of Dams. CWC, totally ignoring the revision of the Indian Standard, carried out the certification of Mullaperiyar Dam using a seismic co-efficient of 0.10g. Also the same Indian Standard clearly recommends site specific seismic hazard assessment study for dams and critical structures (nuclear power stations, major bridges, etc.) considering its magnitude of hazard. It is surprising that CWC completely ignored to carry out site specific seismic hazard assessment. In the above context, Government of Kerala has not concurred with the Memorandum of Rehabilitation and rejected the same.

GSI Recommendation in 1995

Geological Survey of India conducted a geological mapping of the Mullaperiyar Dam area in 1995 as part of the Dam Safety Assurance and Rehabilitation Project aided by the World Bank. Sri. V. Balachandran, Senior Geologist, Geological Survery of India in his report, remarks that “…Based on the available data, the seismic status of the Periyar and Suruliyar-Cumbum lineaments are inferred to be active. However it is desirable to assess the seismogenic capability of these lineaments by instrumentation and monitoring. It is also desirable to study the provision of RCC capping over the structure from the seismic consideration…” But no positive action in this account was taken by Government of Tamil Nadu.

Expert Committee of 2000 not tested, analysed Main Mullaperiyar Dam!

In this context, it may be noted that the Expert Committee of 2000 (EC of 2000) appointed by the Union Ministry of Water Resources, had  never carried out any NDT (Non Destructive Tests) or taken or tested any core samples or made any analysis as far as the Main Mullaperiyar Dam is concerned. EC of 2000 analysed using pseudo static method and adopting a zonal seismic co-efficient of 0.12g while checking the Baby Dam. It is an irony that the EC of 2000 concentrated all their efforts to check the Baby Dam, a saddle dam of one third height of the Mullaperiyar Main Dam, which is fully available for upstream sealing. They have taken physical samples, conducted non-destructive tests and structural stability analysis of the Baby Dam and concluded that that the Mullaperiyar reservoir is safe for water levels upto 142 ft.

It may be noted that the EC of 2000 was neither taken any physical samples nor non-destructive tests nor any safety analysis of the Main Dam. Moreover, they have not done any re-analysis of the Main Dam using the revised zonal seismic co-efficient of 0.12g which they used for Baby Dam, instead they simply relied the CWC document of 1986 to conclude that Mullaperiyar Main Dam is safe.  Moreover, they have not checked the structural stability of the Baby Dam against the flood conditions, which will clearly render the Baby Dam not safe for an FRL of 136ft.

Combined Study of CESS, Trivandrum and IISc, Bangalore in 2001

In 2001, Kerala had conducted a detailed seismic assessment of the area by the scientists of CESS and a finite element study by Prof. R.N. Iyengar of Indian Institute of Science, Bangalore for assessing the safety of the Mullaperiyar dam for seismic forces  (‘Stability of Mullaperiyar Dam in the light of recent earthquakes’ – Final Report by the Expert Committee of Govt. Of Kerala- June 2001). 

The CESS scientists have concluded noting the major tremors viz. Nedumkandam 1988 (M4.5), Wadakkancheri 1994 (M4.3) and Earttupetta 2000 (M5.0), 2001 (M4.8) ”...although these tremors have not serious damage, it should be noted that all these earthquakes have occurred during a short span of twelve years, quiet unprecedented in the earthquake history of the State..” They further observed that there is every chance of occurrence of an earthquake with a maximum magnitude of 6.5.

Considering the above observation, detailed dynamic studies of Prof. Iyengar, IISc had indicated that the Mullaperiyar dam is unsafe for water levels above 136ft. The seismic acceleration values adopted by Prof. Iyengar are 0.16g considering Uttarkashi Earthquake and 0.4738g considering the Koyna Earthquake, as possibility these of earthquakes happened in Pennisular India are possible in Mullaperiyar region with almost same geology. He had done detailed dynamic analysis using both scenarios and found that the dam is unsafe for both cases with water level above 136ft. Then, Prof. Iyengar had concluded that it is not prudent to raise the water level in the reservoir from the existing level of 136 feet under any circumstances.

However, the said studies of Prof. Iyengar were rejected by the CWC on the ground that Prof. Iyengar had adopted PGA based on values of Uttarkashi and Koyna Earthquakes. They rejected the seismic inputs used by him citing that those are not based on site specific assessment of seismicity accelogram relevant to tectonics of Mullaperiyar site.

Site Specific Seismic Hazard Assessment by Earthquake Engineering Department of IIT, Roorkee in 2008

Indian Standard specifies that instead of using the general seismic co-efficient applicable for zones, detailed site specific studies must be conducted for special structures like Dam, Nuclear Power Stations, Major Bridges, etc to determine the seismic co-efficient. But neither CWC nor Expert Committee has ever conducted such a study for Mullaperiyar Dam even though they questioned the logic of Prof. R.N. Iyengar’s adoption of seismic co-efficient. Instead they decided to adopt the zonal seismic co-efficient, which are used for general structures.

In the above context that, after detailed deliberations, Government of Kerala decided to entrust the Earthquake Engineering Department of IIT, Roorkee to study the site specific seismic parameters of the Mullaperiyar dam region and to carry out a detailed Structural Stability Analysis using Dynamic Method. The above Institution was selected because they are the premier institute in India for such studies and of high international repute. 

It is worth to note that all site specific studies are to be conducted in a radius of 300KM zone of influence by the national and international practises. IIT, Roorkee team have identified 22 major faults in a radius of 300km around Mullaperiyar dam site. Out of this, the Tekkady-Kodaivannalur Fault is identified as the one which will create most devastating effect on the Mullaperiyar dam site, which is capable of producing an earthquake of 6.5 Magnitude in Ritcher scale with a close distance of 16km from dam site. The intensities of maximum possible earthquakes due to the 22 faults and their effect on Mullaperiyar dam site were studied in detail. IIT, Roorkee in their report on Seismic Hazard Assement recommended that the existing Mullaperiyar dam has to be checked for its safety under Maximum Considered Earthquake (MCE) condition since eventuality of its failure may result in huge economic and human loss. Finally Dr. D.K. Paul and Dr. M.L. Sharma of IIT, Roorkee have concluded that the (MCE) possible in Mullaperiyar region will produce a Peak Ground Acceleration (PGA) of 0.21g at the site.

 22 Major Faults around Mullaperiyar dam considered by IIT, Roorkee

IISc Study of Vulnerability of Central Kerala to Seismicity in 2009

A recent study conducted by Dr. C.P. Rajendran, Fellow, Centre for Earth Sciences, Indian Institute of Sciences, Bangalore jointly done with Kusala Rajendran, IISc, Bangalore, Biju John, National Institute of Rock Mechanics, Kolar and B. Sreekumari, KFRI, Peechi has reassessed the seismic hazard in Kerala in the light of improved historical and instrumental database. The improved historical database essentially suggests that the central midland region is more prone to seismic activity compared to other parts of Kerala. The above paper was published in June 2009 issue of the prestigious journal of Geological Society of India. 

Central Midland region of Kerala appears to have generated larger number of significant earthquakes; the most prominent being the multiple events (doublets) of 1856 and 1953, whose magnitudes are comparable to that of the 2000/2001 (central Kerala) events. Occurrences of these historical events and the recent earthquakes, and the local geology suggest that the NNW-SSE trending faults in central midland Kerala may host discrete potentially active sources that may be capable of generating light to moderate size earthquakes. A simple statistical treatment of the historical information suggests that an earthquake of magnitude ML 4.5 to 5.5 can be expected to recur in the central midland region every 25±22 years. Thus from a hazard point of view, the central midland region must be considered as seismically most potential in Kerala.

Isoseismals of 2000-2001 and felt areas of 1952-53

The seismicity in Kerala shows a perceptible increase during the recent times. They ascribe this rise in seismicity to  the anthropogenic activities that probably impacted the changes in hydrologic regimes in facilitating faster hydrostatic pressure transmission to hypocentral depths. The post monsoon relative increase in seismicity must be understood in this context. They speculate that the ground water plays a key role in triggering micro tremors in Kerala for want of other mechanisms to explain such temporal characteristics. Longterm changes in rainfall cause periodic temporal variations of water table.

The exhaustive study considered the 87 earthquake records recorded at the IMD’s Broadband station at Peechi during December 2000-December 2008. The study also considered all historical earthquakes reported from 18th Century onwards in the region. an important point to be noted is that there was a general increase of seismicity in the southern India after the 2001 (January 26) Bhuj earthquake in particular in the Koyna region, and there was also an M 4.5 earthquake from the Karnataka-Tamil Nadu border on January 29, 2001.

Historic Earthquakes in Central Midland Kerala

They concludes their study with the recommendation that the engineered structures in the central midland region should incorporate at least the most conservative seismic codes available for the region, but these will not be sufficient for critical facilities. The critical facilities must be designed based on exclusively site specific seismic study.

Structural Analysis by Finite Element Model and Dynamic Analysis by IIT, Roorkee in 2009

The structural stability of a dam can be determined either by pusedo static method or dynamic method. In the pusedo static method the effect of the earthquake forces is considered as pure static loads, by simplifying their dynamic effect. This method is prescribed only for the preliminary design of the dam structure. The Indian Standard recommends the dynamic analysis for the final design and analysis. ICOLD (International Commission for Large Dams) also recommend Dynamic Analysis for the safety evaluation of the existing Dams.

A detailed structural stability analysis by dynamic analysis using a Finite Element Mesh (FEM) method can only give light to the structural stability of the Mullaperiyar Dam. The advantage of the FEM method is that it will enable us to truly represent the heterogeneity of the dam structure. If such an FEM model is subjected to dynamic loading by the dynamic analysis, the structural stability can be determined with high degree of accuracy. The only dilemma faced by State of Kerala was to supply the in situ material properties of the Mullaperiyar Dam for carrying out the studies. As such the dam is under Tamil Nadu custody, it was finally decided to rely the test results of 1972-73 and 1983 core test results done by Tamil Nadu in this regard, which was relied upon by the CWC.

The structural stability of the Mullaperiyar Dam was done using Dynamic Analysis after creating a Finite Element Model (FEM). The structural stability of the Mullaperiyar Dam was analysed considering the following conditions:

  • Normal Operating Condition (Full Reservoir Level without considering earthquake)
  • Flood Level Condition (Maximum Water Level without considering earthquake)
  • Earthquake Condition (FRL with earthquake and MWL with earthquake)

IIT, Roorkee submitted their second part of the study report in October, 2009. The detailed Structural Stability Analysis clearly brought out the following:

                                            i.            The Main Mullaperiyar Dam even under DBE condition (seismic co-efficient of 0.12g) under reservoir level of 136ft, the value of tensile stresses are found more than double the ultimate apparent seismic tensile stresses. The MCE condition makes the things much worse.
                                         ii.            Even without earthquake forces, the Main Mullaperiyar Dam is unsafe for flood conditions (MWL) since the tensile stresses in the heel of the dam are found to be more than double the permissible apparent tensile stresses.
                                       iii.            In the normal operating conditions, the tensile stresses in the Mullaperiyar Dam at the heel are at the border level of the allowable stresses.
IIT, Roorkee made the following recommendation finally “Based on the analysis, both the Main Mullaperiyar dam and Baby Dam are likely to undergo damage which may lead to failure under static plus earthquake condition and therefore needs serious attention.”


The above conclusions/suggestions/recommendations from the country’s premier scientific organizations like GSI, CESS, IISc, IIT, etc clearly indicates the seismic vulnerability of the region around Mullaperiyar Dam. The inherent weakness of the dam will lead to the collapse of the structure in the event of a higher earthquake of magnitude above 5.0 in Ritcher scale in the immediate vicinity of 15 KMs or so. Such a failure of the Mullaperiyar Dam will lead to a catastrophe to the thousands of people living downstream of this century old dam. State of Kerala fervently prays that no calamity occurs during the interim period till the new dam is completed.

It is not fair to Tamil Nadu to keep a blind eye to the above facts. Nothing in life is entirely risk free, and indeed science cannot demonstrate freedom from risk, particularly from as yet known risks, because ‘absence of evidence’ is not ‘evidence of absence’! There are situations where engineers may disagree with one another. Some experts may consider the condition of a dam to be marginally safer than what others say it is. But nature has its own way, and experts’ expectations and calculations may go awry. Once there are reasonable apprehensions about the imminent danger and the possibility of a risk, the State should not take any chances.

1. History of the Periyar Project, A.T. Mackenzie (1898)
2. History of Periyar Dam with Century Long Performance, Prof. A. Mohanakrishnan (1997)
3. Memorandum of Rehabilitation of Mullaperiyar Dam, CWC (1986)
4. Geological Document of Periyar Dam, V. Balachandran, Geological Survey of India (1995)
5. Stability of Mullaperiyar Dam in the light of Recent Earthquakes, Final Report by Expert Committee submitted to Government of Kerala (2001)
6. Safety of Dams : Flood and Earthquake Criteria, National Academy Press (1985)
7. Report of the Committee setup by the Ministry of Water Resources, GoI to study the problem of Dam Safety in Mulla Periyar Dam & Raising of the water level in the Mulla Periyar reservoir, CWC (2001)
8. Regulatory Frame Works for Dam Safety, World Bank (2002)
9.  Structural Stability of Mullaperiyar Dam consisting Seismic Effects, Part I - Seismic Hazard Assessment, Earthquake Engg Dept, IIT , Roorkee (2008)
10. Structural Stability of Mullaperiyar Composite Dam, Part II - Structural Stability Analysis, Earthquake Engg Dept, IIT , Roorkee  (2009)
11. Technical Report on Periyar Dam, Government of Tamil Nadu (1998)
12. Reassessing the Earthquake Hazard in Kerala based on Historical and Current Seismicity, Dr. C.P. Rajendran, IISc, et all, Journal of Geological Survey of India (June 2009)


priyesh said...

The better way to convey is "EXPECT THE UNEXPECTED".....

Captain Haddock said...

Good post !!!

നിരക്ഷരന്‍ said...

Please check this blog. It's related to mullaperiyar dam.

samvidanand said...


Anonymous said...

Please read

Anonymous said...


Will you please remove the above comment and link from this comment box.

These kind of people are the curse of our nation.

James Wilson said...

Thank u all especially നിരക്ഷരന്‍ for the kind comments...regarding the 'Mullaperiyar and Sabarimala'..statistics, if not properly used, are always deceptive........but in a democracy dissent is always helpful. So all opposite views are welcome..Mullaperiyar issue is not a communal issue, it is an issue which affects lives of millions of people, irrespective of their cast nd creed, so we can feel pity about the people who are letting their imagination go wild..:)

Anonymous said...

Thank you, James Wilson Sir.

"but in a democracy dissent is always helpful. So all opposite views are welcome"

I think your comment will be a good lesson in democractic values to many bloggers here.

"statistics, if not properly used, are always deceptive" ;
If you would have noticed, statistics were mere pointers;
"so we can feel pity about the people who are letting their imagination go wild..:)"
Thank you for your comments.

James Wilson said...

@welcome...but it will be appreciated if u put ur name..:)

James Wilson said...

@Annonymous1 - since ur not given ur name..let me call u like that..i have read the article on The reply to this article can be detailed in a separate post.

ronie said...

Thank u James sir, informative...Appreciate ur efforts, keep spirit...
Ronie Thomas

James Wilson said...

@Ronie - welcome...its nice to hear frm u after a long time..:)

kadungath said...

Thank u Mr. James the report about the mullaperiyar dam is useful to all every keralite needs to read this blog and know the history of Mullaperyar dam

മേൽപ്പത്തൂരാൻ said...

Thank you, James Wilson Sir. :(

James Wilson said...

@Kadungath nd Melppathooran - thnx for ur endorsement..:)

smita said...

a very well crafted information. Now what is to be done.i think awareness about these facts should be spread in a simplified way so that the people who will be affected become aware and take proper action. otherwise we are simply living on the mercy of nature... knowing very well the stature of devastation which can be caused.
more and more people should be made aware and the govt should take a timely step .

വില്‍സണ്‍ ചേനപ്പാടി said...

മാതൃഭൂമിയില്‍ വാര്‍ത്തകണ്ടപ്പോള്‍
ഇവിടെ വന്നിരുന്നു.
മുല്ലപ്പെരിയാറിന്റെ യാഥാര്‍ത്ഥ്യങ്ങള്‍
മനസിലാക്കാന്‍ സാധിക്കുന്നുണ്ട്.
ന്യൂസ് ലെറ്ററിന് ഭാവുകങ്ങള്‍.
അധികാരികള്‍ക്ക് ഗുണകരമായ
തീരുമാനങ്ങള്‍ എടുക്കാനും
നടപ്പാക്കാനും കഴിയട്ടെ.
ഭയമില്ലാതെ എല്ലാവര്‍ക്കും ഉറങ്ങുവാന്‍ കഴിയണം

James Wilson said...

thnx wilson for visiting....ur support matters a lot..:)

Anonymous said...

mullapperiyar adhikarikal kannadakkunnu

T.R.GEORGE said...

‘മുല്ലപ്പെരിയാര്‍‘എന്ന പേരില്‍ ഒരു കവിത ഞാന്‍ എഴുതിയിട്ടുണ്ട്.ഈ ബ്ലോഗ് അതിനെ സഹായിച്ചു.നന്ദി.

-=J.V=- said...

we need you here.. Please join

സതീ,ഷ് ഷൊര്‍ണൂര്‍ said...

ഈ നാടിനെ രക്ഷിക്കാനുള്ള താങ്കളുടെ ഉദ്യമത്തിന് ഹൃദയം നിറഞ്ഞ നന്ദി... എല്ലാവരും നേരന്പോക്കുകളില്‍ മയങ്ങുന്പോള്‍ വരാനിരിക്കുന്ന ഒരു ദുരന്തത്തെ ഈ സമൂഹത്തിനു മുന്നില്‍ തുറന്നു കാണിക്കാന്‍ താങ്കള്‍ നടത്തിയ
പരിശ്രമങ്ങളെ എത്ര അഭിനന്ദിച്ചാലും മതിയാവില്ല.
കേന്ദ്രം ഭരിക്കും ഗോസായിമാര്‍ക്ക് കേരളീയരുടെ ജീവന്‍റെ വിലയറിയില്ല. എന്‍ഡോസള്‍ഫാനായാലും മുല്ലപ്പെരിയാറായാലും വര്‍ഷങ്ങള്‍ നീണ്ടു നില്‍ക്കുന്ന പഠനം... പഠനം വീണ്ടും പഠനം... കോടതിയും തഥൈവ... 'സ്വത്തിനും, ജീവനും' സംരക്ഷണം തരേണ്ടവര്‍ ഈ അലംഭാവം വച്ചു പുലരുന്പോള്‍ നാം പ്രതിഷേധത്തിന്‍റെ തീജ്വാലകളുയര്‍ത്തണം. മലയാളി ഈ നൂറ്റാണ്ടില്‍ അഭിമുഖീകരിക്കുന്ന ഏറ്റവും വലിയ പ്രശ്നമായി ഇതിനെ ഉയര്‍ത്തിക്കാട്ടണം. എന്‍ഡോസള്‍ഫാന്‍ വിഷയത്തില്‍ കേരളം പ്രതികരിച്ചപോലെ ഇനി മുല്ലപ്പെരിയാര്‍ പ്രശ്നത്തിനും പ്രതിഷേധം കത്തിപ്പടരണം. സോഷ്യല്‍ നെറ്റ്‌വര്‍ക്കിങ്ങ് സൈറ്റുകളുടെ ശക്തി നാം അണ്ണാഹസാരേ സമരം മുതല്‍ വാള്‍സ്ട്രീറ്റ് സമരത്തില്‍ വരെ കണ്ടതാണ്. ശക്തമായ പ്രചാരണപരിപാടികള്‍ നാം ആസൂത്രണം ചെയ്യണം. അതില്‍ നിന്നുണ്ടാവുന്ന തീക്കാറ്റുകള്‍ എല്ലാം കണ്ടിട്ടും കാണാത്ത ഭാവം നടിച്ച് ഉറക്കം നടിക്കുന്ന ഭരണാധികാരികളെ പൊള്ളിയുണര്‍ത്തട്ടെ....

gopikrishnan said...

Gr8 effort by you sir...It has thrown light on actual issues relating to the mullaperiyar dam...What course of action do we need to do sir to prevent this catastrophe from happening............other than strikes or hartals..........Anything you tell and tht can be done through the media is adviseable b'coz still many are unaware of the situation......

Priyu said...

james sir i am using some contents of your write-ups for a petition campaign for save sinking kerala movement

James Wilson said...

Thanks George,JV, Satheesh, Gopi and Priyu for ur comments.....I was entangled with our lawyers to give a rejoinder to the TN's response on the new dam. Seen a lot of anonymous comments here. The intention of this blog is to share facts rather than fiction. No more anonymous/racial comments will not be entertained here.

Shibu Abraham said...

Thank You Mr., James. Very informative article, I have a question about the agreement. As long as the agreement is invalid, (This agreement expired in 2000) why we need a permission from TN.
On 29 October 1886, a lease indenture for 999 years was made between Maharaja of Travancore, Vishakham Thirunal and Secretary of State for India for Periyar irrigation works. The lease agreement was signed by Dewan of Travancore V Ram Iyengar and State Secretary of Madras State (under British rule) J C Hannington. This lease was made after constant pressure on Travancore King by the British for 24 years. The lease indenture inter alia granted full right, power and liberty to construct, make and carry out on the leased land and to use exclusively when constructed, made and carried out all such irrigation works and other works ancillary thereto to Secretary of State for India (now Tamil Nadu). The agreement was to give 8000 acres of land for the reservoir and another 100 acres to construct the dam. And the tax for each acre was 5 RS per year. When India became independent, the lease got expired. After several failed attempts to renew the agreement in 1958, 1960, and 1969, the agreement was renewed in 1970 when C Achutha Menon was Kerala Chief Minister. According to the renewed agreement, the tax per acre was 30 RS, and for the electricity generated in Lower Camp using Mullaperiyar water, the charge was 12 RS per kiloWatt per hour. This was without the consent of the Legislative Assembly of Kerala. This agreement expired in 2000. However, Tamil Nadu still uses the water and the land, and the Tamil Nadu government has been paying to the Kerala government for the past 50 years 2.5 lakhs Rs as tax per year for the whole land and 7.5 lakhs RS per year as surcharge for the total amount of electricity generated.

justonelife said...

salute you for your great effort sir..we all are with you

mullaperiyar said...

I thing it is a very good effort to do some thing against the coming tragedy

Abdul Kader said...

Join hands to protect the lives of 3 million. Share your Views to the public... Join Us to save Mullaperiyar Dam

Don Davis said...

good work...

Don Davis said...

good work

Jiten K Panddya said...

Hello,I am contemplating visiting Thekkady,Ashtamudi and Munnar with my family and request you to advise as to whether it will be safe to visit in the second half of december,2011.

vinod said...

Thanks for the effort you have made......the politicians and the bureaucracy playing with the lives of innocent people and the economy of the state......Its the time of the common man to rise.....rise...rise....

menon&menon said...

Halo James sir,It is very nice effort of you,were all these informations available with both states correspondents,Its surprising what measures have all these people taken for it?.................GODS OWN COUNTRY survival in this country very hard.........

Rajasekar Thulasilingam said...

hello sir could you please tell us about your new Dam Proposal ?

Saji said...

Hi, Thanks for the post, very interesting. I would like to read the report from IIT roorke. Would you know where I can find a copy of the report. (Structural Stability of Mullaperiyar Composite Dam, Part II - Structural Stability Analysis, Earthquake Engg Dept, IIT , Roorkee (2009))
Thanks Saji (

நான் சிவன் said...

Mr. James wilson, I read your article shared by a mallu friend. ( The first impression : This doesn't seems to be an article of an engineer but a pure politician (Grandma dam, beautification etc). As you are a civil (electricity board??) engineer directly associated with this dam, Please answer our simple question - Why cant we build the new dam in same place?. Many other people (including some keralites) keep on asking the same question to you but you're not answering.

Tamilan said...

Tamilan said...

Mullai periyar-Politics

Binny Mathew said...

Great article!Would it not be possible to point out the views expressed in this article to the supreme court and cross examine the findings of the expert committee so far has taken?

Binny Mathew said...

Great article. Can't the findings in this article be presented in the supreme court to cross examine the conclusion of CWC in the past?

Binny Mathew said...

Excellent study. Can't your findings be taken as points for the arguments against the former reports of expert committe which are favourable to Tamil Nadu or aginst the probable future reports of EC which could be favourable to Tamil Nadu.

JJM said...

Dear Sir,

I have serious doubts whether Mr Thatte has been 'influenced' by Tamil Nadu. His behaviour during the recent visit clearly needs some valid explanation! I do understand the plight of the Tamilians if they are denied of water. What is your opinion about the new idea of building a tunnel 50 feet below the current level? Is it practicable? If it is not and a new dam still remains the only solution, how should Kerala take things forward? Tamilians (with all due respect) seem to be a very sensitive lot and they have a low threshold for extreme measures!

Many thanks for your help and advice.

Samreen Haneefa said...

The political people are making the Mullaperiyar topic a huge one....we should also understand that the dam is not in a state that it will break today or tomorrow. the need now is only to build a new dam as soon as possible . Because building a dam may take at least a decade . During this period there are mere chances for the dam to break . when the dam was build it was proposed that the dam can live until the age of if it can live double the age THAT was proposed surely it can live more but mind it that water contains substance which can corrode substances very very easily . Let us all pray for the good . Currently i am in Cochin because we have winter holidays in Sharjah , i am a student and i wanted to know how will earthquake's effect the dams condition and preventive measures for my physics holiday homework and the information posted here has HELPED me a lot . Looking forward for more information on the damn dam case =P
-Samreen Haneefa , 8TH grade .

Post a Comment