Pokhran II: The Challenge of Sinking Shafts
Hoisting Bucket with Winder Assembly in the Background
Pokhran II took place in May 1998 under Operation Shakti. A total of five tests with weapon grade plutonium were conducted – three on 11 May and two on 13 May. The tests included a 45 kt fusion bomb (also called hydrogen or thermonuclear bomb), a 15 kt fission bomb (atomic bomb) and three experimental sub-atomic devices of 0.5, 0.3 and 0.2 kt respectively.
Dr K Santhanam of the Defence Research and Development Organisation (DRDO) was the director for the test site preparations. In an interview to Times Now TV channel in April 2008, he revealed that India had dug two deep shafts at Pokhran in 1981-82. The fission and fusion bombs were placed in these shafts. For sub-atomic tests, use was made of three abandoned dry wells in the near vicinity. These wells had earlier been dug by the villagers and deserted as no water had been struck.
The Indira Gandhi government had decided to carry out tests in 1982-83 and the army was asked to sink the shafts. 113 Engineer Regiment completed the task ahead of schedule but the tests were shelved due to external pressures. More than a decade later, Prime Minister PV Narasimha Rao asked the scientists to go ahead with the tests in 1994-95. Unfortunately, the US satellites detected the preparations. Once again, India was forced to abort the tests.
A word about shaft sinking will be in order here. To approach underground mineral seams, a vertical opening (shaft) is provided from the surface to the mining zone. These shafts are used to carry men, material and equipment to the mining zone; as also, to haul the extracted ore to the surface. Being the lifelines of all underground mines, shafts are sunk with exacting technical specifications.
Essentially, a shaft contains a head-frame (tower) to house the hoist; a shaft collar of reinforced concrete to provide foundation support to the head frame and to accommodate mechanism for men, materials and services to enter and exit the shaft; and shaft barrel that continues from the collar to the planned depth. The shaft also carries ducts for the pumping of fresh air, dewatering pipes and electrical fittings. All mining manuals term shaft sinking to be the most dangerous and hazardous task of all mining operations. It requires domain expertise and specialised equipment. There are a handful of shaft sinking companies in the world, normally called ‘sinkers’. All mining companies outsource shaft sinking operations to them.
113 Engineer Regiment, located at Jodhpur, was asked to undertake the task. The regiment was under the command of the late Lt Col KC Dhingra (later rose to the rank of Major General). Col Dhingra was an extremely intelligent officer with phenomenal memory and exceptional capacity for sustained hard work. The regiment was acutely aware of the criticality of the task and the trust that had been reposed in its capability to deliver. It was determined not to let the nation down. I was a Major in the regiment and had the privilege of being involved from the beginning to the culmination of the task.
Head Frame Tower under Camouflage Nets
It was an unprecedented assignment. To sink a shaft hundreds of feet deep with no experience and no equipment was a huge challenge – more so as none of the officers had ever visited a mine or seen a shaft; nor had anyone studied mining engineering which is a specialised course. Although site preparations for Pokhran-I were also carried out by the army engineers, the task was of entirely different genre and did not entail sinking of subterranean shafts ab initio. Pokhran-I was conducted at a much shallower depth, using an abandoned dry well.
Site Selection
It was the month of January 1981. After an exercise in the desert, Col Dhingra asked me to accompany him for an operational reconnaissance. While driving to the Pokhran ranges he told me that the regiment had been tasked to sink a deep shaft of more than 500 feet. Repeatedly stressing the need for secrecy of the mission, he gave out other broad parameters. With maps in our hands, we traversed the ranges a number of times over the next two days to get a feel of its extent and zeroed on to a nine square km area that satisfied our security and secrecy concerns. It was well away from the highways and the villages. The aim was to identify a location where the water would pose minimal impediment to the shaft sinking operations. Hence, site selection was a highly critical step. But, how to go about it? We had no knowledge.
Within a week, I was back in the Pokhran area with a team of officers and men for detailed ground reconnaissance. After much scouting and ground survey, we selected four tentative sites that lay in the inter-dunal low-lying areas with least sand overburden. We also approached the nearby villagers to draw benefit from their local knowledge. We told them that the army wanted to establish a permanent camp and was looking for reliable water sources. We showed them the four sites and asked them to advice as to where the water could be found. We, of course, intended to eliminate those sites.
One evening, without informing us, the local headman brought a water diviner from Pokhran town and started appraising the sites. It was a full moon night. Water divining is an esoteric ancient method in which the locals have immense faith. It is believed that the flow of underground water induces some vital currents above the surface and a person with induction attributes can sense them through the movement of a freshly plucked twig. We watched in disbelief while the water diviner announced that none of the sites held abundant water. For us, it was just a gratuitous input of little consequence as the technique lacked scientific authentication.
We approached Central Arid Zone Research Institute (CAZRI) at Jodhpur for help in identifying water sources. They explained to us that the availability of perched aquifers (an underground layer of water-bearing permeable rock, rock fractures or unconsolidated materials) and underground streams depended on the geology and geomorphology of the area. CAZRI readily gave us geologic and topographic maps of the area. We studied them in detail, trying to relate them to the four sites selected by us. However, we were still not confident and sought application of a more exact and scientific method.
After much persuasion, Col Dhingra agreed to seek help of a local hydrogeology agency that specialised in water prospecting for wells. The agency was told the same story i.e. the army was looking for a camp site with a water source. The agency could carry out core drilling for geologic sampling up to 150 feet only. Once again, the core logging declared all the sites ‘unfit for sinking well’, meaning thereby that water was not available in exploitable quantity. Even the seismic survey gave the same report. Though encouraging, the reports were not a clincher as we had to go down to more than 500 feet.
After studying all the inputs (whatever be their worth), we selected two sites. In consultation with the higher authorities, it was decided to attempt digging at more than one site to cater for unforeseen hold-ups. However, as the work progressed, the authorities decided to go ahead with both the shafts.
Sinking of the Shafts
Two task forces were constituted, and the work started at both the sites in Feb 1981 end without much fanfare. A small ceremony was held to invoke blessings of Ramdevra, the ruling deity of the desert whom the locals consider to be an incarnation of Lord Krishna. Thereafter, diameter of the shaft was marked on the ground with pegs and the digging commenced with picks and shovels. For a few days, hauling of the dug earth was done manually with mortar pans. Thereafter, the unit crane was deployed with a modified coal-tar drum. Soon the crane rope reached its limit. To prevent caving in, revetment of the walls was done with flattened CGI sheets and iron pickets.